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23 <title>Metaproxy - User's Guide and Reference</title>
25 <firstname>Adam</firstname><surname>Dickmeiss</surname>
28 <firstname>Marc</firstname><surname>Cromme</surname>
31 <firstname>Mike</firstname><surname>Taylor</surname>
35 <holder>Index Data ApS</holder>
39 Metaproxy is a universal router, proxy and encapsulated
40 metasearcher for information retrieval protocols. It accepts,
41 processes, interprets and redirects requests from IR clients using
42 standard protocols such as
43 <ulink url="&url.z39.50;">ANSI/NISO Z39.50</ulink>
44 (and in the future <ulink url="&url.sru;">SRU</ulink>
45 and <ulink url="&url.srw;">SRW</ulink>), as
46 well as functioning as a limited
47 <ulink url="&url.http;">HTTP</ulink> server.
48 Metaproxy is configured by an XML file which
49 specifies how the software should function in terms of routes that
50 the request packets can take through the proxy, each step on a
51 route being an instantiation of a filter. Filters come in many
52 types, one for each operation: accepting Z39.50 packets, logging,
53 query transformation, multiplexing, etc. Further filter-types can
54 be added as loadable modules to extend Metaproxy functionality,
58 Metaproxy is <emphasis>not</emphasis> open-source software, but
59 may be freely downloaded, unpacked, inspected, built and run for
60 evaluation purposes. Deployment requires a separate, commercial,
66 <imagedata fileref="common/id.png" format="PNG"/>
69 <imagedata fileref="common/id.eps" format="EPS"/>
76 <chapter id="introduction">
77 <title>Introduction</title>
81 <ulink url="&url.metaproxy;">Metaproxy</ulink>
82 is a standalone program that acts as a universal router, proxy and
83 encapsulated metasearcher for information retrieval protocols such
84 as <ulink url="&url.z39.50;">Z39.50</ulink>, and in the future
85 <ulink url="&url.sru;">SRU</ulink> and <ulink url="&url.srw;">SRW</ulink>.
86 To clients, it acts as a server of these protocols: it can be searched,
87 records can be retrieved from it, etc.
88 To servers, it acts as a client: it searches in them,
89 retrieves records from them, etc. it satisfies its clients'
90 requests by transforming them, multiplexing them, forwarding them
91 on to zero or more servers, merging the results, transforming
92 them, and delivering them back to the client. In addition, it
93 acts as a simple <ulink url="&url.http;">HTTP</ulink> server; support
94 for further protocols can be added in a modular fashion, through the
95 creation of new filters.
100 Fish, bananas, cold pyjamas,
101 Mutton, beef and trout!
102 - attributed to Cole Porter.
105 Metaproxy is a more capable alternative to
106 <ulink url="&url.yazproxy;">YAZ Proxy</ulink>,
107 being more powerful, flexible, configurable and extensible. Among
108 its many advantages over the older, more pedestrian work are
109 support for multiplexing (encapsulated metasearching), routing by
110 database name, authentication and authorisation and serving local
111 files via HTTP. Equally significant, its modular architecture
112 facilitites the creation of pluggable modules implementing further
116 This manual will describe how to install Metaproxy
117 before giving an overview of its architecture, then discussing the
118 key concept of a filter in some depth and giving an overview of
119 the various filter types, then discussing the configuration file
120 format. After this come several optional chapters which may be
121 freely skipped: a detailed discussion of virtual databases and
122 multi-database searching, some notes on writing extensions
123 (additional filter types) and a high-level description of the
124 source code. Finally comes the reference guide, which contains
125 instructions for invoking the <command>metaproxy</command>
126 program, and detailed information on each type of filter,
131 <chapter id="license">
132 <title>The Metaproxy License</title>
133 <orderedlist numeration="arabic">
136 You are allowed to download this software for evaluation purposes.
137 You can unpack it, build it, run it, see how it works and how it fits
138 your needs, all at zero cost.
143 You may NOT deploy the software. For the purposes of this license,
144 deployment means running it for any purpose other than evaluation,
145 whether or not you or anyone else makes a profit from doing so. If
146 you wish to deploy the software, you must first contact Index Data and
147 arrange to purchase a DEPLOYMENT LICENCE. If you are unsure
148 whether or not your proposed use of the software constitutes
149 deployment, email us at <literal>info@indexdata.com</literal>
155 You may modify your copy of the software (fix bugs, add features)
156 if you need to. We encourage you to send your changes back to us for
157 integration into the master copy, but you are not obliged to do so. You
158 may NOT pass your changes on to any other party.
163 There is NO WARRANTY for this software, to the extent permitted by
164 applicable law. We provide the software ``as is'' without warranty of
165 any kind, either expressed or implied, including, but not limited to, the
166 implied warranties of MERCHANTABILITY and FITNESS FOR A
167 PARTICULAR PURPOSE. The entire risk as to the quality and
168 performance of the software is with you. Should the software prove
169 defective, you assume the cost of all necessary servicing, repair or
170 correction. In no event unless required by applicable law will we be
171 liable to you for damages, arising out of the use of the software,
172 including but not limited to loss of data or data being rendered
178 All rights to the software are reserved by Index Data except where
179 this license explicitly says otherwise.
185 <chapter id="installation">
186 <title>Installation</title>
188 Metaproxy depends on the following tools/libraries:
190 <varlistentry><term><ulink url="&url.yazplusplus;">YAZ++</ulink></term>
193 This is a C++ library based on <ulink url="&url.yaz;">YAZ</ulink>.
197 <varlistentry><term><ulink url="&url.libxslt;">Libxslt</ulink></term>
199 <para>This is an XSLT processor - based on
200 <ulink url="&url.libxml2;">Libxml2</ulink>. Both Libxml2 and
201 Libxslt must be installed with the development components
202 (header files, etc.) as well as the run-time libraries.
206 <varlistentry><term><ulink url="&url.boost;">Boost</ulink></term>
209 The popular C++ library. Initial versions of Metaproxy
210 was built with 1.33.0. Version 1.33.1 works too.
217 In order to compile Metaproxy a modern C++ compiler is
218 required. Boost, in particular, requires the C++ compiler
219 to facilitate the newest features. Refer to Boost
220 <ulink url="&url.boost.compilers.status;">Compiler Status</ulink>
221 for more information.
