-<!-- $Header: /home/cvsroot/yaz/doc/frontend.xml,v 1.1 2001-01-04 13:36:24 adam Exp $ -->
-<chapter><title id="server">Making an IR Server for Your Database</title>
-
-<sect1><title>Introduction</title>
-
-<para>
-If you aren't into documentation, a good way to learn how the
-backend interface works is to look at the <filename>backend.h</filename>
-file. Then, look at the small dummy-server in
-<filename>server/ztest.c</filename>. Finally, you can have a look at
-the <filename>seshigh.c</filename> file, which is where most of the
-logic of the frontend server is located. The <filename>backend.h</filename>
-file also makes a good reference, once you've chewed your way through
-the prose of this file.
-</para>
-
-<para>
-If you have a database system that you would like to make available by
-means of Z39.50/SR, &yaz; basically offers your two options. You
-can use the APIs provided by the &asn;, &odr;, and &comstack;
-modules to
-create and decode PDUs, and exchange them with a client. Using this
-low-level interface gives you access to all fields and options of the
-protocol, and you can construct your server as close to your existing
-database as you like. It is also a fairly involved process, requiring
-you to set up an event-handling mechanism, protocol state machine,
-etc. To simplify server implementation, we have implemented a compact
-and simple, but reasonably full-functioned server-frontend that will
-handle most of the protocol mechanics, while leaving you to
-concentrate on your database interface.
-</para>
-
-<note>
-<para>
-The backend interface was designed in anticipation of a specific
-integration task, while still attempting to achieve some degree of
-generality. We realise fully that there are points where the
-interface can be improved significantly. If you have specific
-functions or parameters that you think could be useful, send us a
-mail (or better, sign on to the mailing list referred to in the
-toplevel README file). We will try to fit good suggestions into future
-releases, to the extent that it can be done without requiring
-too many structural changes in existing applications.
-</para>
-</note>
-</sect1>
-
-<sect1><title>The Database Frontend</title>
-
-<para>
-We refer to this software as a generic database frontend. Your
-database system is the <emphasis>backend database</emphasis>, and the
-interface between the two is called the <emphasis>backend API</emphasis>.
-The backend API consists of a small number of function prototypes and
-structure definitions. You are required to provide the
-<function>main()</function> routine for the server (which can be
-quite simple), as well as functions to match each of the prototypes.
-The interface functions that you write can use any mechanism you like
-to communicate with your database system: You might link the whole
-thing together with your database application and access it by
-function calls; you might use IPC to talk to a database server
-somewhere; or you might link with third-party software that handles
-the communication for you (like a commercial database client library).
-At any rate, the functions will perform the tasks of:
-</para>
-
-<itemizedlist>
-
-<listitem><para>
-Initialization.
-</para></listitem>
-
-<listitem><para>
-Searching.
-</para></listitem>
-
-<listitem><para>
-Fetching records.
-</para></listitem>
-
-<listitem><para>
-Scanning the database index (if you wish to implement SCAN).
-</para></listitem>
-
-</itemizedlist>
-
-<para>
-(more functions will be added in time to support as much of
-Z39.50-1995 as possible).
-</para>
-
-<para>
-Because the model where pipes or sockets are used to access the backend
-database is a fairly common one, we have added a mechanism that allows this
-communication to take place asynchronously. In this mode, the frontend
-server doesn't have to block while the backend database is processing
-a request, but can wait for additional PDUs from the client.
-</para>
-
-</sect1>
-<sect1><title>The Backend API</title>
-
-<para>
-The headers files that you need to use the interface are in the
-<filename>include/yaz</filename> directory. They are called
-<filename>statserv.h</filename> and <filename>backend.h</filename>. They
-will include other files from the <filename>include/yaz</filename>
-directory, so you'll probably want to use the -I option of your
-compiler to tell it where to find the files. When you run
-<literal>make</literal> in the toplevel &yaz; directory,
-everything you need to create your server is put the
-<filename>lib/libyaz.a</filename> library.
-</para>
-</sect1>
-
-<sect1><title>Your main() Routine</title>
-
-<para>
-As mentioned, your <function>main()</function> routine can be quite brief.
-If you want to initialize global parameters, or read global configuration
-tables, this is the place to do it. At the end of the routine, you should
-call the function
-</para>
-
-<synopsis>
- int statserv_main(int argc, char **argv);
-</synopsis>
-
-<para>
-<function>statserv_main</function> will establish listening sockets
-according to the parameters given. When connection requests are received,
-the event handler will typically <function>fork()</function> to handle the
-new request. If you do use global variables, you should be aware, then,
-that these cannot be shared between associations, unless you explicitly
-disallow forking by command line parameters (we advise against this for
-any purposes except debugging, as a crash or hang in the server process
-will affect all users currently signed on to the server).
-</para>
-
-<para>
-The server provides a mechanism for controlling some of its behavior
-without using command-line options. The function
-</para>
-
-<synopsis>
- statserv_options_block *statserv_getcontrol(void);
-</synopsis>
-
-<para>
-Will return a pointer to a <literal>struct statserv_options_block</literal>
-describing the current default settings of the server. The structure
-contains these elements:
-
-<variablelist>
-<varlistentry><term>int dynamic</term><listitem><para>
-A boolean value, which determines whether the server
-will fork on each incoming request (TRUE), or not (FALSE). Default is
-TRUE.
-</para></listitem></varlistentry>
-<varlistentry><term>int loglevel</term><listitem><para>
-Set this by ORing the constants defined in
-<filename>include/yaz/yaz-log.h</filename>.
-</para></listitem></varlistentry>
-<varlistentry><term>char logfile[ODR_MAXNAME+1]</term>
-<listitem><para>File for diagnostic output ("": stderr).
-</para></listitem></varlistentry>
-<varlistentry><term>char apdufile[ODR_MAXNAME+1]</term>
-<listitem><para>
-Name of file for logging incoming and outgoing APDUs ("": don't
-log APDUs, "-": <literal>stderr</literal>).
-</para></listitem></varlistentry>
-<varlistentry><term>char default_listen[1024]</term>
-<listitem><para>Same form as the command-line specification of
-listener address. "": no default listener address.
-Default is to listen at "tcp:@:9999". You can only
-specify one default listener address in this fashion.
-</para></listitem></varlistentry>
-<varlistentry><term>enum oid_proto default_proto;</term>
-<listitem><para>Either <literal>PROTO_SR</literal> or
-<literal>PROTO_Z3950</literal>. Default is <literal>PROTO_Z39_50</literal>.
