REST is stateless
REST stands for Representational State Transfer and this architecture was defined by Roy Thomas Fielding in the chapter 5 of his dissertation.
Fielding defined a set of constraints for the REST architecture. One of these constraints is the stateless communication between client and server, defined as following (the highlights are not present in his dissertation):
[...] each request from client to server must contain all of the information necessary to understand the request, and cannot take advantage of any stored context on the server. Session state is therefore kept entirely on the client. [...]
So, if you keep the session state on the server, you break the stateless constraint. Hence, it's not REST. In REST you won't have a session on the server and, consequently, you won't have session identifiers.
Each request must contain all data to be processed
Each request from client to server must contain all of the necessary information to be understood by the server. With it, you are not depending on any session context stored on the server.
When accessing protected resources that require authentication, for example, each request must contain all necessary data to be properly authenticated/authorized. It means the authentication will be performed for each request.
Have a look at this quote from the RFC 7235 regarding considerations for new authentication schemes:
5.1.2. Considerations for New Authentication Schemes
There are certain aspects of the HTTP Authentication Framework that
put constraints on how new authentication schemes can work:
- HTTP authentication is presumed to be stateless: all of the
information necessary to authenticate a request MUST be provided
in the request, rather than be dependent on the server remembering
prior requests. [...]
And authentication data (credentials) should belong to the standard HTTP
Authorization header. From the RFC 7235:
Authorization header field allows a user agent to authenticate
itself with an origin server -- usually, but not necessarily, after
401 (Unauthorized) response. Its value consists of
credentials containing the authentication information of the user
agent for the realm of the resource being requested.
Authorization = credentials
Please note that the name of this HTTP header is unfortunate because it carries authentication data instead of authorization. Anyways, this is the standard header for sending credentials.
Token based authentication
When performing a token based authentication, the tokens are your credentials. In this approach, your hard credentials (username and password) are exchanged for a token that is sent in each request. Again, the authentication must be performed for every request, so you won't take advantage of any stored context on the server.
It's perfectly valid storing your tokens somewhere in your server. And it won't break the stateless constraint of the REST architecture.
Basically, the tokens can be opaque (which reveals no details other than the value itself, like a random string) or can be self-contained (like JSON Web Token):
Random String: A token can be issued by generating a random string and persisting it to a database with an expiration date and with a user identifier associated to it.
JSON Web Token (JWT): Defined by the RFC 7519, it's a standard method for representing claims securely between two parties. JWT is a self-contained token and enables you to store a user identifier, an expiration date and whatever you want (but don't store passwords) in a payload, which is a JSON encoded as Base64. The payload can be read by the client and the integrity of the token can be easily checked by verifying its signature on the server. You won't need to persist JWT tokens if you don't need to track them. Althought, by persisting the tokens, you will have the possibility of invalidating and revoking the access of them. To find some great resources to work with JWT, have a look at http://jwt.io.
There are many databases where you can persist your tokens. Depending on your requirements, you can explore different solutions such as relational databases, key-value stores or document stores.