224 We have succesfully built Metaproxy using the compilers
225 <ulink url="&url.gcc;">GCC</ulink> version 4.0 and
226 <ulink url="&url.vstudio;">Microsoft Visual Studio</ulink> 2003/2005.
229 <section id="installation.unix">
230 <title>Installation on Unix (from Source)</title>
232 Here is a quick step-by-step guide on how to compile all the
233 tools that Metaproxy uses. Only few systems have none of the required
234 tools binary packages. If, for example, Libxml2/libxslt are already
235 installed as development packages use those (and omit compilation).
242 gunzip -c libxml2-version.tar.gz|tar xf -
250 gunzip -c libxslt-version.tar.gz|tar xf -
261 gunzip -c yaz-version.tar.gz|tar xf -
269 gunzip -c yazpp-version.tar.gz|tar xf -
280 gunzip -c boost-version.tar.gz|tar xf -
291 gunzip -c metaproxy-version.tar.gz|tar xf -
300 <section id="installation.debian">
301 <title>Installation on Debian GNU/Linux</title>
303 All dependencies for Metaproxy are available as
304 <ulink url="&url.debian;">Debian</ulink>
305 packages for the sarge (stable in 2005) and etch (testing in 2005)
309 The procedures for Debian based systems, such as
310 <ulink url="&url.ubuntu;">Ubuntu</ulink> is probably similar
313 There is currently no official Debian package for YAZ++.
314 And the Debian package for YAZ is probably too old.
315 Update the <filename>/etc/apt/sources.list</filename>
316 to include the Index Data repository.
317 See YAZ' <ulink url="&url.yaz.download.debian;">Download Debian</ulink>
318 for more information.
321 apt-get install libxslt1-dev
322 apt-get install libyazpp-dev
323 apt-get install libboost-dev
324 apt-get install libboost-thread-dev
325 apt-get install libboost-date-time-dev
326 apt-get install libboost-program-options-dev
327 apt-get install libboost-test-dev
330 With these packages installed, the usual configure + make
331 procedure can be used for Metaproxy as outlined in
332 <xref linkend="installation.unix"/>.
336 <section id="installation.windows">
337 <title>Installation on Windows</title>
339 Metaproxy can be compiled with Microsoft
340 <ulink url="&url.vstudio;">Visual Studio</ulink>.
341 Version 2003 (C 7.1) and 2005 (C 8.0) is known to work.
343 <section id="installation.windows.boost">
346 Get Boost from its <ulink url="&url.boost;">home page</ulink>.
347 You also need Boost Jam (an alternative to make).
348 That's also available from the Boost home page.
349 The files to be downloaded are called something like:
350 <filename>boost_1_33-1.exe</filename>
352 <filename>boost-jam-3.1.12-1-ntx86.zip</filename>.
353 Unpack Boost Jam first. Put <filename>bjam.exe</filename>
354 in your system path. Make a command prompt and ensure
355 it can be found automatically. If not check the PATH.
356 The Boost .exe is a self-extracting exe with
357 complete source for Boost. Compile that source with
358 Boost Jam (An alternative to Make).
359 The compilation takes a while.
360 For Visual Studio 2003, use
362 bjam "-sTOOLS=vc-7_1"
364 Here <literal>vc-7_1</literal> refers to a "Toolset" (compiler system).
365 For Visual Studio 2005, use
367 bjam "-sTOOLS=vc-8_0"
369 To install the libraries in a common place, use
371 bjam "-sTOOLS=vc-7_1" install
373 (or vc-8_0 for VS 2005).
376 By default, the Boost build process installs the resulting
377 libraries + header files in
378 <literal>\boost\lib</literal>, <literal>\boost\include</literal>.
381 For more informatation about installing Boost refer to the
382 <ulink url="&url.boost.getting.started;">getting started</ulink>
387 <section id="installation.windows.libxslt">
388 <title>Libxslt</title>
390 <ulink url="&url.libxslt;">Libxslt</ulink> can be downloaded
392 <ulink url="&url.libxml2.download.win32;">here</ulink>.
395 Libxslt has other dependencies, but thes can all be downloaded
396 from the same site. Get the following:
397 iconv, zlib, libxml2, libxslt.
401 <section id="installation.windows.yaz">
404 <ulink url="&url.yaz;">YAZ</ulink> can be downloaded
406 <ulink url="&url.yaz.download.win32;">here</ulink>.
410 <section id="installation.windows.yazplusplus">
413 Get <ulink url="&url.yazplusplus;">YAZ++</ulink> as well.
414 Version 1.0 or later is required. For now get it from
416 <ulink url="&url.snapshot.download;">Snapshot area</ulink>.
419 YAZ++ includes NMAKE makefiles, similar to those found in the
424 <section id="installation.windows.metaproxy">
425 <title>Metaproxy</title>
427 Metaproxy is shipped with NMAKE makfiles as well - similar
428 to those found in the YAZ++/YAZ packages. Adjust this Makefile
429 to point to the proper locations of Boost, Libxslt, Libxml2,
430 zlib, iconv, yaz and yazpp.
434 <varlistentry><term><literal>DEBUG</literal></term>
436 If set to 1, the software is
437 compiled with debugging libraries (code generation is
438 multi-threaded debug DLL).
439 If set to 0, the software is compiled with release libraries
440 (code generation is multi-threaded DLL).
445 <term><literal>BOOST</literal></term>
448 Boost install location
454 <term><literal>BOOST_VERSION</literal></term>
457 Boost version (replace . with _).
463 <term><literal>BOOST_TOOLSET</literal></term>
472 <term><literal>LIBXSLT_DIR</literal>,
473 <literal>LIBXML2_DIR</literal> ..</term>
476 Specify the locations of Libxslt, libiconv, libxml2 and
485 After succesful compilation you'll find
486 <literal>metaproxy.exe</literal> in the
487 <literal>bin</literal> directory.
495 <chapter id="architecture">
496 <title>The Metaproxy Architecture</title>
498 The Metaproxy architecture is based on three concepts:
499 the <emphasis>package</emphasis>,
500 the <emphasis>route</emphasis>
501 and the <emphasis>filter</emphasis>.
505 <term>Packages</term>
508 A package is request or response, encoded in some protocol,
509 issued by a client, making its way through Metaproxy, send to or
510 received from a server, or sent back to the client.
