NAME
OOPS - Object Oriented Persistent Store
SYNOPSIS
use OOPS;
transaction(sub {
$oops = new OOPS
dbi_dsn => $DBI_DSN,
username => $username,
password => $password,
table_prefix => "MY";
$oops->{h} = { a => b};
$oops->{foobar} = $myobject;
$oops->{abcd} = getref(%{$oops->{h}}, 'a');
$oops->commit;
});
DESCRIPTION
The goal of OOPS is to make perl objects transparently persistent. OOPS
handles deeply nested and cross-linked objects -- even object
hierarchies that are too large to fit in memory and (with a hint)
individual hash tables that are too large for memory. Objects will be
demand-loaded into memory as they are accessed. All changes to your
object hierarchy will be saved with a single commit().
Full transactional consistenty is the only operational mode. Either all
of your changes are saved or none of them are. During your program, you
will see a consistent view of the data: no other running transactions
will change the data you see. If another transaction changes data that
you are using then at least one of the transactions must abort. This
happens automatically.
OOPS maps all perl objects to the same RDBMS schema. No advance schema
definition is required on the part of the user of OOPS. The name comes
from the realization that perl's data model is much more complicated
than I initially understood. Internally, the RDBMS schema uses four
tables: a table of objects, a table of attributes (keys and values), a
table of large attributes that big the normal column widths, and a table
of counters.
At this time, OOPS is expecting a web-like workflow:
create OOPS instance
access some ojbects
modify some objects
commit
exit
If you need more than one transaction in a program, create more than one
OOPS instance.
To make your data persistent, make a reference to your data from the
OOPS object. To later retrieve your data, simply access it through the
OOPS object.
EXAMPLE PROGRAM
use OOPS;
transaction(sub {
my $oops = new OOPS
dbi_dsn => 'DBI:mysql:database=MY-DATABASE-NAME;host=localhost',
username => 'MY-USERNAME',
password => 'MY-PASSWORD',
table_prefix => "MY-TABLE-PREFIX";
my $p = $oops->{pages}{"/some/path"};
$p->{next} = $oops->{pages}{"/some/other/path"};
$p->{jpgs} = [ read_file("x.jpg"), read_file("y.jpg") ];
$oops->commit;
});
exit;
SUPPORTED DATA TYPES
Perl HASHes, REFs, SCALARs, and ARRAYs are supported. Currently, HASH
keys may not be longer than 255 characters. Class names may not be more
than 128 characters long. References to hash keys and array elements are
supported.
At the current time, large ARRAYs are not efficient. Use HASHes instead
if this matters to you. References to array elements and hash values are
not efficient.
Large HASHes are supported by only loading keys that are accessed.
HASHes, array elements, and REFs are implmented with tie(). ARRAYs are
not currently tie()d because of bugs in perl. Multiple references to the
same scalar are supported. References to array elements and hash values
are supported. Persistent data is reference counted and cycles must be
manually broken to assure de-allocation.
SUPPORTED PLATFORMS
The following RDBMSs are supported in the code:
PostgreSQL OOPS has been tested with PostgreSQL version 7.4.2 and
7.3.5. 7.4.2 on Linux 2.4.23 performs okay. 7.3.5 on
pre-release DragonflyBSD is slow.
mysql OOPS has been tested with mysql 4.0.16 and 4.0.18 using
InnoDB tables.
SQLite OOPS has been tested with DBD::SQLite 0.31.
SQLite is not 8-bit clean with respect to "\0". OOPS uses
a DBD::SQLite feature to translate binary nulls. A
side-effect is that backslash will be doubled "\" ->
"\\". OOPS does not use the "counters" table with SQLite.
Perl versions 5.8.2 through 5.8.4 are supported. Prior to 5.8.2, it
wasn't possible to untie scalars from within the a tied scalar access
method. An ugly workaround is possible if there is enough interest.
