I'm currently reading a lot about access control possibilites/mechanisms that can be used to protect resources in an application or web application. There's ACL, RBAC, ABAC and many other concepts out there.
Assuming I have developed a simple webservice that returns knowledgebase articles on a route like '/api/article'. The 'controller' connects to the database and fetches all articles and returns them as XML or JSON.
Now I would like to have control over which article in the database is accessible for which user or group. So for instance if user 'peter' accesses the route '/api/article' with his credentials, the webservice shall return only articles that are visible for 'peter'.
I would want to use ACL to control what each user/group can read/write/delete. But what I don't quite understand:
Where does one enforce the access control? Do I just fetch all records in the controller if a user accesses the route '/api/articles' and check each single record against an access control list (that doesn't sound very good performance wise)? Or is there a way that the 'SELECT' statement to the database only return the records that can actually be seen by that specific user?
I really tried hard to find more information on that topic, and there is a lot about different access control mechanisms, but not about where and how the actual enforcement happens...and it even get's more complex if it comes to other actions like modification, deletion and so on...
This is really a matter of implementation and everyone does it its own way. It also depends on the nature of the data, particularly on the size of your authorization (do your have 5 roles and users are attached to them or does each user have a specific set of articles he can access, different for each user - for instance)
If you do not want to make the processing on the controller, you could store the authorization information in your database, in a table which links a user to a set of KB articles, or a role (which would then be reflected in the article). In that case your SELECT query would just pass the authenticated user ID. This requires that the maintenance of the relationship is done of the database, which may not be obvious.
Alternatively you can store the ACL on the controller and build a query from there - for specific articles or groups of articles.
Getting all the articles and checking them on the controller is not a good idea (as you mention), DBs have been designed also to avoid such issues.
I have been trying to implement an authorisation scenario in my loopback architecture, I am well aware of the default authorisation that is being provided by loopback, but I'm using auth0 as my user management platform.
I am having user type in the auth0 metadata and now I want to allow certain HTTP methods on those particular loopback entities based on the attribute in the user object.
There might also be scenarios where for certain users I will have to hide a few properties of a model while open them up and show in case of others. If there is any other framework that might serve my purpose I am happy to restructure the whole system. Any suggestions would be helpful.
I was trying to find it in docs or anywhere on the web but I did not find.
What I am asking about?
I am building website for multiple users. Frontend is not important, back backend API is being build in Loopback.
Every user will be assigned to some, let's name it GROUP.
Group content will be then exposed on subdomain but it is not important now.
Users will be kind of admins of their group.
I will have plenty of different models, but I will always have to protect user from accessing elements which not belongs to his group.
How should I do it? I think it will be some middleware but I do not know how to do it properly.
Of course, every user and every element have field "group_id".
I am also trying to find a good solution... I did find this npm package that looks worth a try: https://www.npmjs.com/package/loopback-component-access-groups
Here is a short description of what the package is used for:
"This loopback component enables you to add multi-tenant style access controls to a loopback application. It enables you to restrict access to model data based on a user's roles within a specific context."
I'm struggeling with the same problem, and I did not yet find a satisfatory response.
My workaround is explained in this question. I've got my user ID and with this, I retrieve the data I need to restrict the access. Then I alter the query in accordance with fetched data.
What is the preferred way of integrating a custom membership provider with Orchard?
I have seen a couple of posts around implementing a new IMembershipService and IUserService (from Orchard.Users) and then there other modules such as OpenAuthentication which seem to do a lot more than that (but still uses the UserPart??).
We already have an ASP.NET Membership provider written, can this be integrated as is?
Custom implementation of IMembershipService is a way to go if you don't want to use the default Orchard.Users module at all. Useful when you still want to do forms authentication, but just store the auth data somewhere else, not in UserPart.
If you would like to create a totally custom authentication scheme, that overrides the form-based default one (username + password), override IAuthenticationService.
So, generally speaking:
IMembershipProvider is about authentication data management (create/retrieve users)
IAuthenticationProvider is about performing the authentication (sign in/out/get current user etc.)
Depending on your needs you can override either one or both.
The common auth modules, like the OpenAuth one, add additional authentication options to the existing default one without actually replacing it, IIRC.
I'm trying to come up with a good way to do authentication and authorization. Here is what I have. Comments are welcome and what I am hoping for.
