JSON web token (JWT) verification
JSON web token (JWT) is an open standard (RFC 7519) that defines a compact and self-contained method for securely transmitting JSON-encoded information between parties. At Akamai, you can use JWTs to quickly identify and authorize OTA Updates and Edge Connect clients who send requests to origin servers.
A JWT contains information about an entity in the form of claims and combines three elements encapsulated in JSON objects:
- Contains information about the media type of the JWT and the hashing algorithm used for encoding the JWT.
- Contains the actual statements represented as public claims that two parties exchange. Currently, the IoT products support the use of pre-defined reserved and private claims.
- Ensures the proper identification of the request sender and protects the request from being tampered with. Note that the IoT products support verifying JWT signatures generated with the RS256 and ES256 signing algorithms. For more information, see Signing algorithms.
JWTs are stateless, which means that incoming JWT requests can be validated on the spot. You don’t have to store session states on the server and load user information from a database or cache. This immediate validation increases the scalability of your system and provides an overall faster client-server experience.
Akamai verifies JWT signatures at the edge, which negates the need to go back to origin for verification and offloads your identity provider. This behavior also contributes to improved security by allowing edge servers to filter out unauthorized requests before they can reach your origin infrastructure.
The IoT products support the use of RSA private/public key pairs for JWT signature verification. This ensures the data in the JWT payload has not been modified by third parties. Your identity provider first signs a JWT by using a private key. The IoT products then verify the integrity of the JWT by using a public key that you upload in the JWT Access Control application.
Based on your JWT claim configuration, the IoT products check the token for the presence of claims and validates the value of each present claim. If the optional claims are present and their expected values are correct, JWT validation succeeds and the system allows the entity issuing the JWT to access the requested resources.
For more information on the JWT standard, see the JWT specification.
- RSA Digital Signature Algorithm with the SHA–256 hash function. It’s an asymmetric algorithm that uses a pair of RSA private and public keys to generate and validate JWT signatures. For IoT, you can use only RSA keys with a key length between 1024 and 4096 bits. See JWT algorithms.
- Elliptic Curve Digital Signature Algorithm with the P–256 curve and the SHA–256 hash function. It’s an asymmetric algorithm that uses a pair of ECDSA private and public keys to generate and validate JWT signatures. For IoT, you can use only ECDSA keys using the P–256 (secp256k1) curve. See JWT algorithms.