-</para></listitem></varlistentry>
-<varlistentry><term>int idle_timeout;</term>
-<listitem><para>Maximum session idletime, in minutes. Zero indicates
-no (infinite) timeout. Default is 120 minutes.
-</para></listitem></varlistentry>
-<varlistentry><term>int maxrecordsize;</term>
-<listitem><para>Maximum permissible record (message) size. Default
-is 1Mb. This amount of memory will only be allocated if a client requests a
-very large amount of records in one operation (or a big record). Set it
-to a lower number
-if you are worried about resource consumption on your host system.
-</para></listitem></varlistentry>
-<varlistentry><term>char configname[ODR_MAXNAME+1]</term>
-<listitem><para>Passed to the backend when a new connection is received.
-</para></listitem></varlistentry>
-<varlistentry><term>char setuid[ODR_MAXNAME+1]</term>
-<listitem><para>Set user id to the user specified, after binding
-the listener addresses.
-</para></listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-The pointer returned by <literal>statserv_getcontrol</literal> points to
-a static area. You are allowed to change the contents of the structure,
-but the changes will not take effect before you call
-</para>
-
-<synopsis>
- void statserv_setcontrol(statserv_options_block *block);
-</synopsis>
-
-<note>
-<para>
-that you should generally update this structure before calling
-<function>statserv_main()</function>.
-</para>
-</note>
-</sect1>
-
-<sect1><title>The Backend Functions</title>
-
-<para>
-For each service of the protocol, the backend interface declares one or
-two functions. You are required to provide implementations of the
-functions representing the services that you wish to implement.
-</para>
-
-<synopsis>
- bend_initresult *bend_init(bend_initrequest *r);
-</synopsis>
-
-<para>
-This function is called once for each new connection request, after
-a new process has been forked, and an initRequest has been received
-from the client. The parameter and result structures are defined as
-</para>
-
-<synopsis>
+<!-- $Id: frontend.xml,v 1.29 2006-04-25 11:25:08 marc Exp $ -->
+ <chapter id="server"><title>Generic server</title>
+ <sect1><title>Introduction</title>
+
+ <para>
+ If you aren't into documentation, a good way to learn how the
+ back end interface works is to look at the <filename>backend.h</filename>
+ file. Then, look at the small dummy-server in
+ <filename>ztest/ztest.c</filename>. The <filename>backend.h</filename>
+ file also makes a good reference, once you've chewed your way through
+ the prose of this file.
+ </para>
+
+ <para>
+ If you have a database system that you would like to make available by
+ means of Z39.50, SRW o SRU, &yaz; basically offers your two options. You
+ can use the APIs provided by the &asn;, &odr;, and &comstack;
+ modules to
+ create and decode PDUs, and exchange them with a client.
+ Using this low-level interface gives you access to all fields and
+ options of the protocol, and you can construct your server as close
+ to your existing database as you like.
+ It is also a fairly involved process, requiring
+ you to set up an event-handling mechanism, protocol state machine,
+ etc. To simplify server implementation, we have implemented a compact
+ and simple, but reasonably full-functioned server-frontend that will
+ handle most of the protocol mechanics, while leaving you to
+ concentrate on your database interface.
+ </para>
+
+ <note>
+ <para>
+ The backend interface was designed in anticipation of a specific
+ integration task, while still attempting to achieve some degree of
+ generality. We realize fully that there are points where the
+ interface can be improved significantly. If you have specific
+ functions or parameters that you think could be useful, send us a
+ mail (or better, sign on to the mailing list referred to in the
+ top-level README file). We will try to fit good suggestions into future
+ releases, to the extent that it can be done without requiring
+ too many structural changes in existing applications.
+ </para>
+ </note>
+
+ <note>
+ <para>
+ The &yaz; server does not support XCQL.
+ </para>
+ </note>
+ </sect1>
+
+ <sect1 id="server.frontend"><title>The Database Frontend</title>
+
+ <para>
+ We refer to this software as a generic database frontend. Your
+ database system is the <emphasis>backend database</emphasis>, and the
+ interface between the two is called the <emphasis>backend API</emphasis>.
+ The backend API consists of a small number of function handlers and
+ structure definitions. You are required to provide the
+ <function>main()</function> routine for the server (which can be
+ quite simple), as well as a set of handlers to match each of the
+ prototypes.
+ The interface functions that you write can use any mechanism you like
+ to communicate with your database system: You might link the whole
+ thing together with your database application and access it by
+ function calls; you might use IPC to talk to a database server
+ somewhere; or you might link with third-party software that handles
+ the communication for you (like a commercial database client library).
+ At any rate, the handlers will perform the tasks of:
+ </para>
+
+ <itemizedlist>
+
+ <listitem><para>
+ Initialization.
+ </para></listitem>
+
+ <listitem><para>
+ Searching.
+ </para></listitem>
+
+ <listitem><para>
+ Fetching records.
+ </para></listitem>
+
+ <listitem><para>
+ Scanning the database index (optional - if you wish to implement SCAN).
+ </para></listitem>
+
+ <listitem><para>
+ Extended Services (optional).
+ </para></listitem>
+
+ <listitem><para>
+ Result-Set Delete (optional).
+ </para></listitem>
+
+ <listitem><para>
+ Result-Set Sort (optional).
+ </para></listitem>
+
+ <listitem><para>
+ Return Explain for SRW/SRU (optional).
+ </para></listitem>
+
+ </itemizedlist>
+
+ <para>
+ (more functions will be added in time to support as much of
+ Z39.50-1995 as possible).
+ </para>
+
+ </sect1>
+ <sect1 id="server.backend"><title>The Backend API</title>
+
+ <para>
+ The header file that you need to use the interface are in the
+ <filename>include/yaz</filename> directory. It's called
+ <filename>backend.h</filename>. It will include other files from
+ the <filename>include/yaz</filename> directory, so you'll
+ probably want to use the -I option of your compiler to tell it
+ where to find the files. When you run
+ <literal>make</literal> in the top-level &yaz; directory,
+ everything you need to create your server is to link with the
+ <filename>lib/libyaz.la</filename> library.
+ </para>
+ </sect1>
+
+ <sect1 id="server.main"><title>Your main() Routine</title>
+
+ <para>
+ As mentioned, your <function>main()</function> routine can be quite brief.
