5 research outputs found
Management of object-oriented action-based distributed programs
Phd ThesisThis thesis addresses the problem of managing the runtime behaviour of distributed
programs. The thesis of this work is that management is fundamentally
an information processing activity and that the object model, as applied to actionbased
distributed systems and database systems, is an appropriate representation
of the management information. In this approach, the basic concepts of classes,
objects, relationships, and atomic transition systems are used to form object
models of distributed programs. Distributed programs are collections of objects
whose methods are structured using atomic actions, i.e., atomic transactions.
Object models are formed of two submodels, each representing a fundamental
aspect of a distributed program. The structural submodel represents a static
perspective of the distributed program, and the control submodel represents a
dynamic perspective of it. Structural models represent the program's objects,
classes and their relationships. Control models represent the program's object
states, events, guards and actions-a transition system. Resolution of queries on
the distributed program's object model enable the management system to control
certain activities of distributed programs.
At a different level of abstraction, the distributed program can be seen as a
reactive system where two subprograms interact: an application program and a
management program; they interact only through sensors and actuators. Sensors
are methods used to probe an object's state and actuators are methods used
to change an object's state. The management program is capable to prod the
application program into action by activating sensors and actuators available at
the interface of the application program. Actions are determined by management
policies that are encoded in the management program. This way of structuring
the management system encourages a clear modularization of application and
management distributed programs, allowing better separation of concerns. Managemental
concerns can be dealt with by the management program, functional
concerns can be assigned to the application program.
The object-oriented action-based computational model adopted by the management
system provides a natural framework for the implementation of faulttolerant
distributed programs. Object orientation provides modularity and extensibility
through object encapsulation. Atomic actions guarantee the consistency of
the objects of the distributed program despite concurrency and failures. Replication
of the distributed program provides increased fault-tolerance by guaranteeing
the consistent progress of the computation, even though some of the replicated
objects can fail.
A prototype management system based on the management theory proposed
above has been implemented atop Arjuna; an object-oriented programming system
which provides a set of tools for constructing fault-tolerant distributed programs. The management system is composed of two subsystems: Stabilis, a
management system for structural information, and Vigil, a management system
for control information. Example applications have been implemented to illustrate
the use of the management system and gather experimental evidence to give
support to the thesis.CNPq (Consellho Nacional de Desenvolvimento Cientifico e Tecnol6gico, Brazil):
BROADCAST (Basic Research On Advanced Distributed Computing: from Algorithms to SysTems)
Selective transparency in distributed transaction processing
PhD ThesisObject-oriented programming languages provide a powerful interface for
programmers to access the mechanisms necessary for reliable distributed
computing. Using inheritance and polymorphism provided by the object model, it
is possible to develop a hierarchy of classes to capture the semantics and
inter-relationships of various levels of functionality required for distributed
transaction processing. Using multiple inheritance, application developers can
selectively apply transaction properties to suit the requirements of the application
objects.
In addition to the specific problems of (distributed) transaction processing in an
environment of persistent objects, there is a need for a unified framework, or
architecture in which to place this system. To be truly effective, not only the
transaction manager, but the entire transaction support environment must be
described, designed and implemented in terms of objects.
This thesis presents an architecture for reliable distributed processing in which
the management of persistence, provision of transaction properties (e.g.,
concurrency control), and organisation of support services (e.g., RPC) are all
gathered into a unified design based on the object model.UK Science and Engineering Council:
ESPRIT project