NAME
ObjStore::Internals - a few notes on the implementation
SYNOPSIS
You don't have to understand anything about the technical implementation. Just know that:
ObjectStore
is outrageously powerful; sophisticated; and even over-engineered.The perl interface is optimized to be fun and easy. Since
ObjectStore
is also blindingly fast, you can happily leave relational databases to collect dust on the bookshelf where they belong.
So basically, you don't have to understand anything to a greater depth. It's not necessary. You've arrived. You will be successful. However, more detail follows. If you like to turn things inside-out, read on!
DESCRIPTION
Perl & C++
APIs: What's The Difference?
Most stuff should be roughly the same. The few exceptions have generally arisen because there was a perl way to make the interface more programmer friendly.
Transactions are perlified.
Some static methods sit directly under
ObjStore::
instead of under their own classes. (Easier to import.)Databases are always blessed according to your pleasure.
lookup
,open
,is_open
, andlock_timeout
are augmented with multi-color, pop-tart style interfaces.
Why not just store perl data with the usual perl structures?
CHANGE CONTROL
As perl evolves, new data layouts are introduced. These changes must not cause database compatibility problems.
BINARY COMPATIBILITY
Perl doesn't have to worry about binary compatibility between platforms. Databases do. In addition, databases impose a number of restrictions on persistent data layout that would be onerous and sub-optimal if adopted by perl.
MEMORY USAGE
Perl often trades memory for speed. This is the wrong trade for a database. Memory usage is much more of a concern when data sets can be as large or larger than ten million megabytes. A few percent difference in compactness can be quite noticable.
Bless
If you are a suspicious person (like my mom) you might have suspected that the ObjStore module installs its own version of bless
. Natually it does! The augmented bless
implements extra quality assurance to insure that blessings are correctly stored persistently. For example:
package Scottie;
use ObjStore;
use base 'ObjStore::HV';
sub new {
my ($class, $near) = @_;
$class->SUPER::new($near, { fur => 'buffy' });
}
my Scottie $dog = Scottie->new($db);
Persistent bless
also does some extra work to make evolution easier. It stores the current @ISA
tree along with the $VERSION
of every class in the @ISA
tree. Furthermore, the isa
method is overridden such that it reports according to the moment of the bless
. Similarly, the versionof
method lets you query the saved $VERSION
s. This may be helpful when doing evolution, as you can compare the old @ISA
and $VERSION
s to figure out what to change (and how). UNIVERSAL::can
is unmodified.
Technically speaking, bless
is re-implemented such that it can be extended by the bless from and the bless to classes via the BLESS
method. Both the bless from and bless to operations are funnelled through a single BLESS
method like this:
sub BLESS {
my ($r1,$r2);
if (ref $r1) { warn "$r1 leaving ".ref $r1." for a new life in $r2\n"; }
else { warn "$r2 entering $r1\n"; }
$r1->SUPER::BLESS($r2);
}
UNLOADED
Generic tools such as posh
or ospeek
must bless
objects when reading from an arbitrary database. To bless
, there must be information about the inheritance tree. To try to get it, unknown classes found in a database are require
'd. However, the require
may fail. If it does fail, a package must be faked-up and ${"${package}::UNLOADED"}
is set to true. This flag is used to signal that the @ISA tree should not be considered authoritative for a particular package.
Representation
All values take a minimum of 8 bytes (OSSV). These 8 bytes are used to store 16-bits of type information, a pointer, and a general purpose 16-bit value.
value stored extra allocation (in addition to OSSV)
------------------------------ -------------------------------------
undef none
pointer none
16-bit signed integers none
32-bit signed integers 4 byte block (OSPV_iv)
double 8 byte block (OSPV_nv)
string length of string (char*)
object (ref or container) sizeof object (see subclasses of OSSVPV)
additional references take no extra space
bless .5-1k bytes per class (zero per object)
Since 32-bit integers and doubles are fairly common and should be stored densely, a pool allocation algorithm is planned.
The ODI FAQ also states: In addition, there is an associated entry in the info segment for the segment in question for each allocation of the object. This is done in the tag table. The overhead is 16 bits (i.e., 2 bytes) for each singleton (i.e., non-array) allocation, 32 bits for each character array allocation for character arrays <= 255 characters, and 48 bits for each character array allocation > 255 characters, or any array allocation of an object of another type. Also, depending on the size of an object (i.e., if you allocate a "huge" object - one that is >64Kb) there is other overhead caused by alignment constraints.
If this seems like a lot of overhead, consider that it is not really possible to directly compare these numbers to RDBMS statistics. At least we can say that relational data can be stored with much less duplication when moved into ObjectStore
. This is unquestionably true when you tailor your own C++ extensions to fit data access patterns.
Representation Limitations
Most of these limitations are planned to be removed with the release of ObjectStore
6.0.
Exact width types are preferred. Specify number of bits per integer when possible. It is still mostly unresolved as to how to deal with 64-bit integer types.
Try to be as binary compatible as possible between different platforms. N-bit width types generally need n-bit alignment. For example, 32-bit integers must usually be stored with 32-bit alignment.
Unions are not supported. (Don't even think about it! :-)
Variable length structures are probably not supported. For example:
struct varstr { int refcnt; char string[0]; # sized via malloc };
Instead, you must allocate an array separately:
struct varstr { int refcnt; char *string; # string = malloc(sizeof(char) * len) };
Changing the layout of structures after they are stored in a database is generally a nightmare. Instead it is recommended that a version number be appended to the name of the structure (e.g. mystruct1, mystruct2, mystruct3) and all support code be kept indefinitely.
