-</programlisting>
-
-</sect1>
-<sect1><title>Introduction</title>
-
-<para>
-The &comstack;
-subsystem provides a transparent interface to different types of transport
-stacks for the exchange of BER-encoded data. At present, the
-RFC1729 method (BER over TCP/IP), and Peter Furniss' XTImOSI
-stack are supported, but others may be added in time. The philosophy of the
-module is to provide a simple interface by hiding unused options and
-facilities of the underlying libraries. This is always done at the risk
-of losing generality, and it may prove that the interface will need
-extension later on.
-</para>
-
-<para>
-The interface is implemented in such a fashion that only the
-sub-layers constructed to the transport methods that you wish to
-use in your application are linked in.
-</para>
-
-<para>
-You will note that even though simplicity was a goal in the design,
-the interface is still orders of magnitudes more complex than the
-transport systems found in many other packages. One reason is that
-the interface needs to support the somewhat different requirements of
-the different lower-layer communications stacks; another important reason is
-that the interface seeks to provide a more or less industrial-strength
-approach to asynchronous event-handling. When no function is allowed
-to block, things get more complex - particularly on the server
-side. We urge you to have a look at the demonstration client and server
-provided with the package. They are meant to be easily readable and
-instructive, while still being at least moderately useful.
-</para>
-
-</sect1>
-<sect1><title>Common Functions</title>
-
-<sect2><title>Managing Endpoints</title>
-
-<synopsis>
- COMSTACK cs_create(CS_TYPE type, int blocking, int protocol);
-</synopsis>
-
-<para>
-Creates an instance of the protocol stack - a communications endpoint.
-The <literal>type</literal> parameter determines the mode of communication.
-At present, the values
-<literal>tcpip_type</literal>
-and
-<literal>mosi_type</literal>
-are recognized. The function returns a null-pointer if a system error
-occurs. The <literal>blocking</literal> parameter should be one if you wish
-the association to operate in blocking mode, zero otherwise. The
-<literal>protocol</literal> field should be one of
-<literal>PROTO_SR</literal> or <literal>PROTO_Z3950</literal>.
-</para>
-
-
-<synopsis>
-int cs_close(COMSTACK handle);
-</synopsis>
-
-<para>
-Closes the connection (as elegantly as the lower layers will permit),
-and releases the resouces pointed to by the
-<literal>handle</literal>
-parameter. The
-<literal>handle</literal>
-should not be referenced again after this call.
-</para>
-
-<note>
-<para>
-We really need a soft disconnect, don't we?
-</para>
-</note>
-</sect2>
-
-<sect2><title>Data Exchange</title>
-
-<synopsis>
- (COMSTACK handle, char *buf, int len);
-</synopsis>
-
-<para>
-Sends
-<literal>buf</literal>
-down the wire. In blocking mode, this function will return only when a
-full buffer has been written, or an error has occurred. In nonblocking
-mode, it's possible that the function will be unable to send the full
-buffer at once, which will be indicated by a return value of 1. The
-function will keep track of the number of octets already written; you
-should call it repeatedly with the same values of <literal>buf</literal>
-and <literal>len</literal>, until the buffer has been transmitted.
-When a full buffer has been sent, the function will return 0 for
-success. -1 indicates an error condition (see below).
-</para>
-
-<synopsis>
- int cs_get(COMSTACK handle, char **buf, int *size);
-</synopsis>
-
-<para>
-Receives a PDU from the peer. Returns the number of bytes
-read. In nonblocking mode, it is possible that not all of the packet can be
-read at once. In this case, the function returns 1. To simplify the
-interface, the function is
-responsible for managing the size of the buffer. It will be reallocated
-if necessary to contain large packages, and will sometimes be moved
-around internally by the subsystem when partial packages are read. Before
-calling
-<function>cs_get</function>
-for the fist time, the buffer can be initialized to the null pointer,
-and the length should also be set to 0 - cs_get will perform a
-<function>malloc(2)</function>
-on the buffer for you. When a full buffer has been read, the size of
-the package is returned (which will always be greater than 1). -1
-indicates an error condition.
-</para>
-
-<para>
-See also the <function>cs_more()</function> function below.