+ If you want to initialize global parameters, or read global configuration
+ tables, this is the place to do it. At the end of the routine, you should
+ call the function
+ </para>
+
+ <synopsis>
+int statserv_main(int argc, char **argv,
+ bend_initresult *(*bend_init)(bend_initrequest *r),
+ void (*bend_close)(void *handle));
+ </synopsis>
+
+ <para>
+ The third and fourth arguments are pointers to handlers. Handler
+ <function>bend_init</function> is called whenever the server receives
+ an Initialize Request, so it serves as a Z39.50 session initializer. The
+ <function>bend_close</function> handler is called when the session is
+ closed.
+ </para>
+
+ <para>
+ <function>statserv_main</function> will establish listening sockets
+ according to the parameters given. When connection requests are received,
+ the event handler will typically <function>fork()</function> and
+ create a sub-process to handle a new connection.
+ Alternatively the server may be setup to create threads for each
+ connection.
+ If you do use global variables and forking, you should be aware, then,
+ that these cannot be shared between associations, unless you explicitly
+ disable forking by command line parameters.
+ </para>
+
+ <para>
+ The server provides a mechanism for controlling some of its behavior
+ without using command-line options. The function
+ </para>
+
+ <synopsis>
+statserv_options_block *statserv_getcontrol(void);
+ </synopsis>
+
+ <para>
+ will return a pointer to a <literal>struct statserv_options_block</literal>
+ describing the current default settings of the server. The structure
+ contains these elements:
+
+ <variablelist>
+ <varlistentry><term>
+ <literal>int dynamic</literal></term><listitem><para>
+ A boolean value, which determines whether the server
+ will fork on each incoming request (TRUE), or not (FALSE). Default is
+ TRUE. This flag is only read by UNIX-based servers (WIN32 based servers
+ doesn't fork).
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>int threads</literal></term><listitem><para>
+ A boolean value, which determines whether the server
+ will create a thread on each incoming request (TRUE), or not (FALSE).
+ Default is FALSE. This flag is only read by UNIX-based servers
+ that offer POSIX Threads support.
+ WIN32-based servers always operate in threaded mode.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>int inetd</literal></term><listitem><para>
+ A boolean value, which determines whether the server
+ will operates under a UNIX INET daemon (inetd). Default is FALSE.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>int loglevel</literal></term><listitem><para>
+ Set this by ORing the constants defined in
+ <filename>include/yaz/yaz-log.h</filename>.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>char logfile[ODR_MAXNAME+1]</literal></term>
+ <listitem><para>File for diagnostic output ("": stderr).
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>char apdufile[ODR_MAXNAME+1]</literal></term>
+ <listitem><para>
+ Name of file for logging incoming and outgoing APDUs
+ ("": don't log APDUs, "-":
+ <literal>stderr</literal>).
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>char default_listen[1024]</literal></term>
+ <listitem><para>Same form as the command-line specification of
+ listener address. "": no default listener address.
+ Default is to listen at "tcp:@:9999". You can only
+ specify one default listener address in this fashion.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>enum oid_proto default_proto;</literal></term>
+ <listitem><para>Either <literal>PROTO_Z3950</literal> or
+ <literal>PROTO_SR</literal>.
+ Default is <literal>PROTO_Z39_50</literal>.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>int idle_timeout;</literal></term>
+ <listitem><para>Maximum session idle-time, in minutes. Zero indicates
+ no (infinite) timeout. Default is 15 minutes.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>int maxrecordsize;</literal></term>
+ <listitem><para>Maximum permissible record (message) size. Default
+ is 1Mb. This amount of memory will only be allocated if a
+ client requests a very large amount of records in one operation
+ (or a big record).
+ Set it to a lower number if you are worried about resource
+ consumption on your host system.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>char configname[ODR_MAXNAME+1]</literal></term>
+ <listitem><para>Passed to the backend when a new connection is received.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>char setuid[ODR_MAXNAME+1]</literal></term>
+ <listitem><para>Set user id to the user specified, after binding
+ the listener addresses.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>void (*bend_start)(struct statserv_options_block *p)</literal>
+ </term>
+ <listitem><para>Pointer to function which is called after the
+ command line options have been parsed - but before the server
+ starts listening.
+ For forked UNIX servers this handler is called in the mother
+ process; for threaded servers this handler is called in the
+ main thread.
+ The default value of this pointer is NULL in which case it
+ isn't invoked by the frontend server.
+ When the server operates as an NT service this handler is called
+ whenever the service is started.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>void (*bend_stop)(struct statserv_options_block *p)</literal>
+ </term>
+ <listitem><para>Pointer to function which is called whenever the server
+ has stopped listening for incoming connections. This function pointer
+ has a default value of NULL in which case it isn't called.
+ When the server operates as an NT service this handler is called
+ whenever the service is stopped.
+ </para></listitem></varlistentry>
+
+ <varlistentry><term>
+ <literal>void *handle</literal></term>
+ <listitem><para>User defined pointer (default value NULL).
+ This is a per-server handle that can be used to specify "user-data".
+ Do not confuse this with the session-handle as returned by bend_init.
+ </para></listitem></varlistentry>
+
+ </variablelist>
+ </para>
+
+ <para>
+ The pointer returned by <literal>statserv_getcontrol</literal> points to
+ a static area. You are allowed to change the contents of the structure,
+ but the changes will not take effect before you call
+ </para>
+
+ <synopsis>
+void statserv_setcontrol(statserv_options_block *block);
+ </synopsis>
+
+ <note>
+ <para>
+ that you should generally update this structure before calling
+ <function>statserv_main()</function>.
+ </para>
+ </note>
+ </sect1>
+
+ <sect1 id="server.backendfunctions"><title>The Backend Functions</title>
+
+ <para>
+ For each service of the protocol, the backend interface declares one or
+ two functions. You are required to provide implementations of the
+ functions representing the services that you wish to implement.
+ </para>
+
+ <sect2><title>Init</title>
+
+ <synopsis>
+bend_initresult (*bend_init)(bend_initrequest *r);
+ </synopsis>
+
+ <para>
+ This handler is called once for each new connection request, after
+ a new process/thread has been created, and an Initialize Request has
+ been received from the client. The pointer to the
+ <function>bend_init</function> handler is passed in the call to
+ <function>statserv_start</function>.
+ </para>
+
+ <para>
+ This handler is also called when operating in SRW/SRU mode - when
+ a connection has been made (even though SRW/SRU does not offer
+ this service).
+ </para>
+
+ <para>
+ Unlike previous versions of YAZ, the <function>bend_init</function> also
+ serves as a handler that defines the Z39.50 services that the backend
+ wish to support. Pointers to <emphasis>all</emphasis> service handlers,
+ including search - and fetch must be specified here in this handler.
