HTTP API Authorization
Anything that exposes an HTTP API (whether an individual microservice or an application as a whole) needs to control who can run those APIs and when. OPA makes it easy to write fine-grained, context-aware policies to implement API authorization.
Goals
In this tutorial, you’ll use a simple HTTP web server that accepts any HTTP GET request that you issue and echoes the OPA decision back as text. Both OPA and the web server will be run as containers.
For this tutorial, our desired policy is:
- People can see their own salaries (
GET /finance/salary/{user}
is permitted for{user}
) - A manager can see their direct reports’ salaries (
GET /finance/salary/{user}
is permitted for{user}
’s manager)
Prerequisites
This tutorial requires Docker Compose to run a demo web server along with OPA.
Steps
1. Bootstrap the tutorial environment using Docker Compose.
First, create a docker-compose.yml
file that runs OPA and the demo web server.
docker-compose.yml:
version: '2'
services:
opa:
image: openpolicyagent/opa:edge
ports:
- 8181:8181
# WARNING: OPA is NOT running with an authorization policy configured. This
# means that clients can read and write policies in OPA. If you are
# deploying OPA in an insecure environment, be sure to configure
# authentication and authorization on the daemon. See the Security page for
# details: https://www.openpolicyagent.org/docs/security.html.
command:
- "run"
- "--server"
- "--log-format=json-pretty"
- "--set=decision_logs.console=true"
api_server:
image: openpolicyagent/demo-restful-api:0.2
ports:
- 5000:5000
environment:
- OPA_ADDR=http://opa:8181
- POLICY_PATH=/v1/data/httpapi/authz
Then run docker-compose
to pull and run the containers.
docker-compose -f docker-compose.yml up
Every time the demo web server receives an HTTP request, it asks OPA to decide whether an HTTP API is authorized or not using a single RESTful API call. An example code is here, but the crux of the (Python) code is shown below.
# Grab basic information. We assume user is passed on a form.
http_api_user = request.form['user']
# Get the path as a list (removing leading and trailing /)
# Example: "/finance/salary/" will become ["finance", "salary"]
http_api_path_list = request.path.strip("/").split("/")
input_dict = { # create input to hand to OPA
"input": {
"user": http_api_user,
"path": http_api_path_list, # Ex: ["finance", "salary", "alice"]
"method": request.method # HTTP verb, e.g. GET, POST, PUT, ...
}
}
# ask OPA for a policy decision
# (in reality OPA URL would be constructed from environment)
rsp = requests.post("http://127.0.0.1:8181/v1/data/httpapi/authz", json=input_dict)
if rsp.json()["allow"]:
# HTTP API allowed
else:
# HTTP API denied
2. Load a policy into OPA.
In another terminal, create a policy that allows users to request their own salary as well as the salary of their direct subordinates.
example.rego:
package httpapi.authz
# bob is alice's manager, and betty is charlie's.
subordinates = {"alice": [], "charlie": [], "bob": ["alice"], "betty": ["charlie"]}
# HTTP API request
import input
default allow = false
# Allow users to get their own salaries.
allow {
some username
input.method == "GET"
input.path = ["finance", "salary", username]
input.user == username
}
# Allow managers to get their subordinates' salaries.
allow {
some username
input.method == "GET"
input.path = ["finance", "salary", username]
subordinates[input.user][_] == username
}
Then load the policy via OPA’s REST API.
curl -X PUT --data-binary @example.rego \
localhost:8181/v1/policies/example
3. Check that alice
can see her own salary.
The following command will succeed.
curl --user alice:password localhost:5000/finance/salary/alice
The webserver queries OPA to authorize the request. In the query, the webserver includes JSON data describing the incoming request.
{
"method": "GET",
"path": ["finance", "salary", "alice"],
"user": "alice"
}
When the webserver queries OPA it asks for a specific policy decision. In this
case, the integration is hardcoded to ask for /v1/data/httpapi/authz
. OPA
translates this URL path into a query:
data.httpapi.authz
The answer returned by OPA for the input above is:
{
"allow": true,
"subordinates": {
"alice": [],
"betty": [
"charlie"
],
"bob": [
"alice"
],
"charlie": []
}
}
4. Check that bob
can see alice
’s salary (because bob
is alice
’s manager.)
curl --user bob:password localhost:5000/finance/salary/alice
5. Check that bob
CANNOT see charlie
’s salary.
bob
is not charlie
’s manager, so the following command will fail.
curl --user bob:password localhost:5000/finance/salary/charlie
6. Change the policy.
Suppose the organization now includes an HR department. The organization wants members of HR to be able to see any salary. Let’s extend the policy to handle this.
example-hr.rego:
package httpapi.authz
import input
# Allow HR members to get anyone's salary.
allow {
input.method == "GET"
input.path = ["finance", "salary", _]
input.user == hr[_]
}
# David is the only member of HR.
hr = [
"david",
]
Upload the new policy to OPA.
curl -X PUT --data-binary @example-hr.rego \
http://localhost:8181/v1/policies/example-hr
For the sake of the tutorial we included manager_of
and hr
data directly
inside the policies. In real-world scenarios that information would be imported
from external data sources.
