cloud interoperability
DESCRIPTION
My talk about Cloud InteroperabilityTRANSCRIPT
Enterprise Service Bus Architecture as a Cloud Interoperability and
Resource Sharing Platform
Amirhossein Mohtasebi
Agenda
• Cloud
• Interoperability
• Interoperability in the Cloud
• Light-weight binding
• Cloud Service Bus
Cloud
• Characteristics:
– Unlimited pool of resources
– Per use pricing model
– Geographically distributed
– Instant provisioning and configuration
– Great extent of virtualization
Interoperability
• Definition
– “Interlinking a system, information, or workflows across multiple domains such as enterprise sectors, geographic locations, administrations, etc.”
– “The capability of two or more networks, systems, devices, applications, or components to externally exchange and readily use information securely and effectively”
Cloud Interoperability
• Portability and Mobility
– Virtual Machine (VM) format
– Hardware requirements
– Metadata
– IP
– Subnet
• Example: Azure Redundancy vs. AWS
Close vs. Open
– Business Acceptance
– Customer Lock-in
– Resource Sharing
Current Situation
• There is no single –standard- vocabulary for inter-cloud communications:
– How data can go back and forth between Clouds?
– How the access regime can be defined for distributed access control?
– How meta data can be interpreted in different Clouds (semantic and syntactic)?
• Reflects the era before invention of TCP/IP
Cloud Interoperability
• Hardware, Software, Platform, VM
Physical Layer
• Data Format, Data Type, Validations
Data Layer
• Data Context and Domain
Semantic Layer
Current Efforts
– Cloud Computing Interoperability Manifesto
– OpenStack, OpenNebula, etc
– OVF, CDMI
– Supporting Multiple Languages
– Supporting Standard API
– Open Platforms (Cloud Foundry)
Location Decoupling
Application
Heavy Dependencies
Platform
Application
Light-Weight Binding
Platform A
Platform C
Platform B
Location Decoupling
• Heavy Dependency vs. Light-weight Binding– Transport
• Managing different protocols
• Handling different application design principals (REST), Protocols (SOAP)
– Route• Component to direct requests to correct endpoints and vice
versa
– Message• Transformation of the message (mainly using XSLT, or any
transformation mechanism)
Location Decoupling
– Security• oAuth• Claim Based Authentication• Kerberos• Role/Right based Authorization
– Monitoring and Management• Auditing• SLA• QoS• Billing
• Cost?
Location Decoupling
• Changing the application level to implement location decoupling?
– Another level of customer lock-in
• Extracting light-weight binding + Composable Middleware + Standard API?
Enterprise Service Bus
• Terminal for integration of different services
• Create a mesh of Loosely coupled services
• 1:* vs. 1:1 (Federated Interface)
• Traditionally: SOAP+WS-Addressing
Cloud Orchestration Architecture
• The arrangement, coordination and management of cloud infrastructure to provide services to meet IT and business requirements.
• Functions:
– Intermediate
– Aggregate
– Arbitrage
Cloud Orchestration Architecture
18
Using composite service architecture allows ESB to span from specific number
of services to unlimited number of services by implementing federated interfaces.
Any application and third party that comply with this interface or at least build a
plug-in component that can be applied to this abstract layer can communicate
through ESB. Because of vast diversity of services in Cloud environment, applying
the concept of CSA to ESB can extend them from a limited enterprise environment
to unlimited Cloud environment.
Figure 2-5 CSA Layered Architecture (Source: Open Grid Forum, 2011)
As an example, Figure 2-6 illustrates a resource discovery and sharing
mechanism between two cloud environments, namely Amazon and Azure, that both
have compute and storage components.
Virtualization Layer
• Provides a federated interface
• Level of standardization: level of complying with federated interface
• Extending to the cloud:
– Exchanging metadata
– Exchanging configurations
– Security requirements
Cloud Service Bus
8
middleware. Communication between each Cloud platform and ESB is through a
proxy called service component. Implementation of this proxy is the minimum
requirement to connect to ESB. In other words, service component is an
implementation of federation interface [19]. Figure 4 illustrates the architecture of
using service repository and registry in ESB model to bring more flexibility to the
ESB model.