I have php on a mac server.
I have Microsoft AD for user accounts.
I am using LDAP to query the AD when the user logs in to the Intranet.
My design question concerns what to do with that AD information. It was suggested by a co-worker to use a naming convention in the AD to avoid an intermediary database. For example, I have a webpage, personnel_payroll.php. I get the url and with the URL and the AD user query the AD for the group personnel_payroll. If the logged in user is in that group they are authorized to view the page. I would have to have a group for every page or at least user domain users for the generic authentication.
It gets more tricky with controls on a page. For example, say there is a button on a page or a grid, only managers can see this. I would need personnel_payroll_myButton as a group in my AD. If the user is in that group, they get the button. I could have many groups if a page had several different levels of authorizations.
Yes, my AD would be huge, but if I don't do this something else will, whether it is MySQL (or some other db), a text file, the httpd.conf, etc.
I would have a generic php funciton IsAuthorized for the various items that passes the url or control name and the authenticated user.
Is there something inherently wrong with using a naming convention for security like this and using the AD as that repository? I have to keep is somewhere. Why not AD?
Thank you for comments.
EDIT: Do you think this scheme would result in super slow pages because of the LDAP calls?
EDIT: I cannot be the first person to ever think of this. Any thoughts on this are appreciated.
EDIT: Thank you to everyone. I am sorry that I could not give you all more points for answering. I had to choose one.
I wonder if there might be a different way of expressing and storing the permissions that would work more cleanly and efficiently.
Most applications are divided into functional areas or roles, and permissions are assigned based on those [broad] areas, as opposed to per-page permissions. So for example, you might have permissions like:
UseApplication
CreateUser
ResetOtherUserPassword
ViewPayrollData
ModifyPayrollData
Or with roles, you could have:
ApplicationUser
ApplicationAdmin
PayrollAdmin
It is likely that the roles (and possibly the per-functionality permissions) may already map to data stored in Active Directory, such as existing AD Groups/Roles. And if it doesn't, it will still be a lot easier to maintain than per-page permissions. The permissions can be maintained as user groups (a user is either in a group, so has the permission, or isn't), or alternately as a custom attribute:
dn: cn=John Doe,dc=example,dc=com
objectClass: top
objectClass: person
objectClass: webAppUser
cn: John Doe
givenName: John
...
myApplicationPermission: UseApplication
myApplicationPermission: ViewPayrollData
This has the advantage that the schema changes are minimal. If you use groups, AD (and every other LDAP server on the planet) already has that functionality, and if you use a custom attribute like this, only a single attribute (and presumably an objectClass, webAppUser in the above example) would need to be added.
Next, you need to decide how to use the data. One possibility would be to check the user's permissions (find out what groups they are in, or what permissions they have been granted) when they log in and store them on the webserver-side in their session. This has the problem that permissions changes only take effect at user-login time and not immediately. If you don't expect permissions to change very often (or while a user is concurrently using the system) this is probably a reasonable way to go. There are variations of this, such as reloading the user's permissions after a certain amount of time has elapsed.
Another possibility, but with more serious (negative) performance implications is to check permissions as needed. In this case you end up hitting the AD server more frequently, causing increased load (both on the web server and AD server), increased network traffic, and higher latency/request times. But you can be sure that the permissions are always up-to-date.
If you still think that it would be useful to have individual pages and buttons names as part of the permissions check, you could have a global "map" of page/button => permission, and do all of your permissions lookups through that. Something (completely un-tested, and mostly pseudocode):
$permMap = array(
"personnel_payroll" => "ViewPayroll",
"personnel_payroll_myButton" => "EditPayroll",
...
);
function check_permission($elementName) {
$permissionName = $permMap[$elementName];
return isUserInLdapGroup($user,$permissionName);
}
The idea of using AD for permissions isn't flawed unless your AD can't scale. If using a local database would be faster/more reliable/flexible, then use that.
Using the naming convention for finding the correct security roles is pretty fragile, though. You will inevitably run into situations where your natural mapping doesn't correspond to the real mapping. Silly things like you want the URL to be "finbiz", but its already in AD as "business-finance" - do you duplicate the group and keep them synchronized, or do you do the remapping within your application...? Sometimes its as simple as "FinBiz" vs "finbiz".