+ </para>
+ <para>
+ The request - and result structures are defined as
+ </para>
+
+ <synopsis>
typedef struct bend_initrequest
{
- char *configname;
+ Z_IdAuthentication *auth;
+ ODR stream; /* encoding stream */
+ ODR print; /* printing stream */
+ Z_ReferenceId *referenceId;/* reference ID */
+ char *peer_name; /* dns host of peer (client) */
+
+ char *implementation_id;
+ char *implementation_name;
+ char *implementation_version;
+ int (*bend_sort) (void *handle, bend_sort_rr *rr);
+ int (*bend_search) (void *handle, bend_search_rr *rr);
+ int (*bend_fetch) (void *handle, bend_fetch_rr *rr);
+ int (*bend_present) (void *handle, bend_present_rr *rr);
+ int (*bend_esrequest) (void *handle, bend_esrequest_rr *rr);
+ int (*bend_delete)(void *handle, bend_delete_rr *rr);
+ int (*bend_scan)(void *handle, bend_scan_rr *rr);
+ int (*bend_segment)(void *handle, bend_segment_rr *rr);
+
+ ODR decode; /* decoding stream */
+ /* character set and language negotiation - see include/yaz/z-charneg.h */
+ Z_CharSetandLanguageNegotiation *charneg_request;
+ Z_External *charneg_response;
+ int (*bend_srw_explain)(void *handle, bend_explain_rr *rr);
+ int (*bend_srw_scan)(void *handle, bend_scan_rr *rr);
} bend_initrequest;
typedef struct bend_initresult
char *errstring; /* system error string or NULL */
void *handle; /* private handle to the backend module */
} bend_initresult;
-</synopsis>
-
-<para>
-The <literal>configname</literal> of <literal>bend_initrequest</literal>
-is currently always set to "default-config". We haven't had
-use for putting anything special in the initrequest yet, but something
-might go there if the need arises (account/password info would be obvious).
-</para>
-
-<para>
-In general, the server frontend expects that the
-<literal>bend_*result</literal> pointer that you return is valid at
-least until the next call to a <literal>bend_* function</literal>.
-This applies to all of the functions described herein. The parameter
-structure passed to you in the call belongs to the server frontend, and
-you should not make assumptions about its contents after the current
-function call has completed. In other words, if you want to retain any
-of the contents of a request structure, you should copy them.
-</para>
-
-<para>
-The <literal>errcode</literal> should be zero if the initialization of
-the backend went well. Any other value will be interpreted as an error.
-The <literal>errstring</literal> isn't used in the current version, but one
-optin would be to stick it in the initResponse as a VisibleString.
-The <literal>handle</literal> is the most important parameter. It should
-be set to some value that uniquely identifies the current session to
-the backend implementation. It is used by the frontend server in any
-future calls to a backend function.
-The typical use is to set it to point to a dynamically allocated state
-structure that is private to your backend module.
-</para>
-
-<synopsis>
-bend_searchresult *bend_search(void *handle, bend_searchrequest *r,
- int *fd);
-bend_searchresult *bend_searchresponse(void *handle);
-
-typedef struct bend_searchrequest
-{
- char *setname; /* name to give to this set */
- int replace_set; /* replace set, if it already exists */
- int num_bases; /* number of databases in list */
- char **basenames; /* databases to search */
- Z_Query *query; /* query structure */
-} bend_searchrequest;
-
-typedef struct bend_searchresult
-{
- int hits; /* number of hits */
- int errcode; /* 0==OK */
- char *errstring; /* system error string or NULL */
-} bend_searchresult;
-</synopsis>
-
-<para>
-The first thing to notice about the search request interface (as well
-as all of the following requests), is that it consists of two separate
-functions. The idea is to provide a simple facility for
-asynchronous communication with the backend server. When a
-searchrequest comes in, the server frontend will fill out the
-<function>bend_searchrequest</function> tructure, and call the
-<function>bend_search</function> function/. The <literal>fd</literal>
-argument will point to an integer variable. If you are able to do
-asynchronous I/O with your database server, you should set
-<literal>*fd</literal> to the file descriptor you use for the
-communication, and return a null pointer.
-The server frontend will then <function>select()</function> on the
-<literal>*fd</literal>, and will call
-<function>bend_searchresult</function> when it sees that data is available.
-If you don't support asynchronous I/O, you should return a pointer to the
-<function>bend_searchresult</function> immediately, and leave
-<literal>*fd</literal> untouched. This construction is common to
-all of the <function>bend_</function> functions (except
-<function>bend_init</function>). Note that you can choose to support
-this facility in none, any, or all of the <function>bend_</function>
-functions, and you can respond differently on each request at run-time.
-The server frontend will adapt accordingly.
-</para>
-
-<para>
-The <function>bend_searchrequest</function> is a fairly close
-approximation of a protocol searchRequest PDU. The
-<literal>setname</literal> is the resultSetName from the protocol. You
-are required to establish a mapping between the set name and whatever
-your backend database likes to use. Similarly, the
-<literal>replace_set</literal> is a boolean value corresponding to the
-resultSetIndicator field in the protocol.
-<literal>Num_bases/basenames</literal> is a length of/array of character
-pointers to the database names provided by the client. The
-<literal>query</literal> is the full query structure as defined in the
-protocol ASN.1 specification. It can be either of the possible query
-types, and it's up to you to determine if you can handle the provided
-query type. Rather than reproduce the C interface here, we'll refer you
-to the structure definitions in the file
-<filename>include/yaz/proto.h</filename>. If you want to look at the
-attributeSetId OID of the RPN query, you can either match it against
-your own internal tables, or you can use the
-<literal>oid_getentbyoid</literal> function provided by &yaz;.
-</para>
-
-<para>
-The result structure contains a number of hits, and an
-<literal>errcode/errstring</literal> pair. If an error occurs
-during the search, or if you're unhappy with the request, you should
-set the errcode to a value from the BIB-1 diagnostic set. The value
-will then be returned to the user in a nonsurrogate diagnostic record
-in the response. The <literal>errstring</literal>, if provided, will
-go in the addinfo field. Look at the protocol definition for the
-defined error codes, and the suggested uses of the addinfo field.
