There are many different ways to approach this sort of problem. So a great deal depends on your application architecture.
You would generally create one database account that owns the database objects-- tables, packages, views, etc. Let's call this account
BOOKSTORE_OWNER. This account would generally be locked so that no one could log in as
BOOKSTORE_OWNER other during periodic builds.
Beyond that starting point, however, there are a host of reasonable ways to deal with authentication and authorization. If you wanted to let the database handle both, you would create two roles--
BOOKSTORE_ADMIN. Those roles would be given appropriate privileges on the objects owned by
BOOKSTORE_OWNER. You would then create a database user for every person that can use the application and grant the appropriate role to each new user. So if you're an admin and I'm a user, the database account
dygi would be created and granted the
BOOKSTORE_ADMIN role while the database account
Justin would be created and granted the
This approach worked quite well when people were building client-server applications. If you are using a three-tier application, on the other hand, you want the middle tier connection pool to use the same credentials to connect to the database rather than having each user have their own database connections. The simplest way to accomplish this is to create a single
BOOKSTORE_APP database account, grant that account all the privileges of the
BOOKSTORE_USER role, and then let the application implement the logic to figure out which front end user has what privileges. This would generally entail a
USER_PRIVILEGE table in the
BOOKSTORE_OWNER schema. This approach can work quite well. The downside, though, is that every application has to build its own logic for managing privileges which can get quite complex over time. It also can make it somewhat difficult to report on what privileges users have or to ensure that a user's privileges are kept up to date when users leave the organization or move to a new role.
Oracle in particular addresses many of these challenges by allowing proxy authentication. This allows you to mix the benefits of the client-server approach where every user has their own database account that leverages Oracle's existing privilege management infrastructure with the connection pooling benefits of using a shared database account. This works very well but only works with Oracle and then only with certain protocols (OCI and JDBC) so it is not terribly popular.
Of course, beyond these basics, you can get into quite a bit of complexity. You may want to have enterprise users where Oracle doesn't maintain the password but instead allows the user to authenticate against an external LDAP directory. You may want to manage privileges with LDAP roles rather than with rows in application-specific tables. You may want to integrate with various middle-tier single sign-on (SSO) solutions.