-</para>
-
-<synopsis>
- int cs_more(COMSTACK handle);
-</synopsis>
-
-<para>
-The <function>cs_more()</function> function should be used in conjunction
-with <function>cs_get</function> and
-<function>select(2)</function>.
-The <function>cs_get()</function> function will sometimes
-(notably in the TCP/IP mode) read more than a single protocol package
-off the network. When this happens, the extra package is stored
-by the subsystem. After callig <function>cs_get()</function>, and before
-waiting for more input, You should always call
-<function>cs_more()</function>
-to check if there's a full protocol package already read. If
-<function>cs_more()</function>
-returns 1,
-<function>cs_get()</function>
-can be used to immediately fetch the new package. For the
-mOSI
-subsystem, the function should always return 0, but if you want your
-stuff to be protocol independent, you should use it.
-</para>
-
-<note>
-<para>
-The <function>cs_more()</function>
-function is required because the RFC1729-method
-does not provide a way of separating individual PDUs, short of
-partially decoding the BER. Some other implementations will carefully
-nibble at the packet by calling
-<function>read(2)</function>
-several times. This was felt to be too inefficient (or at least
-clumsy) - hence the call for this extra function.
-</para>
-</note>
-
-<synopsis>
- int cs_look(COMSTACK handle);
-</synopsis>
-
-<para>
-This function is useful when you're operating in nonblocking
-mode. Call it when
-<function>select(2)</function>
-tells you there's something happening on the line. It returns one of
-the following values:
-</para>
-
-<variablelist>
-<varlistentry><term>CS_NONE</term><listitem><para>
-No event is pending. The data found on the line was not a complete package.
-</para></listitem></varlistentry>
-
-<varlistentry><term>CS_CONNECT</term><listitem><para>
-A response to your connect request has been received. Call
-<function>cs_rcvconnect</function>
-to process the event and to finalize the connection establishment.
-</para></listitem></varlistentry>
-
-<varlistentry><term>CS_DISCON</term><listitem><para>
-The other side has closed the connection (or maybe sent a disconnect
-request - but do we care? Maybe later). Call
-<function>cs_close</function> to close your end of the association as well.
-</para></listitem></varlistentry>
-
-<varlistentry><term>CS_LISTEN</term><listitem><para>
-A connect request has been received. Call <function>cs_listen</function>
-to process the event.
-</para></listitem></varlistentry>
-
-<varlistentry><term>CS_DATA</term><listitem><para>
-There's data to be found on the line. Call <function>cs_get</function>
-to get it.
-</para></listitem></varlistentry>
-</variablelist>
-
-<note>
-<para>
-You should be aware that even if
-<function>cs_look()</function>
-tells you that there's an event event pending, the corresponding
-function may still return and tell you there was nothing to be found.
-This means that only part of a package was available for reading. The
-same event will show up again, when more data has arrived.
-</para>
-</note>
-
-<synopsis>
- int cs_fileno(COMSTACK h);
-</synopsis>
-
-<para>
-Returns the file descriptor of the association. Use this when
-file-level operations on the endpoint are required
-(<function>select(2)</function> operations, specifically).
-</para>
-</sect2>
-
-</sect1>
-
-<sect1><title>Client Side</title>
-
-<synopsis>
- int cs_connect(COMSTACK handle, void *address);
-</synopsis>
-
-<para>
-Initiate a connection with the target at <literal>address</literal>
-(more onaddresses below). The function will return 0 on success, and 1 if
-the operation does not complete immediately (this will only
-happen on a nonblocking endpoint). In this case, use
-<function>cs_rcvconnect</function> to complete the operation,
-when <function>select(2)</function> reports input pending on the
-association.
-</para>
-
-<synopsis>
- int cs_rcvconnect(COMSTACK handle);
-</synopsis>
-
-<para>
-Complete a connect operation initiated by <function>cs_connect()</function>.
-It will return 0 on success; 1 if the operation has not yet completed (in
-this case, call the function again later); -1 if an error has occured.
-</para>
-
-</sect1>
-
-<sect1><title>Server Side</title>
-
-<para>
-To establish a server under the <application>inetd</application> server, you
-can use
-</para>
-
-<synopsis>
- COMSTACK cs_createbysocket(int socket, CS_TYPE type, int blocking,
- int protocol);
-</synopsis>
-
-<para>
-The <literal>socket</literal> parameter is an established socket (when
-your application is invoked from <application>inetd</application>, the
-socket will typically be 0.