OOPS has been tested on Linux 2.4.23 (Debian unstable as of April '04);
on FreeBSD 4.9; and on DragonflyBSD prerelease.
As far as performance goes, mysql and SQLite are both about twice as
fast as PostgreSQL for applications that only have one transaction at at
time. SQLite is particularly slow when there are multiple transactions
as its lock grangularity is the entire database. Mysql also slows down
when there are multiple simultaneous transactions. I don't know yet
which backend is fastest for applications with many simultanous
transactions.
The RDBMS schema for SQLite is different than for mysql or PostgreSQL
(which are the same as each other).
FUNCTIONS
"transaction($funcref, @args)"
"transaction()" is a wrapper for a complete transaction.
Transactions that fail due to deadlock with other processes will be
re-run automatically.
The first parameter is a reference to a function. Any additional
parameters will be passed as parameters to that function. The return
value of "transaction()" is the return value of "&$funcref()".
It is not necessary to use the "transaction()" method. Beware that
nearly any operation on persistent date (even read operations) can
cause deadlock.
Any use of persistent data can trigger a deadlock. The
"transaction()" function catches this and retries automatically upto
$OOPS::transaction_maxtries times (15 times unless you change it).
If you don't use "transaction()" you might want to catch the
exceptions that "transaction()" catches. To do this, you can regex
match $@ against $OOPS::transfailrx.
Basically, transaction is a slightly fancier version of the
following:
sub transaction
{
my ($sub, @args) = @_;
for (0..15) {
eval {
&$sub(@args);
}
last unless $@;
next if $@ =~ /$transfailrx/;
die $@;
}
}
The important thing to notice is that your code will be called over
and over until the transaction suceeeds. This means you should write
your code so that it doesn't have any external side effects until
after it calls commit().
"getref(%hash, $key)"
References to tied hash keys are buggy in all perls through 5.8.3.
Use getref(%hash, $key) to create your reference to a tied hash key.
See: and
.
$ref = getref(%hash, $key);
Alternatively, use "$oops->workaround27555($ref)".
Getref() and workaround27555() work around all the perl bugs with
tied hash key references. Failure to use them may result in
unexpected and inconsistent results.
PUBLIC CLASS METHODS
"OOPS->new(%parameters)"
Creates a OOPS object instance. More than one object instance is
allowed at the same time. Instances are unaware of each other.
Making a reference from a persistent object in one instance to a
persistent object in another instance will cause recursive copying
from one instance to the other.
The %parameters are documented in the next section.
"OOPS->initial_setup(%parameters)"
Drops and recreates the database tables. Don't use it too often :-)
The regression suite drops and re-creates the tables many times. Be
careful.
The %parameters are documented in the next section.
PARAMETERS FOR NEW
The "new()" and "initial_setup()" methods take a hash specification for
their behavior. Here are the parameters allowed:
"dbi_dsn" / $ENV{OOPS_DSN} / $ENV{OOPS_DRIVER} / $ENV{DBI_DSN} /
"$ENV{DBI_DRIVER"
Many ways to specify the DSN for DBI: as an argument; as an OOPS
environment variable; as a DBI environment variable. Use at least
one :-) See the DBI documentation for more details.
"user" / $ENV{OOPS_USER} / $ENV{DBI_USER}
Three ways to specify the user for DBI: as an argument; as an OOPS
environment variable; as a DBI environment variable. Not required
for all databases.
"password" / $ENV{OOPS_PASS} / $ENV{DBI_PASS}
Three ways to specify the password for DBI: as an argument; as an
OOPS environment variable; as a DBI environment variable. Not
required for all databases.
"table_prefix" / $ENV{OOPS_PREFIX}
OOPS allows a prefix to be supplied for it's internal table names.
If you set a prefix of "FOO_" then it will use a "FOO_object" table
instead of an "object" table. This can be set as an argument to
"new()" or it can be set with the environment variable $OOPS_PREFIX.
