[
https://issues.apache.org/jira/browse/FC-235?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel
]
Shawn McKinney updated FC-235:
------------------------------
Description:
h3. Rationale for change
One of the advantages of RBAC is the concept of an activated role. It allows
us to limit when a particular role can be used within a session.
For example, temporal constraints, place limits on when a role can be activated
based on time and date of the runtime environment.
This enhancement expands that capability to other types of instance data like
location or project. This will help reduce the number of roles that have to be
created. Now, we won't have to have a teller role for every branch. Rather
one teller role will be created, and every user will store properties that
control which branch that role can be used in.
The idea here is to not limit to just a branch constraint rather allow
flexibility of the types of instance data that can be used.
Fortunately, most of what is needed to add these types of controls is already
present in the fortress core. The combination of configuration properties and
user properties can be used to store the policies.
h3. example scenario
h3. Role (properties)
Globally we'll store as config elements the name of each role to be constraint
along with the name of the type of constraint. It will be a trigger for the
role activation process to perform special validation.
admin:location
manager:location
servicerep:location
h3. Users:
Each user, in addition to their typically role assignments, will store
properties that define the constraint value for when that role may be applied.
Here we're using location constraints, so each role assignment on the user
(constrained in this way) must also have a corresponding property that
specifies where that role may be used.
*curly*
roles assigned : admin, manager, servicerep
props: admin:123, manager:456, servicerep:789
*larry*
roles assigned : manager
props: manager:789
*moe*
roles assigned : servicerep
servicerep:123
Intuitively we can look at these properties and see what's going on. Globally,
the implementation defines which roles to be constrained, and what the
constraint type is. In this case a locale type constraint. Next, we can see
what location each user may activate their assigned roles. Curly is the most
powerful of the three, and can activate all three roles, albeit contrained
within one locale each. Larry can only activate his manager role in location
789 while Moe can activate as a servicerep only in location 123.
These constraints are evaluated during the createSession role activation phase.
The caller specifies which location the user is in by pushing into the runtime
as a property on the inbound user object.
So if our runtime is at location 123, they will push this in:
User inUser = new User("curly");
inUser.setProperty("location", "123");
Before calling createSession. Now the validation routine simply has to make
sure that every target role being activated is checked against the constraint
value.
Here is a prototype of that validation code. Keep in mind this all has to work
with 'normal' roles, which are not constrained in this special way.
{{// Verify location constraints, for every active role do.}}
{{for ( UserRole role : session.getRoles())}}
{
{{String constraintType = Config.getInstance().getProperty( role.getName()
);}}
{{// Is there a runtime constraint placed on this role activation?}}
{{if ( StringUtils.isNotEmpty( constraintType ))}}
{{{}}
{{ String userProp = session.getUser().getProperty( role.getName() );}}
{{ // user have prop associated with the runtime constraint on this
particular role?}}
{{ if( StringUtils.isNotEmpty( userProp ))}}
{{ {}}
{{ // passed by caller in a prop with keyName in the constraintType for the
role.}}
{{ String constraintValue = user.getProperty( constraintType );}}
{{ // Is the activated role's valid per the value passed in by the caller?}}
{{ if ( !userProp.equalsIgnoreCase( constraintValue ) )}}
{{ {}}
{{ //session.getRoles().remove( role );}}
{{ LOG.info( "deactivate role {}", role.getName() );}}
{
{{ else}}
{{ {}}
{{ //session.getRoles().remove( role );}}
{{ LOG.info( "deactivate caller not set constraint for role {}",
role.getName() );}}
}
}
}
was:
h3. Rationale for change
One of the advantages of RBAC is the concept of an activated role. It allows
us to limit when a particular role can be used within a session.
For example, temporal constraints, place limits on when a role can be activated
based on time and date of the runtime environment.
This enhancement expands that capability to other types of instance data like
location or project. This will help reduce the number of roles that have to be
created. Now, we won't have to have a teller role for every branch. Rather
one teller role will be created, and every user will store properties that
control which branch that role can be used in.
The idea here is to not limit to just a branch constraint rather allow
flexibility of the types of instance data that can be used.
Fortunately, most of what is needed to add these types of controls is already
present in the fortress core. The combination of configuration properties and
user properties can be used to store the policies.
h3. example scenario
h3. Role (properties)
Globally we'll store as config elements the name of each role to be constraint
along with the name of the type of constraint. It will be a trigger for the
role activation process to perform special validation.
admin:location
manager:location
servicerep:location
h3. Users:
Each user, in addition to their typically role assignments, will store
properties that define the constraint value for when that role may be applied.
Here we're using location constraints, so each role assignment on the user
(constrained in this way) must also have a corresponding property that
specifies where that role may be used.
*curly*
roles assigned : admin, manager, servicerep
props: admin:123, manager:456, servicerep:789
*larry*
roles assigned : manager
props: manager:789
*moe*
roles assigned : servicerep
servicerep:123
Intuitively we can look at these properties and see what's going on. Globally,
the implementation defines which roles to be constrained, and what the
constraint type is. In this case a locale type constraint. Next, we can see
what location each user may activate their assigned roles. Curly is the most
powerful of the three, and can activate all three roles, albeit contrained
within one locale each. Larry can only activate his manager role in location
789 while Moe can activate as a servicerep only in location 123.
These constraints are evaluated during the createSession role activation phase.
The caller specifies which location the user is in by pushing into the runtime
as a property on the inbound user object.