-</para>
-
-<synopsis>
-bend_fetchresult *bend_fetch(void *handle, bend_fetchrequest *r,
- int *fd);
-bend_fetchresult *bend_fetchresponse(void *handle);
-
-typedef struct bend_fetchrequest
-{
- char *setname; /* set name */
- int number; /* record number */
- oid_value format;
-} bend_fetchrequest;
-
-typedef struct bend_fetchresult
-{
- char *basename; /* name of database that provided record */
- int len; /* length of record */
- char *record; /* record */
- int last_in_set; /* is it? */
- oid_value format;
- int errcode; /* 0==success */
- char *errstring; /* system error string or NULL */
-} bend_fetchresult;
-</synopsis>
-
-<note>
-<para>
-The <function>bend_fetchresponse()</function> function is not yet supported
-in this version of the software. Your implementation of
-<function>bend_fetch()</function> should always return a pointer to a
-<literal>bend_fetchresult</literal>.
-</para>
-</note>
-
-<para>
-The frontend server calls <function>bend_fetch</function> when it needs
-database records to fulfill a searchRequest or a presentRequest.
-The <literal>setname</literal> is simply the name of the result set
-that holds the reference to the desired record.
-The <literal>number</literal> is the offset into the set (with 1
-being the first record in the set). The <literal>format</literal> field
-is the record format requested by the client (See section
-<link linkend="oid">Object Identifiers</link>). The value
-<literal>VAL_NONE</literal> indicates that the client did not
-request a specific format. The <literal>stream</literal> argument
-is an &odr; stream which should be used for
-allocating space for structured data records. The stream will be reset when
-all records have been assembled, and the response package has been transmitted.
-For unstructured data, the backend is responsible for maintaining a static
-or dynamic buffer for the record between calls.
-</para>
-
-<para>
-In the result structure, the <literal>basename</literal> is the name of the
-database that holds the
-record. <literal>len</literal> is the length of the record returned, in
-bytes, and <literal>record</literal> is a pointer to the record.
-<literal>Last_in_set</literal> should be nonzero only if the record
-returned is the last one in the given result set. <literal>errcode</literal>
-and <literal>errstring</literal>, if given, will currently be
-interpreted as a global error pertaining to the set, and will be returned in a
-nonSurrogateDiagnostic.
-</para>
-
-<note>
-<para>
-This is silly. Add a flag to say which is which.
-</para>
-</note>
-
-<para>
-If the <literal>len</literal> field has the value -1, then
-<literal>record</literal> is assumed to point to a constructed data
-type. The <literal>format</literal> field will be used to determine
-which encoder should be used to serialize the data.
-</para>
-
-<note>
-<para>
-If your backend generates structured records, it should use
-<function>odr_malloc()</function> on the provided stream for allocating
-data: This allows the frontend server to keep track of the record sizes.
-</para>
-</note>
-
-<para>
-The <literal>format</literal> field is mapped to an object identifier
-in the direct reference of the resulting EXTERNAL representation of the record.
-</para>
-
-<note>
-<para>
-The current version of &yaz; only supports the direct reference mode.
-</para>
-</note>
-
-<synopsis>
-bend_deleteresult *bend_delete(void *handle, bend_deleterequest *r,
- int *fd);
-bend_deleteresult *bend_deleteresponse(void *handle);
-
-typedef struct bend_deleterequest
-{
- char *setname;
-} bend_deleterequest;
-
-typedef struct bend_deleteresult
-{
- int errcode; /* 0==success */
- char *errstring; /* system error string or NULL */
-} bend_deleteresult;
-</synopsis>
-
-<note>
-<para>
-The "delete" function is not yet supported in this version of
-the software.
-</para>
-</note>
-
-<note>
-<para>
-The delete set function definition is rather primitive, mostly because we
-have had no practical need for it as of yet. If someone wants
-to provide a full delete service, we'd be happy to add the
-extra parameters that are required. Are there clients out there
-that will actually delete sets they no longer need?
-</para>
-</note>
-
-<synopsis>
-bend_scanresult *bend_scan(void *handle, bend_scanrequest *r,
- int *fd);
-bend_scanresult *bend_scanresponse(void *handle);
-
-typedef struct bend_scanrequest
-{
- int num_bases; /* number of elements in databaselist */
+ </synopsis>
+
+ <para>
+ In general, the server frontend expects that the
+ <literal>bend_*result</literal> pointer that you return is valid at
+ least until the next call to a <literal>bend_* function</literal>.
+ This applies to all of the functions described herein. The parameter
+ structure passed to you in the call belongs to the server frontend, and
+ you should not make assumptions about its contents after the current
+ function call has completed. In other words, if you want to retain any
+ of the contents of a request structure, you should copy them.
+ </para>
+
+ <para>
+ The <literal>errcode</literal> should be zero if the initialization of
+ the backend went well. Any other value will be interpreted as an error.
+ The <literal>errstring</literal> isn't used in the current version, but
+ one option would be to stick it in the initResponse as a VisibleString.
+ The <literal>handle</literal> is the most important parameter. It should
+ be set to some value that uniquely identifies the current session to
+ the backend implementation. It is used by the frontend server in any
+ future calls to a backend function.
+ The typical use is to set it to point to a dynamically allocated state
+ structure that is private to your backend module.
+ </para>
+
+ <para>
+ The <literal>auth</literal> member holds the authentication information
+ part of the Z39.50 Initialize Request. Interpret this if your serves
+ requires authentication.
+ </para>
+
+ <para>
+ The members <literal>peer_name</literal>,
+ <literal>implementation_id</literal>,
+ <literal>implementation_name</literal> and
+ <literal>implementation_version</literal> holds
+ DNS of client, ID of implementor, name
+ of client (Z39.50) implementation - and version.
+ </para>
+
+ <para>
+ The <literal>bend_</literal> - members are set to NULL when
+ <function>bend_init</function> is called. Modify the pointers by
+ setting them to point to backend functions.
+ </para>
+
+ </sect2>
+
+ <sect2><title>Search and retrieve</title>
+
+ <para>We now describe the handlers that are required to support search -
+ and retrieve. You must support two functions - one for search - and one
+ for fetch (retrieval of one record). If desirable you can provide a
+ third handler which is called when a present request is received which
+ allows you to optimize retrieval of multiple-records.
