Deleted this directory, which is actually part of ZODB.

Will stitch in again via svn:externals.

doc/ZEO/README.txt

-ZEO Documentation
-=================
-
-This directory contains ZEO documentation.
-
-howto.txt
-    The first place to look.
-
-    It provides a high-level overview of ZEO features and details on
-    how to install and configure clients and servers.  Includes a 
-    configuration reference.
-
-cache.txt
-    Explains how the client cache works.
-    
-trace.txt
-    Describe cache trace tool used to determine ideal cache size.
-
-ZopeREADME.txt
-    A somewhat dated description of how to integrate ZEO with Zope.
-    It provides a few hints that are not yet in howto.txt.

doc/ZEO/ZopeREADME.txt

-Zope Enterprise Objects (ZEO)
-
-  Installation
-
-    ZEO 2.0 requires Zope 2.4 or higher and Python 2.1 or higher.
-    If you use Python 2.1, we recommend the latest minor release
-    (2.1.3 as of this writing) because it includes a few bug fixes
-    that affect ZEO.
-
-    Put the package (the ZEO directory, without any wrapping directory
-    included in a distribution) in your Zope lib/python.
-
-    The setup.py script in the top-level ZEO directory can also be
-    used.  Run "python setup.py install --home=ZOPE" where ZOPE is the
-    top-level Zope directory.
-
-    You can test ZEO before installing it with the test script::
-
-      python test.py -v
-
-    Run the script with the -h option for a full list of options.  The
-    ZEO 2.0b2 release contains 122 unit tests on Unix.
-
-  Starting (and configuring) the ZEO Server
-
-    To start the storage server, go to your Zope install directory and
-    run::
-
-      python lib/python/ZEO/start.py -p port_number
-
-    This run the storage sever under zdaemon.  zdaemon automatically
-    restarts programs that exit unexpectedly.
-
-    The server and the client don't have to be on the same machine.
-    If they are on the same machine, then you can use a Unix domain
-    socket::
-
-      python lib/python/ZEO/start.py -U filename
-
-    The start script provides a number of options not documented here.
-    See doc/start.txt for more information.
-        
-  Running Zope as a ZEO client
-
-    To get Zope to use the server, create a custom_zodb module,
-    custom_zodb.py, in your Zope install directory, so that Zope uses a
-    ClientStorage::
-
-      from ZEO.ClientStorage import ClientStorage
-      Storage = ClientStorage(('', port_number))
-
-    You can specify a host name (rather than '') if you want.  The port
-    number is, of course, the port number used to start the storage
-    server.
-
-    You can also give the name of a Unix domain socket file::
-
-      from ZEO.ClientStorage import ClientStorage
-      Storage = ClientStorage(filename)
-
-    There are a number of configuration options available for the
-    ClientStorage. See doc/ClientStorage.txt for details.
-
-    If you want a persistent client cache which retains cache contents
-    across ClientStorage restarts, you need to define the environment
-    variable, ZEO_CLIENT, or set the client keyword argument to the
-    constructor to a unique name for the client.  This is needed so
-    that unique cache name files can be computed.  Otherwise, the
-    client cache is stored in temporary files which are removed when
-    the ClientStorage shuts down.  For example, to start two Zope
-    processes with unique caches, use something like::
-
-      python z2.py -P8700 ZEO_CLIENT=8700
-      python z2.py -P8800 ZEO_CLIENT=8800
-
-  Zope product installation
-
-    Normally, Zope updates the Zope database during startup to reflect
-    product changes or new products found. It makes no sense for
-    multiple ZEO clients to do the same installation. Further, if
-    different clients have different software installed, the correct
-    state of the database is ambiguous.
-
-    Zope will not modify the Zope database during product installation
-    if the environment variable ZEO_CLIENT is set.
-
-    Normally, Zope ZEO clients should be run with ZEO_CLIENT set so
-    that product initialization is not performed.
-
-    If you do install new Zope products, then you need to take a
-    special step to cause the new products to be properly registered
-    in the database.  The easiest way to do this is to start Zope
-    once with the environment variable FORCE_PRODUCT_LOAD set.
-
-    The interaction between ZEO and Zope product installation is
-    unfortunate.