-The following parameters are identical to the ones for
-<function>cs_create</function>.
-</para>
-
-<synopsis>
- int cs_bind(COMSTACK handle, void *address, int mode)
-</synopsis>
-
-<para>
-Binds a local address to the endpoint. Read about addresses below. The
-<literal>mode</literal> parameter should be either
-<literal>CS_CLIENT</literal> or <literal>CS_SERVER</literal>.
-</para>
-
-<synopsis>
- int cs_listen(COMSTACK handle, char *addr, int *addrlen);
-</synopsis>
-
-<para>
-Call this to process incoming events on an endpoint that has been
-bound in listening mode. It will return 0 to indicate that the connect
-request has been received, 1 to signal a partial reception, and -1 to
-indicate an error condition.
-</para>
-
-<synopsis>
- COMSTACK cs_accept(COMSTACK handle);
-</synopsis>
-
-<para>
-This finalises the server-side association establishment, after
-cs_listen has completed successfully. It returns a new connection
-endpoint, which represents the new association. The application will
-typically wish to fork off a process to handle the association at this
-point, and continue listen for new connections on the old
-<literal>handle</literal>.
-</para>
-
-<para>
-You can use the call
-</para>
-
-<synopsis>
- char *cs_addrstr(COMSTACK);
-</synopsis>
-
-<para>
-on an established connection to retrieve the hostname of the remote host.
-</para>
-
-<note>
-<para>You may need to use this function with some care if your
-name server service is slow or unreliable
-</para>
-</note>
-
-</sect1>
-<sect1><title>Addresses</title>
-
-<para>
-The low-level format of the addresses are different depending on the
-mode of communication you have chosen. A function is provided by each
-of the lower layers to map a user-friendly string-form address to the
-binary form required by the lower layers.
-</para>
-
-<synopsis>
- struct sockaddr_in *tcpip_strtoaddr(char *str);
-
- struct netbuf *mosi_strtoaddr(char *str);
-</synopsis>
-
-<para>
-The format for TCP/IP addresses is straightforward:
-</para>
-
-<synopsis>
-<host> [ ':' <portnum> ]
-</synopsis>
-
-<para>
-The <literal>hostname</literal> can be either a domain name or an IP address.
-The port number, if omitted, defaults to 210.
-</para>
-
-<para>
-For OSI, the format is
-</para>
-
-<synopsis>
-[ <t-selector> '/' ] <host> [ ':' <port> ]
-</synopsis>
-
-<para>
-The transport selector is given as an even number of hex digits.
-</para>
-
-<para>
-You'll note that the address format for the OSI mode are just a subset
-of full presentation addresses. We use presentation addresses because
-xtimosi doesn't, in itself, allow access to the X.500 Directory
-service. We use a limited form, because we haven't yet come across an
-implementation that used more of the elements of a full p-address. It
-is a fairly simple matter to add the rest of the elements to the
-address format as needed, however: Xtimosi <emphasis>does</emphasis>
-support the full P-address structure.
-</para>
-
-<para>
-In both transport modes, the special hostname "@" is mapped
-to any local address (the manifest constant <literal>INADDR_ANY</literal>).
-It is used to establish local listening endpoints in the server role.
-</para>
-
-<para>
-When a connection has been established, you can use
-</para>
-
-<synopsis>
- char cs_addrstr(COMSTACK h);
-</synopsis>
-
-<para>
-to retrieve the host name of the peer system. The function returns a pointer
-to a static area, which is overwritten on the next call to the function.
-</para>
-
-<note>
-<para>
-We have left the issue of X.500 name-to-address mapping open, for the
-moment. It would be a simple matter to provide a table-based mapping,
-if desired. Alternately, we could use the X.500 client-function that
-is provided with the ISODE (although this would defeat some of the
-purpose of using ThinOSI in the first place. We have been told that it
-should be within the realm of the possible to implement a lightweight
-implementation of the necessary X.500 client capabilities on top of
-ThinOSI. This would be the ideal solution, we feel. On the other hand, it
-still remains to be seen just what role the Directory will play in a world
-populated by ThinOSI and other pragmatic solutions.