+ </para>
+
+ <synopsis>
+int (*bend_search) (void *handle, bend_search_rr *rr);
+
+typedef struct {
+ char *setname; /* name to give to this set */
+ int replace_set; /* replace set, if it already exists */
+ int num_bases; /* number of databases in list */
+ char **basenames; /* databases to search */
+ Z_ReferenceId *referenceId;/* reference ID */
+ Z_Query *query; /* query structure */
+ ODR stream; /* encode stream */
+ ODR decode; /* decode stream */
+ ODR print; /* print stream */
+
+ bend_request request;
+ bend_association association;
+ int *fd;
+ int hits; /* number of hits */
+ int errcode; /* 0==OK */
+ char *errstring; /* system error string or NULL */
+ Z_OtherInformation *search_info;
+} bend_search_rr;
+ </synopsis>
+
+ <para>
+ The <function>bend_search</function> handler is a fairly close
+ approximation of a protocol Z39.50 Search Request - and Response PDUs
+ The <literal>setname</literal> is the resultSetName from the protocol.
+ You are required to establish a mapping between the set name and whatever
+ your backend database likes to use.
+ Similarly, the <literal>replace_set</literal> is a boolean value
+ corresponding to the resultSetIndicator field in the protocol.
+ <literal>num_bases/basenames</literal> is a length of/array of character
+ pointers to the database names provided by the client.
+ The <literal>query</literal> is the full query structure as defined in
+ the protocol ASN.1 specification.
+ It can be either of the possible query types, and it's up to you to
+ determine if you can handle the provided query type.
+ Rather than reproduce the C interface here, we'll refer you to the
+ structure definitions in the file
+ <filename>include/yaz/z-core.h</filename>. If you want to look at the
+ attributeSetId OID of the RPN query, you can either match it against
+ your own internal tables, or you can use the
+ <literal>oid_getentbyoid</literal> function provided by &yaz;.
+ </para>
+
+ <para>
+ The structure contains a number of hits, and an
+ <literal>errcode/errstring</literal> pair. If an error occurs
+ during the search, or if you're unhappy with the request, you should
+ set the errcode to a value from the BIB-1 diagnostic set. The value
+ will then be returned to the user in a nonsurrogate diagnostic record
+ in the response. The <literal>errstring</literal>, if provided, will
+ go in the addinfo field. Look at the protocol definition for the
+ defined error codes, and the suggested uses of the addinfo field.
+ </para>
+
+ <para>
+ The <function>bend_search</function> handler is also called when
+ the frontend server receives a SRW/SRU SearchRetrieveRequest.
+ For SRW/SRU, a CQL query is usually provided by the client.
+ The CQL query is available as part of <literal>Z_Query</literal>
+ structure (note that CQL is now part of Z39.50 via an external).
+ To support CQL in existing implementations that only do Type-1,
+ we refer to the CQL-to-PQF tool described
+ <link linkend="tools.cql.pqf">here</link>.
+ </para>
+
+ <para>
+ To maintain backwards compatibility, the frontend server
+ of yaz always assume that error codes are BIB-1 diagnostics.
+ For SRW/SRU operation, a Bib-1 diagnostic code is mapped to
+ SRW/SRU diagnostic.
+ </para>
+
+ <synopsis>
+int (*bend_fetch) (void *handle, bend_fetch_rr *rr);
+
+typedef struct bend_fetch_rr {
+ char *setname; /* set name */
+ int number; /* record number */
+ Z_ReferenceId *referenceId;/* reference ID */
+ oid_value request_format; /* One of the CLASS_RECSYN members */
+ int *request_format_raw; /* same as above (raw OID) */
+ Z_RecordComposition *comp; /* Formatting instructions */
+ ODR stream; /* encoding stream - memory source if req */
+ ODR print; /* printing stream */
+
+ char *basename; /* name of database that provided record */
+ int len; /* length of record or -1 if structured */
+ char *record; /* record */
+ int last_in_set; /* is it? */
+ oid_value output_format; /* format */
+ int *output_format_raw; /* used instead of above if not-null */
+ int errcode; /* 0==success */
+ char *errstring; /* system error string or NULL */
+ int surrogate_flag; /* surrogate diagnostic */
+ char *schema; /* string record schema input/output */
+} bend_fetch_rr;
+ </synopsis>
+
+ <para>
+ The frontend server calls the <function>bend_fetch</function> handler
+ when it needs database records to fulfill a Z39.50 Search Request, a
+ Z39.50 Present Request or a SRW SearchRetrieveRequest.
+ The <literal>setname</literal> is simply the name of the result set
+ that holds the reference to the desired record.
+ The <literal>number</literal> is the offset into the set (with 1
+ being the first record in the set). The <literal>format</literal> field
+ is the record format requested by the client (See
+ <xref linkend="asn.oid"/>).
+ The value <literal>VAL_NONE</literal> indicates that the client did
+ not request a specific format. The <literal>stream</literal> argument
+ is an &odr; stream which should be used for
+ allocating space for structured data records.
+ The stream will be reset when all records have been assembled, and
+ the response package has been transmitted.
+ For unstructured data, the backend is responsible for maintaining a
+ static or dynamic buffer for the record between calls.
+ </para>
+
+ <para>
+ If a SRW/SRU SearchRetrieveRequest is received by the frontend server,
+ the <literal>referenceId</literal> is NULL and the
+ <literal>request_format</literal> (transfer syntax) is XML (OID name
+ <literal>VAL_TEXT_XML</literal>).
+ The schema for SRW/SRU is stored in both the
+ <literal>Z_RecordComposition</literal>
+ structure and <literal>schema</literal> (simple string).
+ </para>
+
+ <para>
+ In the structure, the <literal>basename</literal> is the name of the
+ database that holds the
+ record. <literal>len</literal> is the length of the record returned, in
+ bytes, and <literal>record</literal> is a pointer to the record.
+ <literal>last_in_set</literal> should be nonzero only if the record
+ returned is the last one in the given result set.
+ <literal>errcode</literal> and <literal>errstring</literal>, if
+ given, will be interpreted as a global error pertaining to the
+ set, and will be returned in a non-surrogate-diagnostic.
+ If you wish to return the error as a surrogate-diagnostic
+ (local error) you can do this by setting
+ <literal>surrogate_flag</literal> to 1 also.
+ </para>
+
+ <para>
+ If the <literal>len</literal> field has the value -1, then
+ <literal>record</literal> is assumed to point to a constructed data
+ type. The <literal>format</literal> field will be used to determine
+ which encoder should be used to serialize the data.
+ </para>
+
+ <note>
+ <para>
+ If your backend generates structured records, it should use
+ <function>odr_malloc()</function> on the provided stream for allocating
+ data: This allows the frontend server to keep track of the record sizes.
+ </para>
+ </note>
+
+ <para>
+ The <literal>format</literal> field is mapped to an object identifier
+ in the direct reference of the resulting EXTERNAL representation
+ of the record.
