/* gnuRequest.java -- Copyright (C) 2005 Free Software Foundation, Inc. This file is part of GNU Classpath. GNU Classpath is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Classpath is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Classpath; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. Linking this library statically or dynamically with other modules is making a combined work based on this library. Thus, the terms and conditions of the GNU General Public License cover the whole combination. As a special exception, the copyright holders of this library give you permission to link this library with independent modules to produce an executable, regardless of the license terms of these independent modules, and to copy and distribute the resulting executable under terms of your choice, provided that you also meet, for each linked independent module, the terms and conditions of the license of that module. An independent module is a module which is not derived from or based on this library. If you modify this library, you may extend this exception to your version of the library, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. */ package gnu.CORBA; import gnu.CORBA.CDR.cdrBufInput; import gnu.CORBA.CDR.cdrBufOutput; import gnu.CORBA.GIOP.MessageHeader; import gnu.CORBA.GIOP.ReplyHeader; import gnu.CORBA.GIOP.RequestHeader; import gnu.CORBA.GIOP.cxCodeSet; import org.omg.CORBA.ARG_IN; import org.omg.CORBA.ARG_INOUT; import org.omg.CORBA.ARG_OUT; import org.omg.CORBA.Any; import org.omg.CORBA.BAD_INV_ORDER; import org.omg.CORBA.Bounds; import org.omg.CORBA.Context; import org.omg.CORBA.ContextList; import org.omg.CORBA.Environment; import org.omg.CORBA.ExceptionList; import org.omg.CORBA.MARSHAL; import org.omg.CORBA.NVList; import org.omg.CORBA.NamedValue; import org.omg.CORBA.ORB; import org.omg.CORBA.Request; import org.omg.CORBA.SystemException; import org.omg.CORBA.TypeCode; import org.omg.CORBA.UserException; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.net.Socket; /** * The implementation of the CORBA request. * * @author Audrius Meskauskas (AudriusA@Bioinformatics.org) */ public class gnuRequest extends Request implements Cloneable { /** * The maximal supported GIOP version. */ public static Version MAX_SUPPORTED = new Version(1, 2); /** * The request reading buffer size. */ public static final int READ_BUFFER_SIZE = 2048; /** * The empty byte array. */ private static final binaryReply EMPTY = new binaryReply(null, new MessageHeader(), new byte[ 0 ]); /** * The context holder for methods ctx(Context) and ctx(). */ protected Context m_context; /** * The context list for method contexts(). */ protected ContextList m_context_list; /** * The request environment for holding the exception * the has possibly been thrown by the method being invoked. */ protected Environment m_environment = new gnuEnvironment(); /** * The list of all exceptions that can be thrown by the * method being invoked. */ protected ExceptionList m_exceptions = new gnuExceptionList(); /** * The result, returned by the invoked method (function). */ protected NamedValue m_result = new gnuNamedValue(); /** * The invocation target. */ protected org.omg.CORBA.Object m_target; /** * The name of the method being invoked. */ protected String m_operation; /** * The flag, indicating that the request has been sent * and the result is already received. */ protected boolean complete; /** * The flag, indicating that the response to this request must be * ignored (used with {@link #send_oneway()}). */ protected boolean oneWay; /** * The flag, indicating that the request has been sent * and no result is yet received. */ protected boolean running; /** * The request arguments. */ protected gnuNVList m_args = new gnuNVList(); /** * The request arguments in the case when they are directly written into * the parameter buffer. */ protected streamRequest m_parameter_buffer; /** * The IOR of the target. */ private IOR ior; /** * The ORB of the target. */ private ORB orb; /** * Set the IOR data, sufficient to find the invocation target. * * @see IOR.parse(String) */ public void setIor(IOR an_ior) { ior = an_ior; } /** * Get the IOR data, sufficient to find the invocation target. * * @return the IOR data. */ public IOR getIor() { return ior; } /** * Set the ORB, related to the invocation target. */ public