IMO, its best to avoid that sort of problem to begin with, e.g, use group "185" instead of "finbiz" or "business-finance", or some other key that you have more control over.
Regardless of how your getting your permissions, if end up having to cache it, you'll have to deal with stale cache data.
If you have to use ldap, it would make more sense to create a permissions ou (or whatever the AD equivalent of "schema" is) so that you can map arbitrary entities to those permissions. Cache that data, and you should ok.
Edit:
Part of the question seems to be to avoid an intermediary database - why not make the intermediary the primary? Sync the local permissions database to AD regularly (via a hook or polling), and you can avoid two important issues 1) fragile naming convention, 2) external datasource going down.
You will have very slow pages this way (it sounds to me like you'll be re-querying AD LDAP every time a user navigates to figure out what he can do), unless you implement caching of some kind, but then you may run into volatile permission issues (revoked/added permissions on AD while you didn't know about it).
I'd keep permissions and such separate and not use AD as the repository to manage your application specific authorization. Instead use a separate storage provider which will be much easier to maintain and extend as necessary.
Is there something inherently wrong with using a naming convention for security like
this and using the AD as that repository? I have to keep is somewhere. Why not AD?
Logically, using groups for authorization in LDAP/AD is just what it was designed for. An LDAP query of a specific user should be reasonably fast.
In practice, AD can be very unpredictable about how long data changes take to replicate between servers. If someday your app ends up in a big forest with domain controllers distributed all over the continent, you will really regret putting fine-grained data into there. Seriously, it can take an hour for that stuff to replicate for some customers I've worked with. Mysterious situations arise where things magically start working after servers are rebooted and the like.
It's fine to use a directory for 'myapp-users', 'managers', 'payroll' type groups. Try to avoid repeated and wasteful LDAP lookups.
If you were on Windows, one possibility is to create a little file on the local disk for each authorized item. This gives you 'securable objects'. Your app can then impersonate the user and try to open the file. This leverages MS's big investment over the years on optimizing this stuff. Maybe you can do this on the Mac somehow.
Also, check out Apache's mod_auth_ldap. It is said to support "Complex authorization policies can be implemented by representing the policy with LDAP filters."
I don't know what your app does that it doesn't use some kind of database for stuff. Good for you for not taking the easy way out! Here's where a flat text file with JSON can go a long way.
It seems what you're describing is an Access Control List (ACL) to accompany authentication, since you're going beyond 'groups' to specific actions within that group. To create an ACL without a database separate from your authentication means, I'd suggest taking a look at the Zend Framework for PHP, specifically the ACL module.
In your AD settings, assign users to groups (you mention "managers", you'd likely have "users", "administrators", possibly some department-specific groups, and a generic "public" if a user is not part of a group). The Zend ACL module allows you to define "resources" (correlating to page names in your example), and 'actions' within those resources. These are then saved in the session as an object that can be referred to to determine if a user has access. For example:
<?php
$acl = new Zend_Acl();
$acl->addRole(new Zend_Acl_Role('public'));
$acl->addRole(new Zend_Acl_Role('users'));
$acl->addRole(new Zend_Acl_Role('manager'), 'users');
$acl->add(new Zend_Acl_Resource('about')); // Public 'about us' page
$acl->add(new Zend_Acl_Resource('personnel_payroll')); // Payroll page from original post
$acl->allow('users', null, 'view'); // 'users' can view all pages
$acl->allow('public', 'about', 'view'); // 'public' can only view about page
$acl->allow('managers', 'personnel_payroll', 'edit'); // 'managers' can edit the personnel_payroll page, and can view it since they inherit permissions of the 'users' group
// Query the ACL:
echo $acl->isAllowed('public', 'personnel_payroll', 'view') ? "allowed" : "denied"; // denied
echo $acl->isAllowed('users', 'personnel_payroll', 'view') ? "allowed" : "denied"; // allowed
echo $acl->isAllowed('users', 'personnel_payroll', 'edit') ? "allowed" : "denied"; // denied
echo $acl->isAllowed('managers', 'personnel_payroll', 'edit') ? "allowed" : "denied"; // allowed
?>
The benefit to separating the ACL from the AD would be that as the code changes (and what "actions" are possible within the various areas), granting access to them is in the same location, rather than having to administrate the AD server to make the change. And you're using an existing (stable) framework so you don't have to reinvent the wheel with your own isAuthorized function.