This allows multiple separate object spaces to exist within the same
SQL database. It's intended use is to support testing vs. production
environments.
"auto_upgrade" / $ENV{OOPS_UPGRADE}
The relational schema for OOPS is not same for all versions of OOPS.
If this is set, then an older schema will be upgraded to the current
schema. If this is not set, then OOPS will use the older schema
unchanged. In most cases, this means that OOPS will use a historical
version of itself rather than the current version. See the SCHEMA
VERSIONS section of this document.
"auto_initialize" / $ENV{OOPS_INIT}
The DBMS must be initialized before it can be used: tables created,
a few rows inserted, etc. This can be handled by calling
"initial_setup()" or it can be handled automatically by "new()" if
"auto_initialize" or $OOPS_AUTO_INIT is set.
"default_synchronous" / $ENV{OOPS_SYNC}
With SQLite, an additional parameter to "OOPS->new()" is recognized:
"default_synchronous". Possible values are:
FULL Sync() all transactions to disk before returning.
NORMAL The default: sync() at critical moments only - protects
against program failure, but not all power or OS failures.
OFF Don't sync() at all and go really fast.
PUBLIC OBJECT METHODS
"->commit()"
Writes any changed objects back to the database and commits the
transaction. Currently only one commit() call is allowed. Do not
access your persistent data after commit() -- it may work but this
is not covered well in the regresssion suite.
"->virtual_object(\%hash [,$new_value])"
Queries [and sets] the load-virtual flag on a persistent hash.
Hashes that load virtual will do separate queries for each key
rather than load the entire hash. This is a good thing if your has
has many keys. This flag takes effect the next time the hash is
loaded. The value is a perl boolean.
This may be handled automatically in the future.
"->workaround27555($reference)"
References to tied hash keys are buggy in all perls through 5.8.3.
Use workaround27555($reference) to register your new tied hash key
references so that they can be transformed into references that
actually work correctly.
$ref = \%hash{$key};
$oops->workaround27555($ref);
"workaround27555()" is harmless if called on other sorts of
references so it is safe to use indescriminately. See
.
Alternatively, use "getref(%hash, $key)".
"->dbh()"
This returns the main DBI database handle used by OOPS. This
function is provided for those who want to hand-write queries.
Please note: no changes are written to the DBMS until commit().
"->load_object($id)"
This will load a persistent object by number. It returns the object
or undef if the object doesn't exists. This function is provided for
those who want to hand-write queries.
ERRATA, DEVELOPMENT STATUS, BUGS, AND BUG BOUNTY
OOPS has been thoroughly tested. As this is written, there are no known
users of OOPS. Don't let this stop you from using it! Someone has to go
first. The regression suite is very well developed: there is twice as
much code in the test suite as there is in the module itself. The suite
does over 1.5million tests. On my fastest computer it takes over six
hours to run. I have so much confidence in my test suite, I'm offering a
bounty on bugs!
Bug Bounty
I'll pay (via paypal) US$5.00 to anyone who submits a new bug (with
regression test) that is caused by a problem in my OOPS module. To
qualify, bugs must be serious: they must cause data corruption, false
results, or program failure. Bugs must not be listed here.
I'll report the number of bounties paid in the CHANGELOG.
Known fixable bugs in OOPS
memory leaks
OOPS currently has memory leaks. This may or may not matter to your
application. The rate of leakage varies depending on which RDBMS is
used. SQLite seems to have the most significant problems.
Schema error with mysql
There is an error in the schema that OOPS uses with mysql. This
error does not cause any problems with the versions of mysql that
OOPS has been tested with (4.0.16 and 4.0.18). This error will be
fixed in the next version of OOPS.
delayed DESTROY
Additional references to the in-memory copies of persistent data are
kept by OOPS. These extra references will prevent DESTORY methods
from being called as soon as they otherwise would be.
other magic
Other perl magic attributes are not currently stored persistently.