-</para>
-</note>
-
-</sect1>
-
-<sect1><title>Diagnostics</title>
-
-<para>
-All functions return -1 if an error occurs. Typically, the functions
-will return 0 on success, but the data exchange functions
-(<function>cs_get</function>, <function>cs_put</function>,
-<function>cs_more</function>) follow special rules. Consult their
-descriptions.
-</para>
-
-<para>
-When a function (including the data exchange functions) reports an
-error condition, use the function
-<function>cs_errno()</function> to determine the cause of the
-problem. The function
-</para>
-
-<synopsis>
- void cs_perror(COMSTACK handle char *message);
-</synopsis>
-
-<para>
-works like <function>perror(2)</function> and prints the
-<literal>message</literal> argument, along with a system message, to
-<literal>stderr</literal>. Use the character array
-</para>
-
-<synopsis>
- extern const char *cs_errlist[];
-</synopsis>
-
-<para>
-to get hold of the message, if you want to process it differently.
-The function
-</para>
-
-<synopsis>
- const char *cs_stackerr(COMSTACK handle);
-</synopsis>
-
-<para>
-Returns an error message from the lower layer, if one has been
-provided.
-</para>
-</sect1>
-
-<sect1><title>Enabling OSI Communication</title>
-
-<sect2><title>Installing Xtimosi</title>
-<para>
-Although you will have to download Peter Furniss' XTI/mOSI
-implementation for yourself, we've tried to make the integration as
-simple as possible.
-</para>
-
-<para>
-The latest version of xtimosi will generally be under
-</para>
-
-<screen>
-ftp://pluto.ulcc.ac.uk/ulcc/thinosi/xtimosi/
-</screen>
-
-<para>
-When you have downloaded and unpacked the archive, it will (we assume)
-have created a directory called <literal>xtimosi</literal>.
-We suggest that you place this directory <emphasis>in the same
-directory</emphasis> where you unpacked the &yaz;
-distribution. This way, you shouldn't have to fiddle with the
-makefiles of &yaz; beyond uncommenting a few lines.
-</para>
-
-<para>
-Go to <literal>xtimosi/src</literal>, and type "make libmosi.a/".
-This should generally create the library, ready to use.
-</para>
-
-<note>
-<para>
-The currently available release of xtimosi has some inherent
-problems that make it disfunction on certain platforms - eg. the
-Digital OSF/1 workstations. It is supposedly primarily a
-compiler problem, and we hope to see a release that is generally
-portable. While we can't guarantee that it can be brought to work
-on your platform, we'll be happy to talk to you about problems
-that you might see, and relay information to the author of the
-software. There are some signs that the <application>gcc</application>
-compiler is more likely to produce a fully functional library, but this
-hasn't been verified (we think that the problem is limited to the use
-of hexadecimal escape-codes used in strings, which are silently
-ignored by some compilers).
-</para>
-<para>
-A problem has been encountered in the communication with
-ISODE-based applications. If the ISODE presentation-user calls
-<function>PReadRequest()</function> with a timeout value different
-from <literal>OK</literal> or <literal>NOTOK</literal>,
-he will get an immediate TIMEOUT abort when receiving large (>2041
-bytes, which is the SPDU-size that the ISODE likes to work with) packages
-from an xtimosi-based implementation (probably most
-other implementations as well, in fact). It seems to be a flaw in the
-ISODE API, and the workaround (for ISODE users) is to either not
-use an explicit timeout (switching to either blocking or
-nonblocking mode), or to check that the timer really has expired
-before closing the connection.
-</para>
-</note>
-
-<para>
-The next step in the installation is to modify the makefile in the toplevel
-&yaz;
-directory. The place to change is in the top of the file, and is
-clearly marked with a comment.
-</para>
-
-<para>
-Now run <literal>make</literal> in the &yaz; toplevel directory (do a
-<literal>make clean</literal> first, if the system has been previously
-made without OSI support). Use the &yaz;
-<application>yaz-ztest</application> and <application>yaz-client</application>
-demo programs to verify that OSI communication works OK. Then, you can go
-ahead and try to talk to other implementations.
-</para>
-
-<note>
-<para>
-Our interoperability experience is limited to version
-7 of the Nordic SR-Nett package, which has had several
-protocol errors fixed from the earlier releases. If you have
-problems or successes in interoperating with other
-implementations, we'd be glad to hear about it, or to help
-you make things work, as our resources allow.