doc/ZEO/cache.txt

-ZEO Client Cache
-
-  The Client cache provides a disk based cache for each ZEO client.
-  The client cache allows reads to be done from local disk rather than
-  by remote access to the storage server.
-
-  The cache may be persistent or transient. If the cache is
-  persistent, then the cache files are retained for use after process
-  restarts. A non-persistent cache uses temporary files that are
-  removed when the client storage is closed.
-
-  The client cache is managed as two files. The cache manager
-  endeavors to maintain the two files at sizes less than or equal to
-  one half the cache size.  One of the cache files is designated the
-  "current" cache file. The other cache file is designated the "old"
-  cache file, if it exists.  All writes are done to the current cache
-  files.  When transactions are committed on the client, transactions
-  are not split between cache files. Large transactions may cause
-  cache files to be larger than one half the target cache size.
-
-  The life of the cache is as follows:
-
-  - When the cache is created, the first of the two cache files is
-    created and designated the "current" cache file.
-
-  - Cache records are written to the cache file, either as
-    transactions commit locally, or as data are loaded from the
-    server.
-
-  - When the cache file size exceeds one half the cache size, the
-    second cache file is created and designated the "current" cache
-    file.  The first cache file becomes the "old" cache file.
-
-  - Cache records are written to the new current cache file, either as
-    transactions commit locally, or as data are loaded from the
-    server.
-
-  - When a cache hit is found in the old cache file, it is copied to
-    the current cache file.
-
-  - When the current cache file size exceeds one half the cache size, the
-    first cache file is recreated and designated the "current" cache
-    file.  The second cache file becomes the "old" cache file.
-
-  and so on.
-
-  Persistent cache files are created in the directory named in the
-  'var' argument to the ClientStorage (see ClientStorage.txt) or in
-  the 'var' subdirectory of the directory given by the INSTANCE_HOME
-  builtin (created by Zope), or in the current working directory.
-  Persistent cache files have names of the form::
-
-    cstorage-client-n.zec
-
-  where:
-
-    storage -- the storage name
-
-    client -- the client name, as given by the 'ZEO_CLIENT' environment
-      variable or the 'client' argument provided when creating a client
-      storage.
-
-    n -- '0' for the first cache file and '1' for the second. 
-
-  For example, the second cache file for storage 'spam' and client 8881
-  would be named 'cspam-8881-1.zec'.
-

