Version 0.7 (an ALPHA release)
by Lennart Staflin
2006-06-09
CLORB is an Object Request Broker implementing CORBA 2. It currently supports IIOP 1.0, IDL, DII, DSI, POA and value types. The goal is to make the mapping follow the proposed mapping for LISP [1].
New in 0.7:
- Multi-Threading support for MCL, OpenMCL and SBCL.
- OpenMCL: real select
It lacks:
- wide strings, chars
- Request context
- DynAny
- CORBA Messaging
- IIOP 1.2
CLORB is released under GNU Library General Public License see the file COPYING.
Ports: MCL 5 only tested with Max OS X native OpenMCL working (1.1) (Mac OS X) SBCL working on Mac OS X and Debian GNU/Linux (i386) CLISP works again (2.38)
Non-working ports:
ACL 6.2
CMUCL ?
[1] http://www.omg.org/technology/documents/formal/lisp_language_mapping.htm
The file clorb-files.lisp contains code to compile and load CLORB. There is also an ASDF system definition file clorb.asd. The ASDF definition is good enough for loading CLORB, but inconvenient for hacking.
clorb-files.lisp defines a package NET.CDDR.CLORB.SYSTEM and a function RELOAD (in that package) that will compile and load CLORB. It will load files relative to the directory from where clorb-files was loaded.
The files:
-
devel.lisp - Loads CLORB for development purpose, it also initiates the ORB and the object adaptor. It runs all the test cases and prepares the "hello world" example (use (hh) to run it or (hhn) to use the Name Service).
-
loadup.lisp - Loads CLORB for normal use. The code will be loaded but not initialized.
It is not necessary to setup any logical pathname hosts to load CLORB. But some extra features like test cases and examples might depend on the "CLORB" host. It should then be set up to map CLORB:SRC; to the main CLORB sources and allow relative directory references.
When compiling and loading clorb some clorb specific features control the process.
Features to control what socket/tcp code gets used:
:use-acl-socket use the ACL-SOCKET package in preference to
native socket support (requires the acl
compatibility package)
:dummy-tcp don't include any socket code (can be used to
test the rest of the code)
Features that are automatically determined (in clorb-sysdep):
clorb::cmucl-sockets
clorb::db-sockets
clorb::sb-bsd-sockets
clorb::mcl-bsd
After CLORB has been loaded and before the ORB can be used it has to be initialized. This is done with the CORBA:ORB_init function.
(CORBA:ORB_init arguments orb-id) => orb-object, arguments'
Where arguments is a list of strings (as would usually be passed to a command line program in Unix) and orb-id is a string identifying the particular orb (only one is supported pass "" for this). The function can be called more than once, and will return the same object. The argument list will be processed by every call.
In the arguments list, items starting with "-ORB" will be recognized and removed (the item after will also be removed if it provides argument to the -ORB argument). The remaining arguments will be returned as a second return value. The recognized items are:
-ORBInitRef Name=IOR
This provides value for the initial references. A call to
op:resolve_initial_references with Name will return the object
references by the IOR.
-ORBDefaultInitRef IOR
-ORBPort port#
Specify the port that the Object adaptor will listen on.
-ORBHostname name
Specify the hostname that will be included in object references,
could also be an IP-number.
The clorb:log-level controls the amount of logging done by CLORB. It should be an integer, lower value gives more logging. Logging is written to the stream log-output.
(CORBA:IDL pathname &key eval print output skeleton) => repository
Load and parse the IDL file referenced by PATHNAME. The interface repository containing the parsed IDL file is returned. The necessary code to use this interface is generated and loaded (unless the eval key is nil).
Producing a Lisp file with all code for an IDL file:
(CORBA:IDL "foo.idl" :output "foo.lisp")
The abow will also load the code. To only produce the file specify :eval nil. (Some packages might still be created as a side effect.)
(op:list_initial_services orb) => list-of-names
(op:resolve_initial_references orb "NameService") => object-reference
(op:string_to_object orb "IOR") => object-reference
The IOR could be on the IOR:xxx form or it could be a file or http URL, in that case the references resource is should contain an IOR. The IOR could also be a corbaloc or corbaname IOR.
CLORB specific utility functions:
(clorb:obj ior &optional type) => object-reference
Like string_to_object, but shorter and optionally narrowing the object
reference to the given type. The type should be the scoped symbol for
the interface. E.g:
(clorb:obj "corbaloc::localhost:2700/NameService" 'cosnaming:namingcontextext)
(op:resolve name-string) => object-reference
lookup the name in the name service. The syntax for name-string is as
described in the portable name service specification. E.g:
(op:resolve "contxt/name.kind")
(op:narrow type object-reference) => object-reference
returns a type-specific proxy for the object-reference. Type should be
a scoped symbol for the interface. This is compatible with LW CORBA.
E.g: (op:narrow 'clorb_ex:hello obj)
Initialize and get a reference to the ORB object.
(defvar *the-orb* (CORBA:ORB_init))
Load the IDL for the interface.
(corba:idl "clorb:idl;Random.idl")
Obtain an object reference and call methods on the reference.
(let ((obj
(op:string_to_object *the-orb* "http://www.random.org/Random.ior")))
(op:lrand48 obj))
[Unfortunately the CORBA server for random number where not answering the last time I tried it.]
Initialize the ORB and load the IDL for the interface, as for Client Operation.
Get a reference to the Root POA (Object Adapter).
(defvar *poa* (op:resolve_initial_references *orb* "RootPOA"))
Possibly create another POA with policies tailored for the server needs.