Go Extension Crazy
Add your own C++
representation. New families of objects can inherit from ObjStore::UNIVERSAL
. Suppose you want highly optimized, persistent bit vectors? Or matrics? No problem.
Documentation is slim, but don't let that stop you. There are many examples. See the included representations and also ObjStore::REP::HashRecord & ObjStore::Lib::PDL.
Typemap
The typemap is complicated because of the need to insure that persistent data is not accessed outside of its transaction.
OODB[SCALAR1 SCALAR2]
| |
BRIDGE BRIDGE
| |
PERL[SCALAR1 SCALAR2]
A bridge has two owners: perl and the current transaction. The bridge and the scalar have different lifetimes. The scalar lives for MIN(perl,txn), while the bridge must live for MAX(perl,txn) (or at least until perl is done).
Persistent refcnts are only (can only) be updated during update transactions. Fortunately, read-only transactions pose no problem: refcnts cannot be updated but object cannot be deleted either.
Bridges are also used to store transient cursors associated with collections. For example, suppose you need to iterate over a hash during a read transaction. The hash is read-only so you create the cursor transiently and store it in the bridge.
[XXX also mention dynacast stuff]
Notes On The Source Code
Functions or methods starting with '_' are internal to the
ObjStore
extension. They are subject to change (entirely) without notice.Avoid
const
, privacy & templates.C++
sucks! Long liveC++
!The relationship between references and cursors is strange. It's probably best not to think about it.
RELATED RESEARCH
ftp://ftp.cs.utexas.edu/pub/garbage/texas/README
http://cs-tr.cs.cornell.edu:80/Dienst/UI/1.0/Display/ncstrl.utexas_cs/CS-TR-98-07
http://www.usenix.org/publications/library/proceedings/usenix98/full_papers/saito/saito_html/saito.html
http://theory.lcs.mit.edu/~cilk/
BUGS
UNFORGEABLE NOTIFICATION SENDER INFORMATION
ODI feature request #13632: It would be very useful to know which client sent a given notification. While the client could fill in this information as part of the notification, the
osserver
already knows the sender's client# and could pass this information transparently to subscribers. The additional overhead be just 2 bytes per received notification.CROSS DATABASE POINTERS
This feature is highly deprecated and will likely be discontinued, but at the moment you can allow cross database pointers with:
$db->_allow_external_pointers; #never do this!
But you should avoid this if at all possible. Using real pointers will affect refcnts, even between two different databases. Your refcnts will be wrong if you simply
osrm
a random database. This will cause some of your data to become permenently un-deletable. Currently, there is no way to safely delete un-deletable data.Instead, you can use references or cursors to refer to data in other databases. References may use the
os_reference_protected
class which is designed precisely to address this problem. Refcnts will not be updated remotely, but you'll still be protected from accessing deleted objects or removed databases. (Imagine the freedom. :-)ObjStore::AVHV
EVOLUTIONIndexed records temporarily cannot be evolved due to const-ness. For now, it is recommended that records be removed, changed, and re-added to the table when changing indexed fields.
WIN32
There might be issues with threads and signal handlers. I'm not sure since I don't use Microsoft products regularly.
MOP
This is not a general purpose
ObjectStore
editor with completeMOP
support. Actually, I don't think this is a bug!HIGH VOLITILITY
Everything is subject to change without notice. (But backward compatibility will be preserved when possible. :-)
POOR QUALITY DOCUMENTATION
I didn't get a Ph.D in English. Sorry!
WHY?
While there have been huge gains in software quality in the form of GNU, Perl, Apache, Linux, Qt, and Mozilla, the world has been slogging along in the dark ages (the 1960s in fact) with respect to database technology. After avoiding relational databases for years, I sensed a combination of ObjectStore and Perl could offer the same level of quality and simplicity that I find invaluable in addressing the hurdles I face as a software professional.
Combining ObjectStore & Perl might seem obvious in hindsight (doesn't it always?!) but it is my conviction that it was something more than luck and hard work that gave me the insight to imagine and implement this technology years before it would be recognized and adopted. If you will suspend disbelief for a moment, I would like to invite you imagine a hypothetical situation. What if you found someone who was absolutely convincing in their understanding of the truth? What if you had an opportunity to spend time with them? What would you do?
Designing software requires a basic subtlety of awareness. To be successful you must be able to fluctuate fluidly between the place of reason and the place of silent knowledge. The place of concern is the forerunner to the place of reason. Similarly, the place of unbending intent is the forerunner to the place of silent knowledge. Happily, this technique is not limited to software design exclusively.
Not that there is anything wrong with software design. Computers have an evolutionary function. They (can) help people to understand the difference between the mechanical and the non-mechanical aspects of themselves. Computers are *entirely* mechanical. Don't believe the anthropomorphisms. Computers cannot create anything without our help; they only do as they are instructed. Probably this is easy to see. However, many people seem to have difficulty seeing what should be equally obvious: the pure, non-mechanical principle in themselves.
Ask yourself these questions: Who is the software designer? Who imagines? Who moves the fingers to type? IMHO, to try to know yourself is the most worthy and worthwhile goal. Therefore, evolution is served by making software available that is very similar to our mechanical thinking processes. By understanding this type of software, one is aided in understanding how the brain works. (I am not referring exclusively to the field of artificial intelligence. The brain is a data processor in the broadest sense and the algorithms of artificial intelligence are only a part of that.)
I have clear intention as to why I am developing this software and why I am (foolishly!) giving it away for free. By contributing to the evolution of others' understanding, I in fact contribute to my own evolution. The better one understands, the less time is wasted in states of confusion. As you learn how this database works, you will assimilate the perspectives that I have deliberately distilled. If you wish to pursue this to a greater depth, please consider visiting http://www.purposeofcompetition.org . Best of luck.