void setORB(ORB an_orb) { orb = an_orb; } /** * The the method name to invoke. * * @param operation the method name. */ public void setOperation(String operation) { m_operation = operation; } /** * Get the parameter stream, where the invocation arguments should * be written if they are written into the stream directly. */ public streamRequest getParameterStream() { m_parameter_buffer = new streamRequest(); m_parameter_buffer.request = this; m_parameter_buffer.setVersion(ior.Internet.version); m_parameter_buffer.setCodeSet(cxCodeSet.negotiate(ior.CodeSets)); m_parameter_buffer.setOrb(orb); return m_parameter_buffer; } /** * Creates a shallow copy of this request. */ public gnuRequest Clone() { try { return (gnuRequest) clone(); } catch (CloneNotSupportedException ex) { throw new Unexpected(ex); } } /** {@inheritDoc} */ public Any add_in_arg() { gnuNamedValue v = new gnuNamedValue(); v.setFlags(ARG_IN.value); m_args.add(v); return v.value(); } /** {@inheritDoc} */ public Any add_inout_arg() { gnuNamedValue v = new gnuNamedValue(); v.setFlags(ARG_INOUT.value); m_args.add(v); return v.value(); } /** {@inheritDoc} */ public Any add_named_in_arg(String name) { gnuNamedValue v = new gnuNamedValue(); v.setFlags(ARG_IN.value); v.setName(name); m_args.add(v); return v.value(); } /** {@inheritDoc} */ public Any add_named_inout_arg(String name) { gnuNamedValue v = new gnuNamedValue(); v.setFlags(ARG_INOUT.value); v.setName(name); m_args.add(v); return v.value(); } /** {@inheritDoc} */ public Any add_named_out_arg(String name) { gnuNamedValue v = new gnuNamedValue(); v.setFlags(ARG_OUT.value); v.setName(name); m_args.add(v); return v.value(); } /** {@inheritDoc} */ public Any add_out_arg() { gnuNamedValue v = new gnuNamedValue(); v.setFlags(ARG_OUT.value); m_args.add(v); return v.value(); } /** {@inheritDoc} */ public NVList arguments() { return m_args; } /** {@inheritDoc} */ public ContextList contexts() { return m_context_list; } /** {@inheritDoc} */ public Context ctx() { return m_context; } /** {@inheritDoc} */ public void ctx(Context a_context) { m_context = a_context; } /** {@inheritDoc} */ public Environment env() { return m_environment; } /** {@inheritDoc} */ public ExceptionList exceptions() { return m_exceptions; } /** {@inheritDoc} */ public void get_response() throws org.omg.CORBA.WrongTransaction { /** * The response is ready after it is received. * FIXME implement context checks and any other functionality, * if required. */ } /** * Submit the request, suspending the current thread until the * answer is received. * * This implementation requires to set the IOR property * ({@link #setIOR(IOR)} before calling this method. * * @throws BAD_INV_ORDER, minor code 0, if the IOR has not been * previously set. * * @throws SystemException if this exception has been thrown on * remote side. The exact exception type and the minor code are * the same as they have been for the exception, thrown on remoted * side. */ public synchronized void invoke() throws BAD_INV_ORDER { waitWhileBusy(); complete = false; running = true; if (ior == null) throw new BAD_INV_ORDER("Set IOR property first"); try { p_invoke(); } finally { running = false; complete = true; } } /** {@inheritDoc} */ public String operation() { return m_operation; } /** * Get the orb, related to the invocation target. */ public ORB orb() { return orb; } /** {@inheritDoc} */ public boolean poll_response() { return complete && !running; } /** {@inheritDoc} */ public NamedValue result() { return m_result; } /** {@inheritDoc} * */ public Any return_value() { return m_result.value(); } /** {@inheritDoc} */ public synchronized void send_deferred() { waitWhileBusy(); new Thread() { public void run() { invoke(); } }.run(); } /** * Send a request and forget about it, not waiting for a response. * This can be done also for methods that normally are expected * to return some values. * * TODO It is generally recommended to reuse the threads. Reuse? */ public void send_oneway() { final gnuRequest cloned = Clone(); cloned.oneWay = true; new Thread() { public void run() { cloned.invoke(); } }.run(); } /** * Set the argument list. * This field is initialised as empty non null instance by default, * so the method is only used in cases when the direct replacement * is desired. * * @param a_args the argument list. */ public void set_args(NVList