-</para>
-</note>
-
-<para>
-If you write your own applications based on &yaz;, and you wish to
-include OSI support, the procedure is equally simple. You should
-include the <filename>xmosi.h</filename> header file in addition to
-<filename>comstack.h</filename>. <filename>xmosi.h</filename>
-will define the manifest constant <literal>mosi_type</literal>, which you
-should pass to the <function>cs_create()</function> function. In
-addition, you should use the function <function>mosi_strtoaddr()</function>
-rather than <function>tcpip_strtoaddr()</function> when you need to
-prepare an address.
-</para>
-
-<para>
-When you link your application, you should include (after the
-<filename>libyaz.a</filename> library) the <literal>libmosi.a</literal>
-library, and the <filename>librfc.a</filename> library provided with
-&yaz; (for OSI transport).
-</para>
-<para>
-As always, it can be very useful, if not essential, to have a look at the
-example applications to see how things are done.
-</para>
-
-</sect2>
-<sect2><title>OSI Transport</title>
-
-<para>
-Xtimosi requires an implementation of the OSI transport service under
-the X/OPEN XTI API. We provide an implementation of the RFC1006
-encapsulation of OSI/TP0 in TCP/IP (through the Berkeley Sockets API),
-as an independent part of &yaz; (it's found under the
-<filename>rfc1006</filename> directory).
-If you have access to an OSI transport provider under XTI,
-you should be able to make that work too, although it may require
-tinkering with the <function>mosi_strtoaddr()</function> function.
-</para>
-</sect2>
-
-<sect2><title>Presentation Context Management</title>
-
-<para>
-To simplify the implementation, we use Peter Furniss' alternative (PRF)
-option format
-for the Control of the presentation negotiation phase. This format
-is enabled by default when you
-compile xtimosi.
-</para>
-
-<para>
-The current version of &yaz; does <emphasis>not</emphasis> support
-presentation-layer negotiation of response record formats. The primary
-reason is that we have had access to no other SR or Z39.50
-implementations over OSI that used this
-method. Secondarily, we believe that the EXPLAIN facility is a superior
-mechanism for relaying target capabilities in this respect. This is not to
-say that we have no intentions of supporting presentation context
-negotiation - we have just hitherto given it a lower priority than other
-aspects of the protocol.
-</para>
-<para>
-One thing is certain: The addition of this capability to &yaz; should
-have only a minimal impact on existing applications, and on the
-interface to the software in general. Most likely, we will add an extra
-layer of interface to the processing of EXPLAIN records, which will
-convert back and forth between <literal>oident</literal> records (see
-section <link linkend="oid">Object Identifiers</link>) and direct or
-indirect references, given the current association setup. Implementations
-based on any of the higher-level interfaces will most likely not have to
-be changed at all.
-</para>
-</sect2>
-</sect1>
-<sect1><title>Summary and Synopsis</title>
-
-<synopsis>
-#include <comstack.h>
-
-#include <tcpip.h> /* this is for TCP/IP support */
-#include <xmosi.h> /* and this is for mOSI support */
-
-COMSTACK cs_create(CS_TYPE type, int blocking, int protocol);
-
-COMSTACK cs_createbysocket(int s, CS_TYPE type, int blocking,
- int protocol);
-
-int cs_bind(COMSTACK handle, int mode);
-
-int cs_connect(COMSTACK handle, void *address);
-
-int cs_rcvconnect(COMSTACK handle);
-
-int cs_listen(COMSTACK handle);
-
-COMSTACK cs_accept(COMSTACK handle);
-
-int cs_put(COMSTACK handle, char *buf, int len);
-
-int cs_get(COMSTACK handle, char **buf, int *size);
-
-int cs_more(COMSTACK handle);
-
-int cs_close(COMSTACK handle);
-
-int cs_look(COMSTACK handle);
-
-struct sockaddr_in *tcpip_strtoaddr(char *str);
-
-struct netbuf *mosi_strtoaddr(char *str);
-
-extern int cs_errno;
-
-void cs_perror(COMSTACK handle char *message);
-
-const char *cs_stackerr(COMSTACK handle);
-
-extern const char *cs_errlist[];
-</synopsis>
-</sect1>
-
-</chapter>
-
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