You should have noticed that Delphi 10.1 Berlin has been released. Our Open Source projects, including mORMot and SynPDF and their associated documentation have been updated to support this new revision. Any additional feedback is welcome, as usual!
2016-04-09
AES-256 based Cryptographically Secure Pseudo-Random Number Generator (CSPRNG)
2016-04-09. Open Source › mORMot Framework
Everyone knows about the pascal random()
function.
It returns some numbers, using a linear
congruential generator, with a multiplier of 134775813,
in its Delphi implementation.
It is fast, but not really secure. Output is very predictable, especially if
you forgot to execute the RandSeed()
procedure.
In real world scenarios, safety always requires random numbers, e.g. for
key/nonce/IV/salt/challenge generation.
The less predictable, the better.
We just included a Cryptographically
Secure Pseudo-Random Number Generator (CSPRNG) into our
SynCrypto.pas unit.
The TAESPRNG class would use real system entropy to generate
a sequence of pseudorandom bytes, using AES-256, so returning highly
unpredictable content.
2016-02-08
Linux support for Delphi to be available end of 2016
2016-02-08. Pascal Programming
Marco Cantu, product manager of Delphi/RAD Studio, did publish the
official RAD Studio 2016 Product Approach and Roadmap.
The upcoming release has a codename known as "BigBen", and should be called
Delphi 10.1 Berlin, as far as I understand.
After this summer, another release, which codename is "Godzilla", will
support Linux as a compiler target, in its Delphi 10.2 Tokyo release.
This is a very good news, and some details are given.
I've included those official names to mORMot's internal compiler version
detection.
Thanks Marco for the information, and pushing in this direction!
My only concern is that it would be "ARC-enabled"...
2016-01-09
Safe locks for multi-thread applications
2016-01-09. Open Source › mORMot Framework
Once your application is multi-threaded, concurrent data access should be
protected. We already wrote about how debugging multi-thread
applications may be hard.
Otherwise, a "race
condition" issue may appear: for instance, if two threads modify a variable
at the same time (e.g. decrease a counter), values may become incoherent and
unsafe to use. Another symptom of broken logic is the "deadlock", by which the whole
application appears to be blocked and unresponsive, when two threads have a
wrong use of the lock, so are blocking each-others.
On a server system, which is expected to run 24/7 with no maintenance, such
issues are to be avoided.
In Delphi, protection of a resource (which may be an object, or any
variable) is usually done via Critical
Sections.
A critical section is an object used to make sure, that some part of
the code is executed only by one thread at a time. A critical section
needs to be created/initialized before it can be used and be released when it
is not needed anymore. Then, some code is protected using Enter/Leave
methods, which would lock its execution: in practice, only a single
thread would own the critical section, so only a single thread would
be able to execute this code section, and other threads would wait until the
lock is released. For best performance, the protected sections should be as
small as possible - otherwise the benefit of using threads may be voided, since
any other thread would wait for the thread owning the critical section
to release the lock.
We will now see that Delphi's TCriticalSection may have
potential issues, and what our framework proposes to ease critical
section use in your applications.
2015-12-11
Audit Trail for Services
2015-12-11. Open Source › mORMot Framework
We have seen previously how the ORM part of the framework is able to provide
an Audit
Trail for change tracking.
It is a very convenient way of storing the change of state of the data.
On the other side, in any modern SOA solution, data is not at the center any
more, but services.
Sometimes, the data is not stored within your server, but in a third-party
Service-Oriented Architecture (SOA).
Being able to monitor the service execution of the whole system becomes sooner
or later mandatory.
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Our framework allows to create an Audit Trail of any incoming or outgoing service operation, in a secure, efficient and automated way.
2015-11-21
Try to avoid RTTI (ab)use
2015-11-21. Pascal Programming
There is a very trendy move, since a few years, to value so called "meta-programming".
In short, it is about the ability to treat programs as their data.
It is a very powerful paradigm in functional languages, and it was also
introduced to OOP languages, even in SmallTalk a long time
before this concept was trendy in Ruby, C# or Java.
In OOP compiled languages, reflection is used to achieve a similar behavior
at run-time, mainly via RTTI (Run-Time Type
Information).
Delphi supports
RTTI since its version 1, as it was heavily used e.g. for all UI
streaming.
In our framework, we rely on RTTI for its main features:
ORM, SOA
and
MVC - and even in some other parts, like
Desktop UI generation.
But RTTI could easily be abused.
Here are some thoughts, started as a comment in a
good old Mason's blog article about how RTTI performance may be a
bottleneck.
My comment was to get rid of RTTI, and follow a SOLID
implementation with explicit OOP code, like use of
interface.
2015-11-17
Benefits of interface callbacks instead of class messages
2015-11-17. Open Source › mORMot Framework
If you compare with existing client/server SOA solutions (in Delphi, Java,
C# or even in Go or other frameworks), mORMot's
interface-based
callback mechanism sounds pretty unique and easy to work with.
Most Events Oriented solutions do use a set of dedicated
messages to propagate the events, with a centralized Message
Bus (like MSMQ or
JMS), or a
P2P/decentralized approach (see e.g. ZeroMQ or NanoMsg). In practice, you are expected to
define one class per message, the class fields being
the message values. You would define e.g. one class to notify a
successful process, and another class to notify an error. SOA
services would eventually tend to be defined by a huge number of individual
classes, with the temptation of re-using existing classes in several
contexts.
Our interface-based approach allows to gather all events:
- In a single
interfacetype per notification, i.e. probably per service operation; - With one method per event;
- Using method parameters defining the event values.
Since asynchronous notifications are needed most of the time, method
parameters would be one-way, i.e. defined only
as const - in such case, an evolved algorithm would
transparently gather those outgoing messages, to enhance scalability when
processing such asynchronous events. Blocking request may also be defined
as var/out, as we will see below, inWorkflow
adaptation.
Behind the scene, the framework would still transmit raw messages over IP
sockets (currently over a
WebSockets connection), like other systems, but events notification would
benefit from using interfaces, on both server and client sides.
We will now see how...
2015-10-23
Letters of Hope
2015-10-23. Pascal Programming
As we already notified in this blog, Embarcadero has been finally bought by IDERA. Delphi users received a letter from Randy Jacops, IDERA CEO. Written in my mother language, in perfect French. Nice! The letter states that they have 20,000 customers... It sounds more realistic than the numbers […]
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