a_args) { if (a_args instanceof gnuNVList) m_args = (gnuNVList) a_args; else { try { // In case if this is another implementation of the NVList. m_args.list.clear(); for (int i = 0; i < a_args.count(); i++) { m_args.add(a_args.item(i)); } } catch (Bounds ex) { Unexpected.error(ex); } } } /** * Set the context list that is later returned by the * method {@link #contexts()}. * * @param a_context_list a new context list. */ public void set_context_list(ContextList a_context_list) { m_context_list = a_context_list; } /** * Set the exception container. * This field is initialised as empty non null instance by default, * so the method is only used in cases when the direct replacement * is desired. * * @param a_environment the new exception container. */ public void set_environment(Environment a_environment) { m_environment = a_environment; } /** * Set the list of exceptions. * This field is initialised as empty non null instance by default, * so the method is only used in cases when the direct replacement * is desired. * * @param a_exceptions a list of exceptions. */ public void set_exceptions(ExceptionList a_exceptions) { m_exceptions = a_exceptions; } /** * Set the operation name. * * @param a_operation the operation name. */ public void set_operation(String a_operation) { m_operation = a_operation; } /** * Set the named value, returned as result. * This field is initialised as empty non null instance by default, * so the method is only used in cases when the direct replacement * is desired. * * @param a_result the result keeper. */ public void set_result(NamedValue a_result) { m_result = a_result; } /** * Set the type of the named value, returned as a result. * Instantiates a new instance of the result value. */ public void set_return_type(TypeCode returns) { if (m_result == null || !returns.equal(m_result.value().type())) { m_result = new gnuNamedValue(); m_result.value().type(returns); } } /** * Set the invocation target. * * @param a_target the CORBA object for that the method will be invoked. */ public void set_target(org.omg.CORBA.Object a_target) { m_target = a_target; } /** * Do the actual invocation. * This implementation requires to set the IOR property * ({@link #setIOR(IOR)} before calling this method. * * @throws BAD_INV_ORDER, minor code 0, if the IOR has not been * previously set or if the direct argument addition is mixed with * the direct argument writing into the output stream. * * @return the server response in binary form. */ public synchronized binaryReply submit() { gnu.CORBA.GIOP.MessageHeader header = new gnu.CORBA.GIOP.MessageHeader(); // The byte order will be Big Endian by default. header.message_type = gnu.CORBA.GIOP.MessageHeader.REQUEST; header.version = useVersion(ior.Internet.version); RequestHeader rh = header.create_request_header(); rh.object_key = ior.key; rh.operation = m_operation; // Prepare the submission. cdrBufOutput request_part = new cdrBufOutput(); request_part.setOffset(header.getHeaderSize()); request_part.setVersion(header.version); request_part.setCodeSet(cxCodeSet.negotiate(ior.CodeSets)); request_part.setOrb(orb); // This also sets the stream encoding to the encoding, specified // in the header. rh.write(request_part); if (m_args != null && m_args.count() > 0) { write_parameters(header, request_part); if (m_parameter_buffer != null) throw new BAD_INV_ORDER("Please either add parameters or " + "write them into stream, but not both " + "at once." ); } if (m_parameter_buffer != null) { write_parameter_buffer(header, request_part); } // Now the message size is available. header.message_size = request_part.buffer.size(); try { Socket socket = new Socket(ior.Internet.host, ior.Internet.port); OutputStream socketOutput = socket.getOutputStream(); // Write the message header. header.write(socketOutput); // Write the request header and parameters (if present). request_part.buffer.writeTo(socketOutput); socketOutput.flush(); if (!socket.isClosed()) { MessageHeader response_header = new MessageHeader(); InputStream socketInput = socket.getInputStream(); response_header.read(socketInput); byte[] r = new byte[ response_header.message_size ]; int n = 0; reading: while (n < r.length) { n = socketInput.read(r, n, r.length - n); } socketInput.close(); return new binaryReply(orb, response_header, r); } else return EMPTY; } catch (IOException