513 The core of a package is the protocol unit - for example, a
514 Z39.50 Init Request or Search Response, or an SRU searchRetrieve
515 URL or Explain Response. In addition to this core, a package
516 also carries some extra information added and used by Metaproxy
520 In general, packages are doctored as they pass through
521 Metaproxy. For example, when the proxy performs authentication
522 and authorisation on a Z39.50 Init request, it removes the
523 authentication credentials from the package so that they are not
524 passed onto the back-end server; and when search-response
525 packages are obtained from multiple servers, they are merged
526 into a single unified package that makes its way back to the
535 Packages make their way through routes, which can be thought of
536 as programs that operate on the package data-type. Each
537 incoming package initially makes its way through a default
538 route, but may be switched to a different route based on various
539 considerations. Routes are made up of sequences of filters (see
548 Filters provide the individual instructions within a route, and
549 effect the necessary transformations on packages. A particular
550 configuration of Metaproxy is essentially a set of filters,
551 described by configuration details and arranged in order in one
552 or more routes. There are many kinds of filter - about a dozen
553 at the time of writing with more appearing all the time - each
554 performing a specific function and configured by different
558 The word ``filter'' is sometimes used rather loosely, in two
559 different ways: it may be used to mean a particular
560 <emphasis>type</emphasis> of filter, as when we speak of ``the
561 auth_simple filter'' or ``the multi filter''; or it may be used
562 to be a specific <emphasis>instance</emphasis> of a filter
563 within a Metaproxy configuration. For example, a single
564 configuration will often contain multiple instances of the
565 <literal>z3950_client</literal> filter. In
566 operational terms, of these is a separate filter. In practice,
567 context always make it clear which sense of the word ``filter''
571 Extensibility of Metaproxy is primarily through the creation of
572 plugins that provide new filters. The filter API is small and
573 conceptually simple, but there are many details to master. See
575 <link linkend="extensions">extensions</link>.
581 Since packages are created and handled by the system itself, and
582 routes are conceptually simple, most of the remainder of this
583 document concentrates on filters. After a brief overview of the
584 filter types follows, along with some thoughts on possible future
591 <chapter id="filters">
592 <title>Filters</title>
596 <title>Introductory notes</title>
598 It's useful to think of Metaproxy as an interpreter providing a small
599 number of primitives and operations, but operating on a very
600 complex data type, namely the ``package''.
603 A package represents a Z39.50 or SRU/W request (whether for Init,
604 Search, Scan, etc.) together with information about where it came
605 from. Packages are created by front-end filters such as
606 <literal>frontend_net</literal> (see below), which reads them from
607 the network; other front-end filters are possible. They then pass
608 along a route consisting of a sequence of filters, each of which
609 transforms the package and may also have side-effects such as
610 generating logging. Eventually, the route will yield a response,
611 which is sent back to the origin.
614 There are many kinds of filter: some that are defined statically
615 as part of Metaproxy, and others may be provided by third parties
616 and dynamically loaded. They all conform to the same simple API
617 of essentially two methods: <function>configure()</function> is
618 called at startup time, and is passed an XML DOM tree representing that
619 part of the configuration file that pertains to this filter
620 instance: it is expected to walk that tree extracting relevant
621 information; and <function>process()</function> is called every
622 time the filter has to processes a package.
625 While all filters provide the same API, there are different modes
626 of functionality. Some filters are sources: they create
628 (<literal>frontend_net</literal>);
629 others are sinks: they consume packages and return a result
630 (<literal>z3950_client</literal>,
631 <literal>backend_test</literal>,
632 <literal>bounce</literal>,
633 <literal>http_file</literal>);
634 the others are true filters, that read, process and pass on the
635 packages they are fed
636 (<literal>auth_simple</literal>,
637 <literal>log</literal>,
638 <literal>multi</literal>,
639 <literal>query_rewrite</literal>,
640 <literal>record_transform</literal>,
641 <literal>session_shared</literal>,
642 <literal>template</literal>,
643 <literal>virt_db</literal>).
648 <section id="overview.filter.types">
649 <title>Overview of filter types</title>
651 We now briefly consider each of the types of filter supported by
652 the core Metaproxy binary. This overview is intended to give a
653 flavour of the available functionality; more detailed information
654 about each type of filter is included below in
655 <link linkend="filterref"
656 >the reference guide to Metaproxy filters</link>.
659 The filters are here named by the string that is used as the
660 <literal>type</literal> attribute of a
661 <literal><filter></literal> element in the configuration
662 file to request them, with the name of the class that implements
663 them in parentheses. (The classname is not needed for normal
664 configuration and use of Metaproxy; it is useful only to
668 The filters are here listed in alphabetical order:
675 New virt_db-alike that does inteligent peer choice, explain merging,
676 adds FD&N to explain. Keeps init responses (like "virt_db Classic"),
677 makes routing choices based on local explain knowledge. Ref IDDI
680 Filter to convert Explain Classic to ZeeRex.
682 CQL2PQF (which needs augmented ZeeRex) - MARC for Talis.
686 Figure out what additional information we need in:
687 ZeeRex (check against D3.1)
688 Init request (e.g. loop detection)
689 Query package (e.g. number of hops)
690 Query response (e.g. record source)
695 <title><literal>auth_simple</literal>
696 (mp::filter::AuthSimple)</title>
698 Simple authentication and authorisation. The configuration
699 specifies the name of a file that is the user register, which
700 lists <varname>username</varname>:<varname>password</varname>
701 pairs, one per line, colon separated. When a session begins, it
702 is rejected unless username and passsword are supplied, and match
703 a pair in the register. The configuration file may also specific
704 the name of another file that is the target register: this lists
705 lists <varname>username</varname>:<varname>dbname</varname>,<varname>dbname</varname>...
706 sets, one per line, with multiple database names separated by
707 commas. When a search is processed, it is rejected unless the
708 database to be searched is one of those listed as available to
714 <title><literal>backend_test</literal>
715 (mp::filter::Backend_test)</title>
717 A partial sink that provides dummy responses in the manner of the
718 <literal>yaz-ztest</literal> Z39.50 server. This is useful only
719 for testing. Seriously, you don't need this. Pretend you didn't
720 even read this section.