Many probably could be supported, but many could not. For example,
taint does not work on tied hashes:
.
unreferenced blessed scalars
When you bless a reference to a scalar value, the blessing is stored
with the scalar, not the reference. The blessing remains even if
there is no reference to the scalar. The following code prints
"true".
my $x = 'foobar';
my $y = \$x;
bless $y, 'baz';
$y = 7;
$y = \$x;
my $z = ref($y);
print "true\n" if $z eq 'baz';
At the current time, OOPS does not store such blessings. OOPS does
remember blessings when there is a reference.
re-blessing the OOPS object
If you re-bless the OOPS object, your data is likely to become
inaccessable. I list this here so nobody claims a bounty for
breaking OOPS in this way.
DBD::Pg and ASCII NULL
DBD::Pg does not easily support ASCII NULL. OOPS has only partial
support for ASCII NULL with PostgreSQL: don't have ASCII NULL in
your class names.
Bugs in perl that effect OOPS
references to hash keys
Persistent hashes are implemented with tie. There are bugs with
perl's implementation of references to tied hash keys. These bugs
will be triggered in several situations: creating a reference to
tied hash key that doesn't exist yet; deleting a key that has a
reference tied to it; assigning through a reference to a key that
has multiple references.
All of the above can either be avoided or you can workaround them by
either calling "workaround27555"($YOUR_REFERENCE) whenver you create
a tied hash key reference or by using "getref(%hash, $key)" to
create your reference.
The perl bugs are documented in:
and
.
"local" and tie
"local(%some_tied_hash)" doesn't work right. Thus
"local(%some_persistent_hash)" won't work right either:
.
"scalar(%hash)"
"scalar(%hash)" support was added in perl 5.8.3 and does not exist
in 5.8.2.
tied arrays don't work right
There are a couple of bugs with tied arrays that prevent OOPS from
using them:
and . This
isn't a big deal unless you've got big arrays.
SQLite and perl's malloc().
If SQLite is used with a perl that has been compiled to use perl's
"malloc()", it will report LOTS of "Bad free() ignored (PERL_CORE)"
errors. It is not currently known if these errors are harmfull
beyond generating lots of output to STDERR. The default perl
configuration on FreeBSD uses perl's "malloc()".
SCHEMA VERSIONS
As OOPS is developed, the schema that OOPS uses changes. At the current
time, all versions of OOPS use forward and backwards compatable (though
not identical) schemas.
OOPS notices if the version of the schema in the DBMS is different than
the version the code currently supports. When this happens there are two
possibilities: either OOPS will upgrade the schema to the current
version or it will use an older version of OOPS to access the data.
This behavior allows the OOPS module to be upgraded without distrupting
installed applications.
FUTURE DIRECTIONS
OOPS isn't done. There are a bunch of things that I am considering
adding to it. If any of these things is important to you, speak up so
that I know there is interest...
fix the bugs
There are bugs listed in the DEVELOPMENT STATUS section that could
be fixed. First up is fixing the memory leak.
code cleanup and general performance enhancements
The initial release of OOPS concentrated on correct behavior and
other aspects of the module were somewhat ignored. The code could be
cleaned up a bunch.
better concurency
With the transaction model of SERIALIABLE on mysql, there are
serious performance issues surrounding access to the main hash.
Change to a different transaction model or DBMS.
perl-syntax sql query translator
SELECT Employee WHERE $Employee->{salary} > 5000
It's possible to translate perl-syntax queries into real SQL that
can be used to query the object store.
better grouping
Objects are loaded in groups rather than individually. There is much
room for improvement in choosing how groups are formed. This is
largely undeveloped as yet.
support for databases other than mysql
PostgreSQL is the next likely supported backend.
caching
Many possibilities. A cache-invalidation daemon to note when objects
have changed. Re-verification of touched data from the database.
Ability to call commit() more than once.
weak references
Support for persistent weak references is possible.
external references to objects
Currently objects are reference counted internally. You must have a
reference to something from an already existing object for it to
continue to exist.
contracts
OOPS has to do a lot of scanning of objects to see if they've
changed. Explicit notification of changes would improve performance.