ex1) { ex1.printStackTrace(); return null; } } /** {@inheritDoc} */ public org.omg.CORBA.Object target() { return m_target; } /** * Get the used version. Normally, it is better to respond using the * same version as it is specified in IOR, but not above the maximal * supported version. */ public Version useVersion(Version desired) { if (desired.until_inclusive(MAX_SUPPORTED.major, MAX_SUPPORTED.minor)) return desired; else return MAX_SUPPORTED; } /** * Wait while the response to request, submitted using * {@link #send_deferred()} or {@link #invoke()} (from other thread) * is returned. * * FIXME It is possible to rewrite this using * Object.wait() and Object.notify(), but be sure to prepare the test * as well. */ public synchronized void waitWhileBusy() { // Waiting constants. long wait = 10; long increment = 2; long max = 5000; while (running) { try { Thread.sleep(wait); if (wait < max) wait = wait * increment; } catch (InterruptedException ex) { } } } /** * Do actual invocation. This method recursively calls itself if * the redirection is detected. */ private void p_invoke() throws SystemException { binaryReply response = submit(); ReplyHeader rh = response.header.create_reply_header(); cdrBufInput input = response.getStream(); input.setOrb(orb); rh.read(input); // The stream must be aligned sinve v1.2, but only once. boolean align = response.header.version.since_inclusive(1, 2); boolean moved_permanently = false; switch (rh.reply_status) { case ReplyHeader.NO_EXCEPTION : NamedValue arg; // Read return value, if set. if (m_result != null) { if (align) { input.align(8); align = false; } m_result.value().read_value(input, m_result.value().type()); } // Read returned parameters, if set. if (m_args != null) for (int i = 0; i < m_args.count(); i++) { try { arg = m_args.item(i); // Both ARG_INOUT and ARG_OUT have this binary flag set. if ((arg.flags() & ARG_OUT.value) != 0) { if (align) { input.align(8); align = false; } arg.value().read_value(input, arg.value().type()); } } catch (Bounds ex) { Unexpected.error(ex); } } break; case ReplyHeader.SYSTEM_EXCEPTION : if (align) { input.align(8); align = false; } SystemException exception = ObjectCreator.readSystemException(input); m_environment.exception(exception); throw exception; case ReplyHeader.USER_EXCEPTION : if (align) { input.align(8); align = false; } input.mark(2000); String uxId = input.read_string(); input.reset(); UserException uex = ObjectCreator.readUserException(uxId, input); if (uex == null) m_environment.exception(new UserException(uxId)); else m_environment.exception(uex); break; case ReplyHeader.LOCATION_FORWARD_PERM : case ReplyHeader.LOCATION_FORWARD : if (response.header.version.since_inclusive(1, 2)) input.align(8); IOR forwarded = new IOR(); try { forwarded._read_no_endian(input); } catch (IOException ex) { throw new MARSHAL(ex + " while reading the forwarding info"); } setIor(forwarded); // Repeat with the forwarded information. p_invoke(); return; default : throw new MARSHAL("Unknow reply status: " + rh.reply_status); } } /** * Write the operation parameters. * * @param header the message header * @param request_part the stream to write parameters into * * @throws MARSHAL if the attempt to write the parameters has failde. */ private void write_parameter_buffer(MessageHeader header, cdrBufOutput request_part ) throws MARSHAL { try { if (header.version.since_inclusive(1, 2)) { request_part.align(8); } m_parameter_buffer.buffer.writeTo(request_part); } catch (IOException ex) { throw new MARSHAL("Unable to write method arguments to CDR output."); } } /** * Write the operation parameters. * * @param header the message header * @param request_part the stream to write parameters into * * @throws MARSHAL if the attempt to write the parameters has failde. */ private void write_parameters(MessageHeader header, cdrBufOutput request_part) throws MARSHAL { // Align after 1.2, but only once. boolean align = header.version.since_inclusive(1, 2); NamedValue para; try { // Write parameters now. for (int i = 0; i < m_args.count(); i++) { para = m_args.item(i); //This bit is set both for ARG_IN and ARG_INOUT if ((para.flags() & ARG_IN.value) != 0) { if (align) { request_part.align(8); align = false; } para.value().write_value(request_part); } } } catch (Bounds ex) { throw new MARSHAL("Unable to write method arguments to CDR output."); } } }