725 <title><literal>bounce</literal>
726 (mp::filter::Bounce)</title>
728 A sink that swallows <emphasis>all packages</emphasis>,
729 and returns them almost unprocessed.
730 It never sends any package of any type further down the row, but
731 sets Z39.50 packages to Z_Close, and HTTP_Request packages to
732 HTTP_Response err code 400 packages, and adds a suitable bounce
734 The bounce filter is usually added at end of each filter chain
735 config.xml to prevent infinite hanging of for example HTTP
736 requests packages when only the Z39.50 client partial sink
737 filter is found in the
743 <title><literal>frontend_net</literal>
744 (mp::filter::FrontendNet)</title>
746 A source that accepts Z39.50 connections from a port
747 specified in the configuration, reads protocol units, and
748 feeds them into the next filter in the route. When the result is
749 revceived, it is returned to the original origin.
754 <title><literal>http_file</literal>
755 (mp::filter::HttpFile)</title>
757 A partial sink which swallows only HTTP_Request packages, and
758 returns the contents of files from the local
759 filesystem in response to HTTP requests.
760 It lets Z39.50 packages and all other forthcoming package types
763 does mean that Metaproxy is also a Web-server in its spare time. So
764 far it does not contain either an email-reader or a Lisp
765 interpreter, but that day is surely coming.)
770 <title><literal>log</literal>
771 (mp::filter::Log)</title>
773 Writes logging information to standard output, and passes on
774 the package unchanged. A log file name can be specified, as well
775 as multiple different logging formats.
780 <title><literal>multi</literal>
781 (mp::filter::Multi)</title>
783 Performs multi-database searching.
785 <link linkend="multidb">the extended discussion</link>
786 of virtual databases and multi-database searching below.
791 <title><literal>query_rewrite</literal>
792 (mp::filter::QueryRewrite)</title>
794 Rewrites Z39.50 Type-1 and Type-101 (``RPN'') queries by a
795 three-step process: the query is transliterated from Z39.50
796 packet structures into an XML representation; that XML
797 representation is transformed by an XSLT stylesheet; and the
798 resulting XML is transliterated back into the Z39.50 packet
805 <title><literal>record_transform</literal>
806 (mp::filter::RecordTransform)</title>
808 This filter acts only on Z3950 present requests, and let all
809 other types of packages and requests pass untouched. It's use is
810 twofold: blocking Z3950 present requests, which the backend
811 server does not understand and can not honour, and transforming
812 the present syntax and elementset name according to the rules
813 specified, to fetch only exisitng record formats, and transform
814 them on the fly to requested record syntaxes.
819 <title><literal>session_shared</literal>
820 (mp::filter::SessionShared)</title>
822 When this is finished, it will implement global sharing of
823 result sets (i.e. between threads and therefore between
824 clients), yielding performance improvements especially when
825 incoming requests are from a stateless environment such as a
826 web-server, in which the client process representing a session
827 might be any one of many. However:
831 This filter is not yet completed.
837 <title><literal>template</literal>
838 (mp::filter::Template)</title>
840 Does nothing at all, merely passing the packet on. (Maybe it
841 should be called <literal>nop</literal> or
842 <literal>passthrough</literal>?) This exists not to be used, but
843 to be copied - to become the skeleton of new filters as they are
844 written. As with <literal>backend_test</literal>, this is not
845 intended for civilians.
850 <title><literal>virt_db</literal>
851 (mp::filter::VirtualDB)</title>
853 Performs virtual database selection: based on the name of the
854 database in the search request, a server is selected, and its
855 address added to the request in a <literal>VAL_PROXY</literal>
856 otherInfo packet. It will subsequently be used by a
857 <literal>z3950_client</literal> filter.
859 <link linkend="multidb">the extended discussion</link>
860 of virtual databases and multi-database searching below.
865 <title><literal>z3950_client</literal>
866 (mp::filter::Z3950Client)</title>
868 A partial sink which swallows only Z39.50 packages.
869 It performs Z39.50 searching and retrieval by proxying the
870 packages that are passed to it. Init requests are sent to the
871 address specified in the <literal>VAL_PROXY</literal> otherInfo
872 attached to the request: this may have been specified by client,
873 or generated by a <literal>virt_db</literal> filter earlier in
874 the route. Subsequent requests are sent to the same address,
875 which is remembered at Init time in a Session object.
876 HTTP_Request packages and all other forthcoming package types
877 are passed untouched.
883 <section id="future.directions">
884 <title>Future directions</title>
886 Some other filters that do not yet exist, but which would be
887 useful, are briefly described. These may be added in future
888 releases (or may be created by third parties, as loadable
894 <term><literal>frontend_cli</literal> (source)</term>
897 Command-line interface for generating requests.
902 <term><literal>frontend_sru</literal> (source)</term>
905 Receive SRU (and perhaps SRW) requests.
910 <term><literal>sru2z3950</literal> (filter)</term>
913 Translate SRU requests into Z39.50 requests.
918 <term><literal>sru_client</literal> (sink)</term>
921 SRU searching and retrieval.
926 <term><literal>srw_client</literal> (sink)</term>
929 SRW searching and retrieval.
934 <term><literal>opensearch_client</literal> (sink)</term>
937 A9 OpenSearch searching and retrieval.
947 <chapter id="configuration">
948 <title>Configuration: the Metaproxy configuration file format</title>
952 <title>Introductory notes</title>
954 If Metaproxy is an interpreter providing operations on packages, then
955 its configuration file can be thought of as a program for that
956 interpreter. Configuration is by means of a single file, the name
957 of which is supplied as the sole command-line argument to the
958 <command>metaproxy</command> program. (See
959 <link linkend="progref">the reference guide</link>
960 below for more information on invoking Metaproxy.)
963 The configuration files are written in XML. (But that's just an
964 implementation detail - they could just as well have been written
965 in YAML or Lisp-like S-expressions, or in a custom syntax.)
969 <section id="overview.xml.structure">
970 <title>Overview of the config file XML structure</title>
972 All elements and attributes are in the namespace
973 <ulink url="http://indexdata.dk/yp2/config/1"/>.