doc/ZEO/trace.txt

-ZEO Client Cache Tracing
-========================
-
-An important question for ZEO users is: how large should the ZEO
-client cache be?  ZEO 2 (as of ZEO 2.0b2) has a new feature that lets
-you collect a trace of cache activity and tools to analyze this trace,
-enabling you to make an informed decision about the cache size.
-
-Don't confuse the ZEO client cache with the Zope object cache.  The
-ZEO client cache is only used when an object is not in the Zope object
-cache; the ZEO client cache avoids roundtrips to the ZEO server.
-
-Enabling Cache Tracing
-----------------------
-
-To enable cache tracing, set the environment variable ZEO_CACHE_TRACE
-to the name of a file to which the ZEO client process can write.  ZEO
-will append a hyphen and the storage name to the filename, to
-distinguish different storages.  If the file doesn't exist, the ZEO
-will try to create it.  If there are problems with the file, a log
-message is written to the standard Zope log file.  To start or stop
-tracing, the ZEO client process (typically a Zope application server)
-must be restarted.
-
-The trace file can grow pretty quickly; on a moderately loaded server,
-we observed it growing by 5 MB per hour.  The file consists of binary
-records, each 24 bytes long; a detailed description of the record
-lay-out is given in stats.py.  No sensitive data is logged.
-
-Analyzing a Cache Trace
------------------------
-
-The stats.py command-line tool is the first-line tool to analyze a
-cache trace.  Its default output consists of two parts: a one-line
-summary of essential statistics for each segment of 15 minutes,
-interspersed with lines indicating client restarts and "cache flip
-events" (more about those later), followed by a more detailed summary
-of overall statistics.
-
-The most important statistic is probably the "hit rate", a percentage
-indicating how many requests to load an object could be satisfied from
-the cache.  Hit rates around 70% are good.  90% is probably close to
-the theoretical maximum.  If you see a hit rate under 60% you can
-probably improve the cache performance (and hence your Zope
-application server's performance) by increasing the ZEO cache size.
-This is normally configured using the cache_size keyword argument to
-the ClientStorage() constructor in your custom_zodb.py file.  The
-default cache size is 20 MB.
-
-The stats.py tool shows its command line syntax when invoked without
-arguments.  The tracefile argument can be a gzipped file if it has a
-.gz extension.  It will read from stdin (assuming uncompressed data)
-if the tracefile argument is '-'.
-
-Simulating Different Cache Sizes
---------------------------------
-
-Based on a cache trace file, you can make a prediction of how well the
-cache might do with a different cache size.  The simul.py tool runs an
-accurate simulation of the ZEO client cache implementation based upon
-the events read from a trace file.  A new simulation is started each
-time the trace file records a client restart event; if a trace file
-contains more than one restart event, a separate line is printed for
-each simulation, and line with overall statistics is added at the end.
-
-Example, assuming the trace file is in /tmp/cachetrace.log::
-
-    $ python simul.py -s 100 /tmp/cachetrace.log
-      START TIME  DURATION    LOADS     HITS INVALS WRITES  FLIPS HITRATE
-    Sep  4 11:59     38:01    59833    40473    257     20      2  67.6%
-    $
-
-This shows that with a 100 MB cache size, the cache hit rate is
-67.6%.  So let's try this again with a 200 MB cache size::
-
-    $ python simul.py -s 200 /tmp/cachetrace.log
-      START TIME  DURATION    LOADS     HITS INVALS WRITES  FLIPS HITRATE
-    Sep  4 11:59     38:01    59833    40921    258     20      1  68.4%
-    $
-
-This showed hardly any improvement.  So let's try a 300 MB cache
-size::
-
-    $ python2.0 simul.py -s 300 /tmp/cachetrace.log
-    ZEOCacheSimulation, cache size 300,000,000 bytes
-      START TIME  DURATION    LOADS     HITS INVALS WRITES  FLIPS HITRATE
-    Sep  4 11:59     38:01    59833    40921    258     20      0  68.4%
-    $ 
-
-This shows that for this particular trace file, the maximum attainable
-hit rate is 68.4%.  This is probably caused by the fact that nearly a
-third of the objects mentioned in the trace were loaded only once --
-the cache only helps if an object is loaded more than once.
-
-The simul.py tool also supports simulating different cache
-strategies.  Since none of these are implemented, these are not
-further documented here.
-
-Cache Flips
------------
-
-The cache uses two files, which are managed as follows:
-
-  - Data are written to file 0 until file 0 exceeds limit/2 in size.
-
-  - Data are written to file 1 until file 1 exceeds limit/2 in size.
-
-  - File 0 is truncated to size 0 (or deleted and recreated).
-
-  - Data are written to file 0 until file 0 exceeds limit/2 in size.
-
-  - File 1 is truncated to size 0 (or deleted and recreated).
-
-  - Data are written to file 1 until file 1 exceeds limit/2 in size.
-
-and so on.
-
-A switch from file 0 to file 1 is called a "cache flip".  At all cache
-flips except the first, half of the cache contents is wiped out.  This
-affects cache performance.  How badly this impact is can be seen from
-the per-15-minutes summaries printed by stats.py.  The -i option lets
-you choose a smaller summary interval which shows the impact more
-acutely.
-
-The simul.py tool shows the number of cache flips in the FLIPS column.
-If you see more than one flip per hour the cache may be too small.