+ </para>
+
+ <note>
+ <para>
+ The current version of &yaz; only supports the direct reference mode.
+ </para>
+ </note>
+
+ <synopsis>
+int (*bend_present) (void *handle, bend_present_rr *rr);
+
+typedef struct {
+ char *setname; /* set name */
+ int start;
+ int number; /* record number */
+ oid_value format; /* One of the CLASS_RECSYN members */
+ Z_ReferenceId *referenceId;/* reference ID */
+ Z_RecordComposition *comp; /* Formatting instructions */
+ ODR stream; /* encoding stream */
+ ODR print; /* printing stream */
+ bend_request request;
+ bend_association association;
+
+ int hits; /* number of hits */
+ int errcode; /* 0==OK */
+ char *errstring; /* system error string or NULL */
+} bend_present_rr;
+ </synopsis>
+
+ <para>
+ The <function>bend_present</function> handler is called when
+ the server receives a Z39.50 Present Request.
+ The <literal>setname</literal>,
+ <literal>start</literal> and <literal>number</literal> is the
+ name of the result set - start position - and number of records to
+ be retrieved respectively. <literal>format</literal> and
+ <literal>comp</literal> is the preferred transfer syntax and element
+ specifications of the present request.
+ </para>
+ <para>
+ Note that this is handler serves as a supplement for
+ <function>bend_fetch</function> and need not to be defined in order to
+ support search - and retrieve.
+ </para>
+
+ </sect2>
+
+ <sect2><title>Delete</title>
+
+ <para>
+ For back-ends that supports delete of a result set only one handler
+ must be defined.
+ </para>
+
+ <synopsis>
+int (*bend_delete)(void *handle, bend_delete_rr *rr);
+
+typedef struct bend_delete_rr {
+ int function;
+ int num_setnames;
+ char **setnames;
+ Z_ReferenceId *referenceId;
+ int delete_status; /* status for the whole operation */
+ int *statuses; /* status each set - indexed as setnames */
+ ODR stream;
+ ODR print;
+} bend_delete_rr;
+ </synopsis>
+
+ <note>
+ <para>
+ The delete set function definition is rather primitive, mostly because
+ we have had no practical need for it as of yet. If someone wants
+ to provide a full delete service, we'd be happy to add the
+ extra parameters that are required. Are there clients out there
+ that will actually delete sets they no longer need?
+ </para>
+ </note>
+
+ </sect2>
+
+ <sect2><title>scan</title>
+
+ <para>
+ For servers that wish to offer the scan service one handler
+ must be defined.
+ </para>
+
+ <synopsis>
+int (*bend_delete)(void *handle, bend_delete_rr *rr);
+
+typedef enum {
+ BEND_SCAN_SUCCESS, /* ok */
+ BEND_SCAN_PARTIAL /* not all entries could be found */
+} bend_scan_status;
+
+typedef struct bend_scan_rr {
+ int num_bases; /* number of elements in database list */
char **basenames; /* databases to search */
+ oid_value attributeset;
+ Z_ReferenceId *referenceId; /* reference ID */
Z_AttributesPlusTerm *term;
- int term_position; /* desired index of term in result list */
- int num_entries; /* number of entries requested */
-} bend_scanrequest;
+ ODR stream; /* encoding stream - memory source if required */
+ ODR print; /* printing stream */
-typedef struct bend_scanresult
-{
- int num_entries;
- struct scan_entry
- {
- char *term;
- int occurrences;
- } *entries;
- int term_position;
- enum
- {
- BEND_SCAN_SUCCESS,
- BEND_SCAN_PARTIAL
- } status;
+ int *step_size; /* step size */
+ int term_position; /* desired index of term in result list/returned */
+ int num_entries; /* number of entries requested/returned */
+
+ struct scan_entry *entries;
+ bend_scan_status status;
int errcode;
char *errstring;
-} bend_scanresult;
-</synopsis>
-
-<note>
-<para>
-The <function>bend_scanresponse()</function> function is not yet supported
-in this version of the software. Your implementation of
-<function>bend_scan()</function> should always return a pointer to a
-<literal>bend_scanresult</literal>.
-</para>
-</note>
-</sect1>
-
-<sect1><title>Application Invocation</title>
-
-<para>
-The finished application has the following
-invocation syntax (by way of <function>statserv_main()</function>):
-</para>
-
-<synopsis>
-appname [-szSu -a apdufile -l logfile -v loglevel]
-[listener ...]
-</synopsis>
-
-<para>
-The options are
-
-<variablelist>
-
-<varlistentry><term>-a <replaceable>file</replaceable></term>
- <listitem><para>
-Specify a file for dumping PDUs (for diagnostic purposes).
-The special name "-" sends output to <literal>stderr</literal>.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-S</term>
- <listitem><para>
-Don't fork on connection requests. This is good for debugging, but
-not recommended for real operation: Although the server is
-asynchronous and non-blocking, it can be nice to keep a software
-malfunction (okay then, a crash) from affecting all current users.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-s</term>
-<listitem><para>
-Use the SR protocol.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-z</term>
-<listitem><para>
-Use the Z39.50 protocol (default). These two options complement
-eachother. You can use both multiple times on the same command
-line, between listener-specifications (see below). This way, you
-can set up the server to listen for connections in both protocols
-concurrently, on different local ports.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-l <replaceable>file</replaceable></term>
-<listitem><para>The logfile.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-v <replaceable>level</replaceable></term>
-<listitem><para>
-The log level. Use a comma-separated list of members of the set
-{fatal,debug,warn,log,all,none}.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-u <replaceable>userid</replaceable></term>
-<listitem><para>
-Set user ID. Sets the real UID of the server process to that of the
-given user. It's useful if you aren't comfortable with having the
-server run as root, but you need to start it as such to bind a
-privileged port.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-w <replaceable>dir</replaceable></term>
-<listitem><para>
-Working directory.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-i</term>
-<listitem><para>
-Use this when running from the <application>inetd</application> server.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-t <replaceable>minutes</replaceable></term>
-<listitem><para>
-Idle session timeout, in minutes.
-</para></listitem></varlistentry>
-
-<varlistentry><term>-k <replaceable>size</replaceable></term>
-<listitem><para>
-Maximum record size/message size, in kilobytes.
-</para></listitem></varlistentry>
-
-</variablelist>
-</para>
-
-<para>
-A listener specification consists of a transport mode followed by a
-colon (:) followed by a listener address. The transport mode is
-either <literal>osi</literal> or <literal>tcp</literal>.