974 This is most easily achieved by setting the default namespace on
975 the top-level element, as here:
978 <yp2 xmlns="http://indexdata.dk/yp2/config/1">
981 The top-level element is <yp2>. This contains a
982 <start> element, a <filters> element and a
983 <routes> element, in that order. <filters> is
984 optional; the other two are mandatory. All three are
988 The <start> element is empty, but carries a
989 <literal>route</literal> attribute, whose value is the name of
990 route at which to start running - analogous to the name of the
991 start production in a formal grammar.
994 If present, <filters> contains zero or more <filter>
995 elements. Each filter carries a <literal>type</literal> attribute
996 which specifies what kind of filter is being defined
997 (<literal>frontend_net</literal>, <literal>log</literal>, etc.)
998 and contain various elements that provide suitable configuration
999 for a filter of its type. The filter-specific elements are
1001 <link linkend="filterref">the reference guide below</link>.
1002 Filters defined in this part of the file must carry an
1003 <literal>id</literal> attribute so that they can be referenced
1007 <routes> contains one or more <route> elements, each
1008 of which must carry an <literal>id</literal> element. One of the
1009 routes must have the ID value that was specified as the start
1010 route in the <start> element's <literal>route</literal>
1011 attribute. Each route contains zero or more <filter>
1012 elements. These are of two types. They may be empty, but carry a
1013 <literal>refid</literal> attribute whose value is the same as the
1014 <literal>id</literal> of a filter previously defined in the
1015 <filters> section. Alternatively, a route within a filter
1016 may omit the <literal>refid</literal> attribute, but contain
1017 configuration elements similar to those used for filters defined
1018 in the <filters> section. (In other words, each filter in a
1019 route may be included either by reference or by physical
1025 <section id="example.configuration">
1026 <title>An example configuration</title>
1028 The following is a small, but complete, Metaproxy configuration
1029 file (included in the distribution as
1030 <literal>metaproxy/etc/config1.xml</literal>).
1031 This file defines a very simple configuration that simply proxies
1032 to whatever back-end server the client requests, but logs each
1033 request and response. This can be useful for debugging complex
1034 client-server dialogues.
1036 <screen><![CDATA[<?xml version="1.0"?>
1037 <yp2 xmlns="http://indexdata.dk/yp2/config/1">
1038 <start route="start"/>
1040 <filter id="frontend" type="frontend_net">
1043 <filter id="backend" type="z3950_client">
1048 <filter refid="frontend"/>
1049 <filter type="log"/>
1050 <filter refid="backend"/>
1051 <filter type="bounce"/>
1057 It works by defining a single route, called
1058 <literal>start</literal>, which consists of a sequence of four
1059 filters. The first and last of these are included by reference:
1060 their <literal><filter></literal> elements have
1061 <literal>refid</literal> attributes that refer to filters defined
1062 within the prior <literal><filters></literal> section. The
1063 middle filter is included inline in the route.
1066 The four filters in the route are as follows: first, a
1067 <literal>frontend_net</literal> filter accepts Z39.50 requests
1068 from any host on port 9000; then these requests are passed through
1069 a <literal>log</literal> filter that emits a message for each
1070 request; they are then fed into a <literal>z3950_client</literal>
1071 filter, which forwards all Z39.50 requests to the client-specified
1072 back-end Z39.509 server. Those Z39.50 packages are returned by the
1073 <literal>z3950_client</literal> filter, with the response data
1074 filled by the external Z39.50 server targeted.
1075 All non-Z39.50 packages are passed through to the
1076 <literal>bounce</literal> filter, which defitely bounces
1077 everything, including fish, bananas, cold pyjamas,
1078 mutton, beef and trout packages.
1079 When the response arrives, it is handed
1080 back to the <literal>log</literal> filter, which emits another
1081 message; and then to the <literal>frontend_net</literal> filter,
1082 which returns the response to the client.
1085 <section id="checking.xml.syntax">
1086 <title>Config file syntax checking</title>
1088 The distribution contains RelaxNG Compact and XML syntax checking
1089 files, as well as XML Schema files. These are found in the
1092 xml/schema/metaproxy.rnc
1093 xml/schema/metaproxy.rng
1094 xml/schema/metaproxy.xsd
1096 and can be used to verify or debug the XML structure of
1097 configuration files. For example, using the utility
1098 <filename>xmllint</filename>, syntax checking is done like this:
1100 xmllint --noout --schema xml/schema/metaproxy.xsd etc/config-local.xml
1101 xmllint --noout --relaxng xml/schema/metaproxy.rng etc/config-local.xml
1103 (A recent version of <literal>libxml2</literal> is required, as
1104 support for XML Schemas is a relatively recent addition.)
1107 You can of course use any other RelaxNG or XML Schema compliant tool
1115 <chapter id="multidb">
1116 <title>Virtual databases and multi-database searching</title>
1120 <title>Introductory notes</title>
1122 Two of Metaproxy's filters are concerned with multiple-database
1123 operations. Of these, <literal>virt_db</literal> can work alone
1124 to control the routing of searches to one of a number of servers,
1125 while <literal>multi</literal> can work together with
1126 <literal>virt_db</literal> to perform multi-database searching, merging
1127 the results into a unified result-set - ``metasearch in a box''.
1130 The interaction between
1131 these two filters is necessarily complex: it reflects the real,
1132 irreducible complexity of multi-database searching in a protocol such
1133 as Z39.50 that separates initialisation from searching, and in
1134 which the database to be searched is not known at initialisation
1138 It's possible to use these filters without understanding the
1139 details of their functioning and the interaction between them; the
1140 next two sections of this chapter are ``HOWTO'' guides for doing
1141 just that. However, debugging complex configurations will require
1142 a deeper understanding, which the last two sections of this
1143 chapters attempt to provide.
1148 <section id="multidb.virt_db">
1149 <title>Virtual databases with the <literal>virt_db</literal> filter</title>
1151 Working alone, the purpose of the
1152 <literal>virt_db</literal>
1153 filter is to route search requests to one of a selection of
1154 back-end databases. In this way, a single Z39.50 endpoint
1155 (running Metaproxy) can provide access to several different
1156 underlying services, including those that would otherwise be
1157 inaccessible due to firewalls. In many useful configurations, the
1158 back-end databases are local to the Metaproxy installation, but
1159 the software does not enforce this, and any valid Z39.50 servers
1160 may be used as back-ends.