7. Check that the new policy works.
Check that david
can see anyone’s salary.
curl --user david:password localhost:5000/finance/salary/alice
curl --user david:password localhost:5000/finance/salary/bob
curl --user david:password localhost:5000/finance/salary/charlie
curl --user david:password localhost:5000/finance/salary/david
8. (Optional) Use JSON Web Tokens to communicate policy data.
OPA supports the parsing of JSON Web Tokens via the builtin function io.jwt.decode
.
To get a sense of one way the subordinate and HR data might be communicated in the
real world, let’s try a similar exercise utilizing the JWT utilities of OPA.
Shut down your docker-compose
instance from before with ^C
and then restart it to
ensure you are working with a fresh instance of OPA.
example.rego:
package httpapi.authz
default allow = false
# Allow users to get their own salaries.
allow {
some username
input.method == "GET"
input.path = ["finance", "salary", username]
token.payload.user == username
user_owns_token
}
# Allow managers to get their subordinate' salaries.
allow {
some username
input.method == "GET"
input.path = ["finance", "salary", username]
token.payload.subordinates[_] == username
user_owns_token
}
# Allow HR members to get anyone's salary.
allow {
input.method == "GET"
input.path = ["finance", "salary", _]
token.payload.hr == true
user_owns_token
}
# Ensure that the token was issued to the user supplying it.
user_owns_token { input.user == token.payload.azp }
# Helper to get the token payload.
token = {"payload": payload} {
[header, payload, signature] := io.jwt.decode(input.token)
}
And load it into OPA:
curl -X PUT --data-binary @example.rego \
localhost:8181/v1/policies/example
For convenience, we’ll want to store user tokens in environment variables (they’re really long).
export ALICE_TOKEN="eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VyIjoiYWxpY2UiLCJhenAiOiJhbGljZSIsInN1Ym9yZGluYXRlcyI6W10sImhyIjpmYWxzZX0.rz3jTY033z-NrKfwrK89_dcLF7TN4gwCMj-fVBDyLoM"
export BOB_TOKEN="eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VyIjoiYm9iIiwiYXpwIjoiYm9iIiwic3Vib3JkaW5hdGVzIjpbImFsaWNlIl0sImhyIjpmYWxzZX0.n_lXN4H8UXGA_fXTbgWRx8b40GXpAGQHWluiYVI9qf0"
export CHARLIE_TOKEN="eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VyIjoiY2hhcmxpZSIsImF6cCI6ImNoYXJsaWUiLCJzdWJvcmRpbmF0ZXMiOltdLCJociI6ZmFsc2V9.EZd_y_RHUnrCRMuauY7y5a1yiwdUHKRjm9xhVtjNALo"
export BETTY_TOKEN="eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VyIjoiYmV0dHkiLCJhenAiOiJiZXR0eSIsInN1Ym9yZGluYXRlcyI6WyJjaGFybGllIl0sImhyIjpmYWxzZX0.TGCS6pTzjrs3nmALSOS7yiLO9Bh9fxzDXEDiq1LIYtE"
export DAVID_TOKEN="eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VyIjoiZGF2aWQiLCJhenAiOiJkYXZpZCIsInN1Ym9yZGluYXRlcyI6W10sImhyIjp0cnVlfQ.Q6EiWzU1wx1g6sdWQ1r4bxT1JgSHUpVXpINMqMaUDMU"
These tokens encode the same information as the policies we did before (bob
is alice
’s manager, betty
is charlie
’s, david
is the only HR member, etc).
If you want to inspect their contents, start up the OPA REPL and execute io.jwt.decode(<token here>, [header, payload, signature])
or open the example above in the Playground.
Let’s try a few queries (note: you may need to escape the ?
characters in the queries for your shell):
Check that charlie
can’t see bob
’s salary.
curl --user charlie:password localhost:5000/finance/salary/bob?token=$CHARLIE_TOKEN
Check that charlie
can’t pretend to be bob
to see alice
’s salary.
curl --user charlie:password localhost:5000/finance/salary/alice?token=$BOB_TOKEN
Check that david
can see betty
’s salary.
curl --user david:password localhost:5000/finance/salary/betty?token=$DAVID_TOKEN
Check that bob
can see alice
’s salary.
curl --user bob:password localhost:5000/finance/salary/alice?token=$BOB_TOKEN
Check that alice
can see her own salary.
curl --user alice:password localhost:5000/finance/salary/alice?token=$ALICE_TOKEN
Wrap Up
Congratulations for finishing the tutorial!
You learned a number of things about API authorization with OPA:
- OPA gives you fine-grained policy control over APIs once you set up the server to ask OPA for authorization.
- You write allow/deny policies to control which APIs can be executed by whom.
- You can import external data into OPA and write policies that depend on that data.
- You can use OPA data structures to define abstractions over your data.
The code for this tutorial can be found in the open-policy-agent/contrib repository.