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- Authentication technologies. New user communities prefer using technologies for authentication different from X509 digital certificates, for example username/password based authentication.
Single sign on. Users should be enabled to use their institutional credentials to access EGI services. One barrier for new users is that they have to obtain a new credential to access the einfrastructure. In some cases, this is just an inconvenience, yet another credential to manage, but for some users (those outside institutions or the major IdP federations) it may be not possible to obtain such a credential. User friendliness is of course a major feature for any Single Sign On capability.
- Community attributes-based authorization. Community-based authorization has been implemented in EGI from the beginning, and is at the basis of the collaborative nature of EGI. It is fundamental for EGI that every AAI technology and architecture enables the communities to manage the capabilities and the roles of their users, and to let these attributes be used by the services to regulate the authorization. Given the scale of the EGI service, providers cannot implement per-user authorization, but must authorize a user based on the attributes associated to that user.
- Non-web access. EGI services are accessible natively by command line clients, implementing the services’ standard APIs. While there are several options for users to use web-tools to access the resources, authentication must consider both web and non-web access scenarios.
- Delegation. EGI services allow complex workflows, and users often submit thousands of computational tasks that need to access other resources (e.g. storage) on their behalf. The authentication technology must support delegation, either natively or through credential translation to another technology. Without delegation EGI users cannot get the full potential of the services.
- Scalable policies for attribute release. EGI is a highly distributed infrastructure, with hundreds of service providers, hundreds of communities, and tens of thousands of users. In this scenario, it is critical that the policies and the procedures are scalable with the number of actors involved.
- PID for users. EGI foresees the need for a user unique and persistent identifier. One use case is to map multiple credentials to a single user. A second use case, and in particular for an EGI-specific unique identifier, is to share authorization assertions between EGI services, which may not be possible when using an IdP-provided user UID.
These use cases have been translated to requirements and have been described in the Deliverable "DJRA1.1:Analysis of user community and service provider requirements"
Page xx of this document provides a dedicated description of the issues.....currently face with regard to federated identity management. Requirements R?, R?... are applicable to this context and have been guiding our work in this pilot.
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