1163 For example, a <literal>virt_db</literal>
1164 filter could be set up so that searches in the virtual database
1165 ``lc'' are forwarded to the Library of Congress bibliographic
1166 catalogue server, and searches in the virtual database ``marc''
1167 are forwarded to the toy database of MARC records that Index Data
1168 hosts for testing purposes. A <literal>virt_db</literal>
1169 configuration to make this switch would look like this:
1171 <screen><![CDATA[<filter type="virt_db">
1173 <database>lc</database>
1174 <target>z3950.loc.gov:7090/voyager</target>
1177 <database>marc</database>
1178 <target>indexdata.dk/marc</target>
1180 </filter>]]></screen>
1182 As well as being useful in it own right, this filter also provides
1183 the foundation for multi-database searching.
1188 <section id="multidb.multi">
1189 <title>Multi-database search with the <literal>multi</literal> filter</title>
1191 To arrange for Metaproxy to broadcast searches to multiple back-end
1192 servers, the configuration needs to include two components: a
1193 <literal>virt_db</literal>
1194 filter that specifies multiple
1195 <literal><target></literal>
1196 elements, and a subsequent
1197 <literal>multi</literal>
1198 filter. Here, for example, is a complete configuration that
1199 broadcasts searches to both the Library of Congress catalogue and
1200 Index Data's tiny testing database of MARC records:
1202 <screen><![CDATA[<?xml version="1.0"?>
1203 <yp2 xmlns="http://indexdata.dk/yp2/config/1">
1204 <start route="start"/>
1207 <filter type="frontend_net">
1208 <threads>10</threads>
1211 <filter type="virt_db">
1213 <database>lc</database>
1214 <target>z3950.loc.gov:7090/voyager</target>
1217 <database>marc</database>
1218 <target>indexdata.dk/marc</target>
1221 <database>all</database>
1222 <target>z3950.loc.gov:7090/voyager</target>
1223 <target>indexdata.dk/marc</target>
1226 <filter type="multi"/>
1227 <filter type="z3950_client">
1228 <timeout>30</timeout>
1230 <filter type="bounce"/>
1236 <literal>virt_db</literal>
1237 filter that specifies multiple
1238 <literal><target></literal>
1239 elements but without a subsequent
1240 <literal>multi</literal>
1241 filter yields surprising and undesirable results, as will be
1242 described below. Don't do that.)
1245 Metaproxy can be invoked with this configuration as follows:
1247 <screen>../src/metaproxy --config config-simple-multi.xml</screen>
1249 And thereafter, Z39.50 clients can connect to the running server
1250 (on port 9000, as specified in the configuration) and search in
1251 any of the databases
1252 <literal>lc</literal> (the Library of Congress catalogue),
1253 <literal>marc</literal> (Index Data's test database of MARC records)
1255 <literal>all</literal> (both of these). As an example, a session
1256 using the YAZ command-line client <literal>yaz-client</literal> is
1257 here included (edited for brevity and clarity):
1259 <screen><![CDATA[$ yaz-client @:9000
1263 Search was a success.
1264 Number of hits: 10000, setno 1
1268 Search was a success.
1269 Number of hits: 10, setno 3
1273 Search was a success.
1274 Number of hits: 10010, setno 4
1277 [marc]Record type: USmarc
1280 005 00000000000000.0
1281 008 910710c19910701nju 00010 eng
1285 100 10 $a Jack Collins
1286 245 10 $a How to program a computer
1292 [VOYAGER]Record type: USmarc
1294 005 20041229102447.0
1295 008 030910s2004 caua 000 0 eng
1296 035 $a (DLC) 2003112666
1297 906 $a 7 $b cbc $c orignew $d 4 $e epcn $f 20 $g y-gencatlg
1298 925 0 $a acquire $b 1 shelf copy $x policy default
1299 955 $a pc10 2003-09-10 $a pv12 2004-06-23 to SSCD; $h sj05 2004-11-30 $e sj05 2004-11-30 to Shelf.
1302 040 $a DLC $c DLC $d DLC
1303 050 00 $a MLCM 2004/03312 (G)
1304 245 10 $a 007, everything or nothing : $b Prima's official strategy guide / $c created by Kaizen Media Group.
1305 246 3 $a Double-O-seven, everything or nothing
1306 246 30 $a Prima's official strategy guide
1307 260 $a Roseville, CA : $b Prima Games, $c c2004.
1308 300 $a 161 p. : $b col. ill. ; $c 28 cm.
1309 500 $a "Platforms: Nintendo GameCube, Macintosh, PC, PlayStation 2 computer entertainment system, Xbox"--P. [4] of cover.
1310 650 0 $a Video games.
1311 710 2 $a Kaizen Media Group.
1312 856 42 $3 Publisher description $u http://www.loc.gov/catdir/description/random052/2003112666.html
1317 As can be seen, the first record in the result set is from the
1318 Index Data test database, and the second from the Library of
1319 Congress database. The result-set continues alternating records
1320 round-robin style until the point where one of the databases'
1321 records are exhausted.
1324 This example uses only two back-end databases; more may be used.
1325 There is no limitation imposed on the number of databases that may
1326 be metasearched in this way: issues of resource usage and
1327 administrative complexity dictate the practical limits.
1330 What happens when one of the databases doesn't respond? By default,
1331 the entire multi-database search fails, and the appropriate
1332 diagnostic is returned to the client. This is usually appropriate
1333 during development, when technicians need maximum information, but
1334 can be inconvenient in deployment, when users typically don't want
1335 to be bothered with problems of this kind and prefer just to get
1336 the records from the databases that are available. To obtain this
1337 latter behaviour add an empty
1338 <literal><hideunavailable></literal>
1340 <literal>multi</literal> filter:
1342 <screen><![CDATA[ <filter type="multi">
1344 </filter>]]></screen>
1346 Under this regime, an error is reported to the client only if
1347 <emphasis>all</emphasis> the databases in a multi-database search
1353 <section id="multidb.what">
1354 <title>What's going on?</title>
1356 <title>Lark's vomit</title>
1358 This section goes into a level of technical detail that is
1359 probably not necessary in order to configure and use Metaproxy.
1360 It is provided only for those who like to know how things work.
1361 You should feel free to skip on to the next section if this one
1362 doesn't seem like fun.