OOPS could call functions before saving and after loading to
transform objects for a better or cleaner on-disk representation.
support for 'base' & accessor methods
This isn't something that I care about but maybe someone else does?
schema enforcement
Allow explicit schemas to be defined. Do not save objects that don't
conform.
RDBMS -> object mapping
Map existing RDBMS schemas into objects.
data viewer
Viewing large datasets of deep and cross-linked data is difficult.
Perhaps a CGI-based or Tk-based data navigator would help.
support for tied data structures
It is possible to support storing tied data. The tied object is what
would need to be persistent. This would only work on some kinds of
ties.
garbage collect circular references
Like perl, OOPS uses reference counting to know when to delete an
object. Unlike perl, restarting your program does not clear out the
circular references.
support for other base types.
Right now, just HASH, SCALAR, REF, and ARRAY are supported. Regular
expressions, file handles, I don't know it's possible to support
code references.
on-line data migration
By doing double updates, OOPS could support live migration from one
DBMS to another.
WRITING SQL QUERIES BY HAND
If you want to query your data, then until a translator is written, your
only choice for making queries is to write them by hand. Using your data
does not require a query: anything you've got a reference to will be
loaded as you access it. Queries are for performing searches that don't
have a perl-object index.
Each perl HASH, REF/SCALAR, or ARRAY has a row in the "object" table and
multiple rows in the "attribute" and "big" tables.
Here are the columns you'll care about:
object There is one row per perl object.
id The object id.
class The blessed class name (limited to 255
characters).
otype The type of object:
'H' A HASH.
'A' An ARRAY.
'S' A SCALAR or REF.
attribute This is a table of key/value pairs. The keys corrospond to
perl hash keys and perl array indexes. The values corrospond
to perl hash values and array element values.
id The object id.
pkey The hash key or array index.
pval he hash value or array value. Limited to 255
characters.
ptype Flags the type of the value. Possible values are:
'0' A normal value. Numeric or string.
'B' An big value. "pval" will be a copy of the
start of the value for the first N
characters. The end of "pval" will be a MD5
checksum of the full big value.
'R' A reference to another object.
big This is a table of values that were too large for the normal
columns. Even with databases that support wide columns, a
separate big table is used so that you don't load large
scalars unless you actually need the value.
id The object id.
pkey The hash key or array index.
pval The hash value or array value. Limited to whatever
the underlying database will support as it's
largest blob.
fragno Blob fragment number. This column only exists with
SQLite. SQLite has a smallish maximum row size and
so big values must be split into multiple rows.
REFs are are special. There are several types of REFs: references to
scalar values; references to objects; secondary references to scalar
values; references to scalar values that are part of another object
(references to hash keys and references to array elements).
The representation of references is designed so that you don't need to
care what sort of REF it is when you're doing a query.
The basic REF is a ref to a value inside another object. An example:
OBJECT TABLE
id class otype
1 OOPS::NamedObj H
383 SCALAR R
384 SCALAR R
385 SCALAR R
386 REF R
400 HASH H
500 ARRAY A
ATTRIBUTE TABLE
id pkey pval ptype
1 A500 500 R
1 H400 400 R
1 R383 383 R
1 R384 384 R
1 R385 385 R
1 R386 386 R
383 400 'a-key' 0
384 384 'nopkey' 0
384 'nokey' 'a-value' 0
385 384 'nopkey' 0
386 386 'nopkey' 0
386 'nopkey' 500 R
400 'a-key' 'a-value 0
400 'another-key' 'another-value' 0
400 'A500' 500 R
500 0 'a-value' 0
500 1 'another-value' 0
HASH 1 is %$oops.
REF 383 is a reference to the key 'a-key' in object #400 (a HASH).
REF 384 is a ref to scalar. It uses two rows to make writing queries
easier.