Activate the POA:
(op:activate (op:the_poamanager *poa*))
Create and register a servant:
(defvar *servant* (make-instance 'my-class))
(defvar *object* (op:activate_object *poa* *servant*))
Get stringified IOR for object
(op:object_to_string *orb* *object*)
The string can be transfered to the client in whatever way. Or register with name service
(clorb:rebind *object* "my-name")
MCL 5.0 is the current main development environment. You also need the BSD package URL:http://babs.cs.umass.edu/~bburns/software/bsd.lisp. The networking code can either use OpenTransport directly or use the ACL-COMPAT code from portable allegro server [fix reference].
To load CLORB you need to do something like this:
(require 'bsd)
(load "CLORB:SRC;CLORB-FILES")
(net.cddr.clorb.system:reload)
(load "clorb-files") (net.cddr.clorb.system:reload)
;; Initializing the ORB (defvar orb (CORBA:ORB_init (list ;;"-ORBPort" "4712" ;;"-ORBInitRef" "NameService=corbaloc::127.0.0.1:4711/NameService" )))
Tried with version 0.9.0 on MacOS X, 0.8.16 on Debian GNU/Linux i386.
The system dependent part will (require :sb-bsd-sockets).
(load "clorb-files") (net.cddr.clorb.system:reload)
;; Initializing the ORB (defvar orb (CORBA:ORB_init (list ;;"-ORBPort" "4712" ;;"-ORBInitRef" "NameService=corbaloc::127.0.0.1:4711/NameService" )))
You might need a recent version of CLISP for CLORB to work. I have tested with 2.33 on both Debian GNU/Linux (i386) and on Mac OS X 10.2.8.
There is a pretty printer bug in CLISP 2.32 that cause problems for the CORBA:IDL function with either :print or :output options. You can get around this by also specifying :pprint-dispatch nil. (This seems to be needed for 2.33 also.)
CLORB 0.6 seems to work with CMUCL 19a. Except for a problem loading the fasl file for cosnaming-stub. A work-around is to
(setf c::top-level-lambda-max 0)
before compiling.
Tested on Debian GNU/Linux (i386) and Mac OS 10.3.9.
From: Daniel Barlow dan@telent.net Date: 11 May 2000 00:39:38 +0100
[...]
-
The user has a choice of socket libraries: the standard CMUCL socket code, or my replacement sockets library. The standard code doesn't support the socket option SO_REUSEADDR (without writing ffi glue) so you need my sockets if you want to do server applications. You can get it at http://ww.telent.net/lisp/sockets.html
-
The system is built using mk-defsystem, which comes with CMUCL (if you use the Debian packages, at any rate).
-
Only tested on ix86 GNU/Linux so far.
-
It works, kind of. It's not been extensively tested. I can make it talk as a client to the GNOME Help viewer (see http://ww.telent.net/corba/gnome-lisp.html for a worked example), and I can make the ORBit 'name-client' test program talk to your CosNaming service implementation. Serving is a bit CPU-intensive until I get it actually blocking instead of busy-waiting when waiting for a connection.
-
It's not been tested recently in SBCL (Steel Bank Common Lisp) but there's no particularly good reason for it not to work there too. You'll have to use my socket library in that one, because it doesn't have any socket code of its own at all.
[...]
The subdirectory examples contain some examples.
- Hello World
In examples/hello. This is a simple client/server example. The file hello.idl describes the interface:
module CLORB_EX { interface HelloWorld { string greet (); }; };
The server implements a servant with a method "greet" that returns a string. The client obtains an object reference and calls the greet method.
Load examples/hello/loadup (loaded by default by devel.lisp), and the in the server run
(run-hello :file "/tmp/hello.ior")
In the client run
(hello-client :file "/tmp/hello.ior")
The :file argument specifies how the object reference is exchanged. If you have a name server configured you can use then :name argument instead.
CLORB comes with a test suite. The test coverage is currently spotty.
The support system for the test cases has now been put in its own package. I have also used it for some other projects. The code is however included in the luna subdirectory. Some CLORB specific support is in the support-test.lisp.
The files test-*.lisp contains test suits for parts of CLORB and the file all-test.lisp runs all the test suites and aggreates the result.
clorb-*.lisp
This is main part of the ORB.
clorb-options.lisp
Some parameters that might need to be customized. Especially host-name and how to find the Naming Service and Interface Repository.
pns-server.lisp
A new implementation of CosNaming, where the state is stored in files (thus persistent).
idef-read.lisp
,idef-write.lisp
Read and write IDEF, an sexp version of IDL. These reads and writes from the local Interface Repository implemention.
-
idef-macros.lisp
Macro wrapper around idef-read to allow IDEF to be loaded from file. Also macro for defining servant skeleton class for use with the CLORB auto-servant class. -
cosevent-idl.lisp
,cosnaming-idl.lisp
IDEF version of standard IDL for CosEventChannel and CosNaming. (generated by idef-write)
cosnaming-stub.lisp
The types, classes for CosNaming according to the OMG Lisp Mapping. Proxy classes and operation methods. (This partly hand created static stub.)
cosnaming-skel.lisp
Servant classes for CosNaming.
orbit.lisp
Set principal for communication with ORBit (GNOME) servers.
examples/hello/
Hello World example, autoloaded by devel.lisp (via examples/hello/auto.lisp) Try: (hh) or (hhn) Or, in server: (run-hello :name "hello") in client: (hello-client :name "hello") assuming you have a running name server.
examples/dii-example.lisp
,examples/dsi-example.lisp
,examples/dsi/clive.lisp
Example of using DSI (dynamic servant implementation) and DII (dynamic invokation interface) using standard interfaces. From a discussion on comp.lang.corba