1366 Hold on tight - this may get a little hairy.
1369 In the general course of things, a Z39.50 Init request may carry
1370 with it an otherInfo packet of type <literal>VAL_PROXY</literal>,
1371 whose value indicates the address of a Z39.50 server to which the
1372 ultimate connection is to be made. (This otherInfo packet is
1373 supported by YAZ-based Z39.50 clients and servers, but has not yet
1374 been ratified by the Maintenance Agency and so is not widely used
1375 in non-Index Data software. We're working on it.)
1376 The <literal>VAL_PROXY</literal> packet functions
1377 analogously to the absoluteURI-style Request-URI used with the GET
1378 method when a web browser asks a proxy to forward its request: see
1380 <ulink url="http://www.w3.org/Protocols/rfc2616/rfc2616-sec5.html#sec5.1.2"
1381 >Request-URI</ulink>
1383 <ulink url="http://www.w3.org/Protocols/rfc2616/rfc2616.html"
1384 >the HTTP 1.1 specification</ulink>.
1387 Within Metaproxy, Search requests that are part of the same
1388 session as an Init request that carries a
1389 <literal>VAL_PROXY</literal> otherInfo are also annotated with the
1390 same information. The role of the <literal>virt_db</literal>
1391 filter is to rewrite this otherInfo packet dependent on the
1392 virtual database that the client wants to search.
1395 When Metaproxy receives a Z39.50 Init request from a client, it
1396 doesn't immediately forward that request to the back-end server.
1397 Why not? Because it doesn't know <emphasis>which</emphasis>
1398 back-end server to forward it to until the client sends a Search
1399 request that specifies the database that it wants to search in.
1400 Instead, it just treasures the Init request up in its heart; and,
1401 later, the first time the client does a search on one of the
1402 specified virtual databases, a connection is forged to the
1403 appropriate server and the Init request is forwarded to it. If,
1404 later in the session, the same client searches in a different
1405 virtual database, then a connection is forged to the server that
1406 hosts it, and the same cached Init request is forwarded there,
1410 All of this clever Init-delaying is done by the
1411 <literal>frontend_net</literal> filter. The
1412 <literal>virt_db</literal> filter knows nothing about it; in
1413 fact, because the Init request that is received from the client
1414 doesn't get forwarded until a Search request is received, the
1415 <literal>virt_db</literal> filter (and the
1416 <literal>z3950_client</literal> filter behind it) doesn't even get
1417 invoked at Init time. The <emphasis>only</emphasis> thing that a
1418 <literal>virt_db</literal> filter ever does is rewrite the
1419 <literal>VAL_PROXY</literal> otherInfo in the requests that pass
1423 It is possible for a <literal>virt_db</literal> filter to contain
1425 <literal><target></literal>
1426 elements. What does this mean? Only that the filter will add
1427 multiple <literal>VAL_PROXY</literal> otherInfo packets to the
1428 Search requests that pass through it. That's because the virtual
1429 DB filter is dumb, and does exactly what it's told - no more, no
1431 If a Search request with multiple <literal>VAL_PROXY</literal>
1432 otherInfo packets reaches a <literal>z3950_client</literal>
1433 filter, this is an error. That filter doesn't know how to deal
1434 with multiple targets, so it will either just pick one and search
1435 in it, or (better) fail with an error message.
1438 The <literal>multi</literal> filter comes to the rescue! This is
1439 the only filter that knows how to deal with multiple
1440 <literal>VAL_PROXY</literal> otherInfo packets, and it does so by
1441 making multiple copies of the entire Search request: one for each
1442 <literal>VAL_PROXY</literal>. Each of these new copies is then
1443 passed down through the remaining filters in the route. (The
1444 copies are handled in parallel though the
1445 spawning of new threads.) Since the copies each have only one
1446 <literal>VAL_PROXY</literal> otherInfo, they can be handled by the
1447 <literal>z3950_client</literal> filter, which happily deals with
1448 each one individually. When the results of the individual
1449 searches come back up to the <literal>multi</literal> filter, it
1450 merges them into a single Search response, which is what
1451 eventually makes it back to the client.
1456 <section id="multidb.picture">
1457 <title>A picture is worth a thousand words (but only five hundred on 64-bit architectures)</title>
1461 <imagedata fileref="multi.pdf" format="PDF" scale="50"/>
1464 <imagedata fileref="multi.png" format="PNG"/>
1467 <!-- Fall back if none of the images can be used -->
1469 [Here there should be a diagram showing the progress of
1470 packages through the filters during a simple virtual-database
1471 search and a multi-database search, but is seems that your
1472 toolchain has not been able to include the diagram in this
1473 document. This is because of LaTeX suckage. Time to move to
1474 OpenOffice. Yes, really.]
1477 <!-- ### This used to work with an older version of DocBook
1479 <para>Caption: progress of packages through filters.</para>
1482 </inlinemediaobject>
1489 <chapter id="extensions">
1490 <title>Writing extensions for Metaproxy</title>
1491 <para>### To be written</para>
1497 <chapter id="classes">
1498 <title>Classes in the Metaproxy source code</title>
1502 <title>Introductory notes</title>
1504 <emphasis>Stop! Do not read this!</emphasis>
1505 You won't enjoy it at all. You should just skip ahead to
1506 <link linkend="refguide">the reference guide</link>,
1508 <!-- The remainder of this paragraph is lifted verbatim from
1509 Douglas Adams' _Hitch Hiker's Guide to the Galaxy_, chapter 8 -->
1510 you things you really need to know, like the fact that the
1511 fabulously beautiful planet Bethselamin is now so worried about
1512 the cumulative erosion by ten billion visiting tourists a year
1513 that any net imbalance between the amount you eat and the amount
1514 you excrete whilst on the planet is surgically removed from your
1515 bodyweight when you leave: so every time you go to the lavatory it
1516 is vitally important to get a receipt.
1519 This chapter contains documentation of the Metaproxy source code, and is
1520 of interest only to maintainers and developers. If you need to
1521 change Metaproxy's behaviour or write a new filter, then you will most
1522 likely find this chapter helpful. Otherwise it's a waste of your
1523 good time. Seriously: go and watch a film or something.
1524 <citetitle>This is Spinal Tap</citetitle> is particularly good.