So if our runtime is at location 123, they will push this in:
User inUser = new User("curly");
inUser.setProperty("location", "123");
Before calling createSession. Now the validation routine simply has to make
sure that every target role being activated is checked against the constraint
value.
Here is a prototype of that validation code. Keep in mind this all has to work
with 'normal' roles, which are not constrained in this special way.
{{ // Verify location constraints, for every active role do.}}
{{for ( UserRole role : session.getRoles())}}
{
{{ String constraintType = Config.getInstance().getProperty( role.getName()
);}}
{{ // Is there a runtime constraint placed on this role activation?}}
{{ if ( StringUtils.isNotEmpty( constraintType ))}}
{{ {}}
{{ String userProp = session.getUser().getProperty( role.getName() );}}
{{ // user have prop associated with the runtime constraint on this
particular role?}}
{{ if( StringUtils.isNotEmpty( userProp ))}}
{{ {}}
{{ // passed by caller in a prop with keyName in the constraintType for
the role.}}
{{ String constraintValue = user.getProperty( constraintType );}}
{{ // Is the activated role's valid per the value passed in by the
caller?}}
{{ if ( !userProp.equalsIgnoreCase( constraintValue ) )}}
{{ {}}
{{ //session.getRoles().remove( role );}}
{{ LOG.info( "deactivate role {}", role.getName() );}}
{
{{ else}}
{{ {}}
{{ //session.getRoles().remove( role );}}
{{ LOG.info( "deactivate caller not set constraint for role {}",
role.getName() );}}
> Add support for runtime constraints to be placed on activated roles
> -------------------------------------------------------------------
>
> Key: FC-235
> URL: https://issues.apache.org/jira/browse/FC-235
> Project: FORTRESS
> Issue Type: Improvement
> Affects Versions: 2.0.0
> Reporter: Shawn McKinney
> Assignee: Shawn McKinney
> Priority: Major
> Fix For: 2.0.1
>
>
> h3. Rationale for change
> One of the advantages of RBAC is the concept of an activated role. It allows
> us to limit when a particular role can be used within a session.
> For example, temporal constraints, place limits on when a role can be
> activated based on time and date of the runtime environment.
> This enhancement expands that capability to other types of instance data like
> location or project. This will help reduce the number of roles that have to
> be created. Now, we won't have to have a teller role for every branch.
> Rather one teller role will be created, and every user will store properties
> that control which branch that role can be used in.
> The idea here is to not limit to just a branch constraint rather allow
> flexibility of the types of instance data that can be used.
> Fortunately, most of what is needed to add these types of controls is already
> present in the fortress core. The combination of configuration properties and
> user properties can be used to store the policies.
> h3. example scenario
> h3. Role (properties)
> Globally we'll store as config elements the name of each role to be
> constraint along with the name of the type of constraint. It will be a
> trigger for the role activation process to perform special validation.
> admin:location
> manager:location
> servicerep:location
> h3. Users:
> Each user, in addition to their typically role assignments, will store
> properties that define the constraint value for when that role may be
> applied. Here we're using location constraints, so each role assignment on
> the user (constrained in this way) must also have a corresponding property
> that specifies where that role may be used.
>
> *curly*
> roles assigned : admin, manager, servicerep
> props: admin:123, manager:456, servicerep:789
> *larry*
> roles assigned : manager
> props: manager:789
> *moe*
> roles assigned : servicerep
> servicerep:123
>
> Intuitively we can look at these properties and see what's going on.
> Globally, the implementation defines which roles to be constrained, and what
> the constraint type is. In this case a locale type constraint. Next, we can
> see what location each user may activate their assigned roles. Curly is the
> most powerful of the three, and can activate all three roles, albeit
> contrained within one locale each. Larry can only activate his manager role
> in location 789 while Moe can activate as a servicerep only in location 123.
>
> These constraints are evaluated during the createSession role activation
> phase. The caller specifies which location the user is in by pushing into
> the runtime as a property on the inbound user object.
> So if our runtime is at location 123, they will push this in:
> User inUser = new User("curly");
> inUser.setProperty("location", "123");
> Before calling createSession. Now the validation routine simply has to make
> sure that every target role being activated is checked against the constraint
> value.
>
> Here is a prototype of that validation code. Keep in mind this all has to
> work with 'normal' roles, which are not constrained in this special way.
> {{// Verify location constraints, for every active role do.}}
> {{for ( UserRole role : session.getRoles())}}
> {
> {{String constraintType = Config.getInstance().getProperty( role.getName()
> );}}
> {{// Is there a runtime constraint placed on this role activation?}}
> {{if ( StringUtils.isNotEmpty( constraintType ))}}
> {{{}}
> {{ String userProp = session.getUser().getProperty( role.getName() );}}
> {{ // user have prop associated with the runtime constraint on this
> particular role?}}
> {{ if( StringUtils.isNotEmpty( userProp ))}}
> {{ {}}
> {{ // passed by caller in a prop with keyName in the constraintType for
> the role.}}
> {{ String constraintValue = user.getProperty( constraintType );}}
> {{ // Is the activated role's valid per the value passed in by the
> caller?}}
> {{ if ( !userProp.equalsIgnoreCase( constraintValue ) )}}
> {{ {}}
> {{ //session.getRoles().remove( role );}}
> {{ LOG.info( "deactivate role {}", role.getName() );}}
> {
> {{ else}}
> {{ {}}
> {{ //session.getRoles().remove( role );}}
> {{ LOG.info( "deactivate caller not set constraint for role {}",
> role.getName() );}}
> }
> }
> }
>
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