-</para>
-
-<para>
-For TCP, an address has the form
-</para>
-
-<synopsis>
- hostname | IP-number [: portnumber]
-</synopsis>
-
-<para>
-The port number defaults to 210 (standard Z39.50 port).
-</para>
-
-<para>
-For osi, the address form is
-</para>
-
-<synopsis>
- [t-selector /] hostname | IP-number [: portnumber]
-</synopsis>
-
-<para>
-The transport selector is given as a string of hex digits (with an even
-number of digits). The default port number is 102 (RFC1006 port).
-</para>
-
-<para>
-Examples
-</para>
-
-<screen>
- tcp:dranet.dra.com
-
- osi:0402/dbserver.osiworld.com:3000
-</screen>
-
-<para>
-In both cases, the special hostname "@" is mapped to
-the address INADDR_ANY, which causes the server to listen on any local
-interface. To start the server listening on the registered ports for
-Z39.50 and SR over OSI/RFC1006, and to drop root privileges once the
-ports are bound, execute the server like this (from a root shell):
-</para>
-
-<screen>
- my-server -u daemon tcp:@ -s osi:@
-</screen>
-
-<para>
-You can replace <literal>daemon</literal> with another user, eg. your
-own account, or a dedicated IR server account.
-<literal>my-server</literal> should be the name of your
-server application. You can test the procedure with the
-<application>yaz-ztest</application> application.
-</para>
-
-</sect1>
-<sect1><title>Summary and Synopsis</title>
-
-<synopsis>
-#include <backend.h>
-
-bend_initresult *bend_init(bend_initrequest *r);
-
-bend_searchresult *bend_search(void *handle, bend_searchrequest *r,
- int *fd);
-
-bend_searchresult *bend_searchresponse(void *handle);
-
-bend_fetchresult *bend_fetch(void *handle, bend_fetchrequest *r,
- int *fd);
-
-bend_fetchresult *bend_fetchresponse(void *handle);
-
-bend_scanresult *bend_scan(void *handle, bend_scanrequest *r, int *fd);
-
-bend_scanresult *bend_scanresponse(void *handle);
-
-bend_deleteresult *bend_delete(void *handle, bend_deleterequest *r,
- int *fd);
-
-bend_deleteresult *bend_deleteresponse(void *handle);
-
-void bend_close(void *handle);
-</synopsis>
-</sect1>
-</chapter>
-
+ char *scanClause; /* CQL scan clause */
+} bend_scan_rr;
+ </synopsis>
+ <para>
+ This backend server handles both Z39.50 scan
+ and SRW/SRU scan. In order for a
+ handler to distinguish between SRW/SRU (CQL) scan
+ Z39.50 Scan , it must check for a non-NULL value of
+ <literal>scanClause</literal>.
+ </para>
+ <note>
+ <para>
+ if designed today, it would be a choice using a union or similar,
+ but that would break binary compatibility with existing servers.
+ </para>
+ </note>
+ </sect2>
+ </sect1>
+
+ <sect1 id="server.invocation"><title>Application Invocation</title>
+
+ <para>
+ The finished application has the following
+ invocation syntax (by way of <function>statserv_main()</function>):
+ </para>
+
+ &gfs-synopsis;
+
+ <para>
+ The options are:
+
+ &gfs-options;
+
+ </para>
+
+ <para>
+ A listener specification consists of a transport mode followed by a
+ colon (:) followed by a listener address. The transport mode is
+ either <literal>tcp</literal>, <literal>unix:</literal> or
+ <literal>ssl</literal>.
+ </para>
+
+ <para>
+ For TCP and SSL, an address has the form
+ </para>
+
+ <synopsis>
+ hostname | IP-number [: portnumber]
+ </synopsis>
+
+ <para>
+ The port number defaults to 210 (standard Z39.50 port).
+ </para>
+
+ <para>
+ For UNIX, the address is the filename of socket.
+ </para>
+
+ <para>
+ For TCP/IP and SSL, the special hostname <literal>@</literal>
+ (at sign) is mapped to the address <literal>INADDR_ANY</literal>,
+ which causes the server to listen on any local interface.
+ </para>
+
+ <example><title>Running the GFS on Unix</title>
+ <para>
+ Assuming the server application <replaceable>appname</replaceable> is
+ started as root, the following will make it listen on port 210.
+ The server will change identity to <literal>nobody</literal>
+ and write its log to <filename>/var/log/app.log</filename>.
+ <screen>
+ <replaceable>appname</replaceable> -l /var/log/app.log -u nobody tcp:@:210
+ </screen>
+ </para>
+ <para>
+ The server will accept Z39.50 requests and offer SRW/SRU service
+ on port 210.
+ </para>
+ </example>
+ <example><title>Setting up Apache as SRW/SRU Frontend</title>
+ <para>
+ If you use <ulink url="&url.apache;">Apache</ulink>
+ as your public web server and want to offer HTTP port 80
+ access to the YAZ server on 210, you can use the
+ <ulink url="&url.apache.directive.proxypass;">
+ <literal>ProxyPass</literal></ulink>
+ directive.
+ If you have virtual host
+ <literal>srw.mydomain</literal> you can use the following directives
+ in Apache's httpd.conf:
+ <screen>
+ <VirtualHost *>
+ ErrorLog /home/srw/logs/error_log
+ TransferLog /home/srw/logs/access_log
+ ProxyPass / http://srw.mydomain:210/
+ </VirtualHost>
+ </screen>
+ </para>
+ <para>
+ The above for the Apache 1.3 series.
+ </para>
+ </example>
+ <example><title>Running a server with local access only</title>
+ <para>
+ Servers that is only being accessed from the local host should listen
+ on UNIX file socket rather than a Internet socket. To listen on
+ <filename>/tmp/mysocket</filename> start the server as follows:
+ <screen>
+ <replaceable>appname</replaceable> tcp:/tmp/mysocket
+ </screen>
+ </para>
+ </example>
+ </sect1>
+ <sect1 id="server.vhosts"><title>Virtual Hosts</title>
+ &gfs-virtual;
+ </sect1>
+ </chapter>
+
+ <!-- Keep this comment at the end of the file
+ Local variables:
+ mode: sgml
+ sgml-omittag:t
+ sgml-shorttag:t
+ sgml-minimize-attributes:nil
+ sgml-always-quote-attributes:t
+ sgml-indent-step:1
+ sgml-indent-data:t
+ sgml-parent-document: "yaz.xml"
+ sgml-local-catalogs: nil
+ sgml-namecase-general:t
+ End:
+ -->