1527 Still here? OK, let's continue.
1530 In general, classes seem to be named big-endianly, so that
1531 <literal>FactoryFilter</literal> is not a filter that filters
1532 factories, but a factory that produces filters; and
1533 <literal>FactoryStatic</literal> is a factory for the statically
1534 registered filters (as opposed to those that are dynamically
1539 <section id="individual.classes">
1540 <title>Individual classes</title>
1542 The classes making up the Metaproxy application are here listed by
1543 class-name, with the names of the source files that define them in
1548 <title><literal>mp::FactoryFilter</literal>
1549 (<filename>factory_filter.cpp</filename>)</title>
1551 A factory class that exists primarily to provide the
1552 <literal>create()</literal> method, which takes the name of a
1553 filter class as its argument and returns a new filter of that
1554 type. To enable this, the factory must first be populated by
1555 calling <literal>add_creator()</literal> for static filters (this
1556 is done by the <literal>FactoryStatic</literal> class, see below)
1557 and <literal>add_creator_dyn()</literal> for filters loaded
1563 <title><literal>mp::FactoryStatic</literal>
1564 (<filename>factory_static.cpp</filename>)</title>
1566 A subclass of <literal>FactoryFilter</literal> which is
1567 responsible for registering all the statically defined filter
1568 types. It does this by knowing about all those filters'
1569 structures, which are listed in its constructor. Merely
1570 instantiating this class registers all the static classes. It is
1571 for the benefit of this class that <literal>struct
1572 metaproxy_1_filter_struct</literal> exists, and that all the filter
1573 classes provide a static object of that type.
1578 <title><literal>mp::filter::Base</literal>
1579 (<filename>filter.cpp</filename>)</title>
1581 The virtual base class of all filters. The filter API is, on the
1582 surface at least, extremely simple: two methods.
1583 <literal>configure()</literal> is passed an XML DOM tree representing
1584 that part of the configuration file that pertains to this filter
1585 instance, and is expected to walk that tree extracting relevant
1586 information. And <literal>process()</literal> processes a
1587 package (see below). That surface simplicitly is a bit
1588 misleading, as <literal>process()</literal> needs to know a lot
1589 about the <literal>Package</literal> class in order to do
1595 <title><literal>mp::filter::AuthSimple</literal>,
1596 <literal>Backend_test</literal>, etc.
1597 (<filename>filter_auth_simple.cpp</filename>,
1598 <filename>filter_backend_test.cpp</filename>, etc.)</title>
1600 Individual filters. Each of these is implemented by a header and
1601 a source file, named <filename>filter_*.hpp</filename> and
1602 <filename>filter_*.cpp</filename> respectively. All the header
1603 files should be pretty much identical, in that they declare the
1604 class, including a private <literal>Rep</literal> class and a
1605 member pointer to it, and the two public methods. The only extra
1606 information in any filter header is additional private types and
1607 members (which should really all be in the <literal>Rep</literal>
1608 anyway) and private methods (which should also remain known only
1609 to the source file, but C++'s brain-damaged design requires this
1610 dirty laundry to be exhibited in public. Thanks, Bjarne!)
1613 The source file for each filter needs to supply:
1618 A definition of the private <literal>Rep</literal> class.
1623 Some boilerplate constructors and destructors.
1628 A <literal>configure()</literal> method that uses the
1629 appropriate XML fragment.
1634 Most important, the <literal>process()</literal> method that
1635 does all the actual work.
1642 <title><literal>mp::Package</literal>
1643 (<filename>package.cpp</filename>)</title>
1645 Represents a package on its way through the series of filters
1646 that make up a route. This is essentially a Z39.50 or SRU APDU
1647 together with information about where it came from, which is
1648 modified as it passes through the various filters.
1653 <title><literal>mp::Pipe</literal>
1654 (<filename>pipe.cpp</filename>)</title>
1656 This class provides a compatibility layer so that we have an IPC
1657 mechanism that works the same under Unix and Windows. It's not
1658 particularly exciting.
1663 <title><literal>mp::RouterChain</literal>
1664 (<filename>router_chain.cpp</filename>)</title>
1671 <title><literal>mp::RouterFleXML</literal>
1672 (<filename>router_flexml.cpp</filename>)</title>
1679 <title><literal>mp::Session</literal>
1680 (<filename>session.cpp</filename>)</title>
1687 <title><literal>mp::ThreadPoolSocketObserver</literal>
1688 (<filename>thread_pool_observer.cpp</filename>)</title>
1695 <title><literal>mp::util</literal>
1696 (<filename>util.cpp</filename>)</title>
1698 A namespace of various small utility functions and classes,
1699 collected together for convenience. Most importantly, includes
1700 the <literal>mp::util::odr</literal> class, a wrapper for YAZ's
1706 <title><literal>mp::xml</literal>
1707 (<filename>xmlutil.cpp</filename>)</title>
1709 A namespace of various XML utility functions and classes,
1710 collected together for convenience.
1716 <section id="other.source.files">
1717 <title>Other Source Files</title>
1719 In addition to the Metaproxy source files that define the classes
1720 described above, there are a few additional files which are
1721 briefly described here:
1725 <term><literal>metaproxy_prog.cpp</literal></term>
1728 The main function of the <command>metaproxy</command> program.
1733 <term><literal>ex_router_flexml.cpp</literal></term>
1736 Identical to <literal>metaproxy_prog.cpp</literal>: it's not clear why.
1741 <term><literal>test_*.cpp</literal></term>
1744 Unit-tests for various modules.
1750 ### Still to be described:
1751 <literal>ex_filter_frontend_net.cpp</literal>,
1752 <literal>filter_dl.cpp</literal>,
1753 <literal>plainfile.cpp</literal>,
1754 <literal>tstdl.cpp</literal>.
1761 <reference id="refguide">
1762 <title>Reference guide</title>
1764 The material in this chapter is drawn directly from the individual
1765 manual entries. In particular, the Metaproxy invocation section is
1766 available using <command>man metaproxy</command>, and the section
1767 on each individual filter is available using the name of the filter
1768 as the argument to the <command>man</command> command.
1774 <!-- Keep this comment at the end of the file
1779 sgml-minimize-attributes:nil
1780 sgml-always-quote-attributes:t
1783 sgml-parent-document: nil
1784 sgml-local-catalogs: nil
1785 sgml-namecase-general:t