Mutual TLS authentication provides a better way to prevent unauthorized access to APISIX.
The clients will provide their certificates to the server and the server will check whether the cert is signed by the supplied CA and decide whether to serve the request.
Generate self-signed key pairs, including ca, server, client key pairs.
Modify configuration items in conf/config.yaml:
port_admin: 9180 https_admin: true admin_api_mtls: admin_ssl_ca_cert: "/data/certs/mtls_ca.crt" # Path of your self-signed ca cert. admin_ssl_cert: "/data/certs/mtls_server.crt" # Path of your self-signed server side cert. admin_ssl_cert_key: "/data/certs/mtls_server.key" # Path of your self-signed server side key.
apisix init
apisix reload
Please replace the following certificate paths and domain name with your real ones.
curl --cacert /data/certs/mtls_ca.crt --key /data/certs/mtls_client.key --cert /data/certs/mtls_client.crt https://admin.apisix.dev:9180/apisix/admin/routes -H 'X-API-KEY: edd1c9f034335f136f87ad84b625c8f1'
You need to build APISIX-Openresty and configure etcd.tls section if you want APISIX to work on an etcd cluster with mTLS enabled.
etcd: tls: cert: /data/certs/etcd_client.pem # path of certificate used by the etcd client key: /data/certs/etcd_client.key # path of key used by the etcd client
Using mTLS is a way to verify clients cryptographically. It is useful and important in cases where you want to have encrypted and secure traffic in both directions.
When configuring ssl, use parameter client.ca and client.depth to configure the root CA that signing client certificates and the max length of certificate chain. Please refer to Admin API for details.
Here is an example Python script to create SSL with mTLS (id is 1, changes admin API url if needed):
#!/usr/bin/env python # coding: utf-8 # save this file as ssl.py import sys # sudo pip install requests import requests if len(sys.argv) <= 4: print("bad argument") sys.exit(1) with open(sys.argv[1]) as f: cert = f.read() with open(sys.argv[2]) as f: key = f.read() sni = sys.argv[3] api_key = "edd1c9f034335f136f87ad84b625c8f1" # Change it reqParam = { "cert": cert, "key": key, "snis": [sni], } if len(sys.argv) >= 5: print("Setting mTLS") reqParam["client"] = {} with open(sys.argv[4]) as f: clientCert = f.read() reqParam["client"]["ca"] = clientCert if len(sys.argv) >= 6: reqParam["client"]["depth"] = int(sys.argv[5]) resp = requests.put("http://127.0.0.1:9080/apisix/admin/ssl/1", json=reqParam, headers={ "X-API-KEY": api_key, }) print(resp.status_code) print(resp.text)
Create SSL:
./ssl.py ./server.pem ./server.key 'mtls.test.com' ./client_ca.pem 10 # test it curl --resolve 'mtls.test.com:<APISIX_HTTPS_PORT>:<APISIX_URL>' "https://<APISIX_URL>:<APISIX_HTTPS_PORT>/hello" -k --cert ./client.pem --key ./client.key
Please make sure that the SNI fits the certificate domain.
Sometimes the upstream requires mTLS. In this situation, the APISIX acts as the client, it needs to provide client certificate to communicate with upstream.
When configuring upstreams, we could use parameter tls.client_cert and tls.client_key to configure the client certificate APISIX used to communicate with upstreams. Please refer to Admin API for details.
This feature requires APISIX to run on APISIX-OpenResty.
Here is a similar Python script to patch a existed upstream with mTLS (changes admin API url if needed):
#!/usr/bin/env python # coding: utf-8 # save this file as patch_upstream_mtls.py import sys # sudo pip install requests import requests if len(sys.argv) <= 4: print("bad argument") sys.exit(1) with open(sys.argv[2]) as f: cert = f.read() with open(sys.argv[3]) as f: key = f.read() id = sys.argv[1] api_key = "edd1c9f034335f136f87ad84b625c8f1" # Change it reqParam = { "tls": { "client_cert": cert, "client_key": key, }, } resp = requests.patch("http://127.0.0.1:9080/apisix/admin/upstreams/"+id, json=reqParam, headers={ "X-API-KEY": api_key, }) print(resp.status_code) print(resp.text)
Patch existed upstream with id testmtls:
./patch_upstream_mtls.py testmtls ./client.pem ./client.key