REF 385 is a duplicate reference to a scalar value. It duplicates REF
384. In behavior, these two REFs should be identical even though they
are represented differently in the database.
REF 386 is a ref to an object: #500 (an ARRAY).
HASH 400 is a normal hash.
ARRAY 500 is a normal hash.
This example data is what you would end up with after running code like:
my $oops = new OOPS
dbi_dsn => 'DBI:mysql:database=MY-DATABASE-NAME;host=localhost',
username => 'MY-USERNAME',
password => 'MY-PASSWORD';
$oops->{A500} = [ 'a-value', 'another-value' ];
$oops->{H400} = {
'a-key' => 'a-value',
'another-key' => 'another-value',
'A500' => $oops->{A500},
};
$oops->{R383} = \$oops->{H400}{'a-key'};
$oops->workaround27555($oops->{R383});
$oops->{R384} = \'a-value';
$oops->{R385} = $oops->{R384};
$oops->{R386} = \$oops->{A500};
$oops->commit;
SQL queries require a bunch of joins to link data structures together.
Here are some examples.
"SELECT Foobar WHERE $Foobar->{xyz} = 'abc'"
SELECT object
FROM object, attribute
WHERE object.class = 'Foobar'
AND object.id = attribute.id
AND attribute.pkey = 'xyz'
AND attribute.pval = 'abc'
AND attribute.ptype = '0'
"SELECT Foobar WHERE ${$Foobar->{xyz}} = 'abc'"
This example should show why an automatic translator would be a good
idea...
SELECT ohash.object
FROM object AS ohash,
attribute AS ahash,
object AS oref,
attribute AS aref,
attribute AS target
WHERE ohash.class = 'Foobar'
AND ohash.otype = 'H'
AND ahash.id = ohash.id
AND ahash.pkey = 'xyz'
AND ahash.ptype = 'R'
AND oref.id = ahash.pval
AND oref.otype = 'S' # this is the outer ref
AND oref.id = aref.id
AND aref.pval = target.pkey # here's the reference indirection
AND target.pval = 'abc'
AND target.ptype = '0'
If you construct a query like these examples that return object id's,
then use "$object = $oops->load_object($id)" to load them into memory.
I reccomend that hand-written queries be read-only as there are
additional columns that must be kept consistent. For example, the object
table includes a reference count column to handle garbage collection of
the persistent data.
RUNNING THE REGRESSION TEST SUITE
The regression test suite empties and re-creates the persistent store
over and over again. To prevent the accidental erasure of production
data, all of the tests require a special environment variable to be set
$OOPSTEST_DSN. This variable replaces the normal $DBI_DSN or $OOPS_DSN.
Correspondingly there is a $OOPSTEST_USER, $OOPSTEST_PASS, and
$OOPSTEST_PREFIX.
Set these variables to something different than what you use for your
production data!
Most of the tests take a long time to run and are disabled by default.
If you can run the full suite in less than six hours please tell me
about your configuration.
Beware mysql logging. On Debian unstable, the default configuration for
mysql logs every SQL statement. Running the test suite to completion
will generate several gigabytes of log file. Running out of disk space
will cause the tests to fail. On DragonflyBSD (FreeBSD 4.9) the default
mysql configuration includes making replication master logs.
THE COMPETITION
There are a number of other modules that make perl objects persistent.
For each module, I'll provde a sentence or two that explains why I wrote
OOPS rather than using that one.
OOPS does not require any schema defintion. Most other persistence
package requires schema definition and allows the nature of the
underlying RDBMS to show in both the kinds of objects you can use and
how you use them. OOPS tries to let you work with perl objects without
concerning yourself about how they'll be stored persistently.
Persistence::Object::Postgres
Uses Data::Dumper to serialize objects into BLOBs. Cannot handle
cross-linking. No query support.
pop Only supports Sybase. Uses a fixed schema defined in XML.