Fig. 4. Sample registration, discovery, and flow of information through ESB (Source:
Grammatikou et al., 2011)
5. Conclusion and Future Works
The interoperability is not a new issue and it led to lots of problems and
overworks before. There are lots of solutions proposed for bringing
interoperability to different aspects of Cloud such as physical, data, and semantic
context. In the context of data interoperability, using the concept of Enterprise
Service Bus is one of the most viable solutions. ESBs can help well established
but not interoperable Cloud platforms connect to each other and share resources.
Moreover, using composite service architecture increases the ability to have
platform agnostic, configurable service bus.
ESBs can be placed as a middleware between different platforms and act as a
translator between them. They can implement transportation protocol conversion,
message routing, and data mapping, as well as providing message security and
monitoring mechanisms.
Conclusion
• In near future, there won’t be any standard API from business vendors,
• Standardization will be community based,
• Too soon for semantic interoperability,
• Intermediary stack is a viable answers,
• The next step is to develop domain driven semantic schemas
Thank You.
References
• 1. Carraro G, Chong F (2006) Architecture Strategies for Catching the Long Tail. Microsoft Developer Networks.2. Mell P, Grace T (2009) NIST Definition of Cloud Computing. National Institute of Standards and Technology,
• 3. Corp. D (2011) Dell Unveils Industry’s First OpenStack Infrastructure-as-a- Service Cloud Solution. Dell.4. Hirschfeld R (2011) Unboxing OpenStack clouds with Crowbar and Chef [in just over 9,000 seconds! ]. Agile in the Cloud.
• 5. Armbrust M, Fox A, Joseph AD, Kats RH, Konwinski A, Lee G, Patterson DA, Rabkin A, Stoica I, Zaharia M (2009) Above the Clouds: A Berkeley View of Cloud Computing. University of Berkeley, California6. Directorate-General E (2003) Linking up Europe: the importance of interoperability for e-government services. The Commission of The European Communities,
• 7. Teixeira T, Malo P, Almeida B, Mateus M (2011) Towards an Interoperability Management System. Information Systems and Technologies (CISTI):1-48. IEEE (2011) IEEE Guide for Smart Grid Interoperability of Energy Technology and Information Technology Operation with the Electric Power System (EPS), End-Use Applications, and Loads. IEEE Std 2030-2011.
• 9. Robinson R (2004) Understand Enterprise Service Bus scenarios and solutions in Service-Oriented Architecture, Part 1. IBM Developerworks.10. Bean J (2009) Enterprise Service Bus. In: Service Interface Design. Morgan Kaufmann, p 10
References
11. Lou M, Goldshlager B, Zhang L-J Designing and implementing Enterprise Service Bus (ESB) and SOA solutions. In: IEEE International Conference on Service Computing, 2005. IBM Global Services,12. Jizhe L, YongJun Y Research & Implementation of LightWeight ESB With Microsoft .NET. In: International Conference on Frontier of Computer Science and Technology, 2009. 13. Wu J, Tao X Research of Enterprise Application Integration Based-on ESB. In: 2nd International Conferance on Advanced Computer Control (ICACC), 2010. 14. Webber J (2005) ThoughtWorks. Guerrilla SOA.15. VMWare (2012) Multi-Language, Multi-Framework, what about Multi- Cloud? VMWare, 16. Fielding RT Architectural Styles and the Design of Network-based Software Architectures. In, 2000. UC Irvine, 17. Pouli V, Demchenko Y, MarinosC., Lopez DR, Grammatikou M Composable Services Architecture for Grids. In, 2011. Computer Communications and Networks, pp 223-24718. Demchenko Y (2011) Composable Services Architecture (CSA). OGF, 19. Grammatikou M, Marinos C, Demchenko Y, Lopez DR, Dombek K, Jofre J (2011) GEMBus as a Service Oriented Platform for Cloud-Based Composable Services. Third IEEE International Conference on Coud Computing Technology and Science