SPOPS
Objects are HASHes, values are scalars only. No nesting.
DBIx::RecordSet
Thin layer on top of DBI. Removes much pain from using DBI. Does not
change basic relationship to data -- still relational.
Object::Transaction
Uses Storable to preserve objects in files. No query support. No
cross-linking. Lightweight. Transactions.
Class::DBI
Must define schema and relationships to RDBMS. Accessor methods.
Doesn't support many2many. Close tie to underlying RDBMS.
Alzabo
Must define schema and relationships as relates to RDBMS. Close tie
to underlying RDBMS. Can help create RDBMS schema. Complex. Can
cache database rows.
Tangram
Must define schmea. RDBMS schema is created from perl schema.
DBM::Deep
DBM::Deep handles deep and cross-linked data. It does not have
support for queries or transactions.
Pixie
Less trasnparent. Requires user to remember a cookie to retreive
objects. Cannot handle cross-linking of objects? No query support?
MLDBM / Tie::MLDBM / MLDBM::Easy / MLDBM::Sync
Uses Data::Dumper or Storable or such to serialize objects and store
them as strings. Lock granularity is the whole file. No query
support. Only one (or two with MLDBM::Easy) level of access is
automated.
ObjStore
Proprietary. Not as transparent as OOPS.
see also
has an overview of options.
LICENSE
Copyright(C) 2004 David Muir Sharnoff
All rights reserved except as granted by a license or contract. This
module is licensed both commercially and as free software. The free
software license follows.
The Play-Fair-To-Play Software License
Preamble.
I wish to let people use this software for free as long as they don't
abuse the free software community or Internet in particular ways. I want
all derrivitives of this software to be free. I want to be able to
license this software commercially.
This license is not compatabile with the GPL. It was not written by a
lawyer and the exact wording will probably change when a legal expert
examines it. This license applies only to this version of this program:
other versions may exist with other licenses.
I. This software may be used, copied, modified, and redistributed
with no fee paid to the copyright holder (original licensor) so
long as all the parts of this license are honored. Should any
part be deemed invalid or otherwise contradicted, the entire
license is invalidated and no right to use, copy, modify or
redistribute exists.
II. Any redistribution of this software must retain this license. Any
redistribution of this software must include it's original
(source code) form. When redistributing this software, you may
not add additional licensing terms that would prevent the new
recipient of the software from using, copying, modifying, or
redistributing this software themselves under the terms of this
license.
III. This software is licensed free of charge. To the extent permitted
by applicable law, there is no warranty for the software. The
software "as is" without warranty of any kind, either expressed
or implied, including, but not limited to, the implied warranties
of merchantability and fitness for a particular purpose. The
entire risk as to the quality and performance of the software is
with you. should the software prove defective, you assume the
cost of all necessary servicing, repair or correction.
IV. All useful modifications to this software must be licensed back
to the original licensor such that the original licensor can
relicense the modifications to third parties under terms of their
own choosing with no restrictions whatsoever and no need to even
acknowledge the origin of such modifications. There are two easy
ways to accomplish this: put all such modifications into the
public domain or assign the copyright to the original licensor.
V. Entities that have willfully violated an open source license are
excluded from this license. For example, SCO for violating the
GPL.
VI. Entities that have attempted to enforce a software patent (except
as a defensive move like IBM's counter to SCO) are excluded from
this license. For example, Unisys for enforcing a patent on GIF
image creation.
VII. Entities that engage in or encourage sending SPAM emails are
excluded from this license.
VIII. Entities that are or have challenged this license in court are
excluded from this license.
IX. The following entities are excluded from this license: Network
Solutions; Verisign; ICANN; and Internet-Journals.
X. Entities that share a 5% or more common ownership interest with
an excluded entity are also excluded from this license.
XI. Entities that are excluded from this license are forbidden to
use, copy, modify, or redistribute the covered software.
This is version 1.1 of the Play-Fair-To-Play Sofware License.