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https://github.com/meta-llama/llama-stack.git
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79851d93aa
# What does this PR do?
This commit adds a new authentication system to the Llama Stack server
with support for Kubernetes and custom authentication providers. Key
changes include:
- Implemented KubernetesAuthProvider for validating Kubernetes service
account tokens
- Implemented CustomAuthProvider for validating tokens against external
endpoints - this is the same code that was already present.
- Added test for Kubernetes
- Updated server configuration to support authentication settings
- Added documentation for authentication configuration and usage
The authentication system supports:
- Bearer token validation
- Kubernetes service account token validation
- Custom authentication endpoints
## Test Plan
Setup a Kube cluster using Kind or Minikube.
Run a server with:
```
server:
port: 8321
auth:
provider_type: kubernetes
config:
api_server_url: http://url
ca_cert_path: path/to/cert (optional)
```
Run:
```
curl -s -L -H "Authorization: Bearer $(kubectl create token my-user)" http://127.0.0.1:8321/v1/providers
```
Or replace "my-user" with your service account.
Signed-off-by: Sébastien Han <seb@redhat.com>
131 lines
5.1 KiB
Python
131 lines
5.1 KiB
Python
# Copyright (c) Meta Platforms, Inc. and affiliates.
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# All rights reserved.
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#
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# This source code is licensed under the terms described in the LICENSE file in
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# the root directory of this source tree.
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import json
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import httpx
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from llama_stack.distribution.server.auth_providers import AuthProviderConfig, create_auth_provider
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from llama_stack.log import get_logger
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logger = get_logger(name=__name__, category="auth")
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class AuthenticationMiddleware:
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"""Middleware that authenticates requests using configured authentication provider.
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This middleware:
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1. Extracts the Bearer token from the Authorization header
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2. Uses the configured auth provider to validate the token
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3. Extracts user attributes from the provider's response
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4. Makes these attributes available to the route handlers for access control
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The middleware supports multiple authentication providers through the AuthProvider interface:
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- Kubernetes: Validates tokens against the Kubernetes API server
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- Custom: Validates tokens against a custom endpoint
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Authentication Request Format for Custom Auth Provider:
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```json
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{
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"api_key": "the-api-key-extracted-from-auth-header",
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"request": {
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"path": "/models/list",
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"headers": {
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"content-type": "application/json",
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"user-agent": "..."
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// All headers except Authorization
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},
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"params": {
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"limit": ["100"],
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"offset": ["0"]
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// Query parameters as key -> list of values
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}
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}
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}
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```
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Expected Auth Endpoint Response Format:
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```json
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{
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"access_attributes": { // Structured attribute format
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"roles": ["admin", "user"],
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"teams": ["ml-team", "nlp-team"],
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"projects": ["llama-3", "project-x"],
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"namespaces": ["research"]
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},
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"message": "Optional message about auth result"
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}
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```
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Token Validation:
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Each provider implements its own token validation logic:
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- Kubernetes: Uses TokenReview API to validate service account tokens
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- Custom: Sends token to custom endpoint for validation
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Attribute-Based Access Control:
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The attributes returned by the auth provider are used to determine which
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resources the user can access. Resources can specify required attributes
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using the access_attributes field. For a user to access a resource:
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1. All attribute categories specified in the resource must be present in the user's attributes
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2. For each category, the user must have at least one matching value
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If the auth provider doesn't return any attributes, the user will only be able to
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access resources that don't have access_attributes defined.
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"""
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def __init__(self, app, auth_config: AuthProviderConfig):
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self.app = app
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self.auth_provider = create_auth_provider(auth_config)
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async def __call__(self, scope, receive, send):
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if scope["type"] == "http":
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headers = dict(scope.get("headers", []))
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auth_header = headers.get(b"authorization", b"").decode()
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if not auth_header or not auth_header.startswith("Bearer "):
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return await self._send_auth_error(send, "Missing or invalid Authorization header")
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token = auth_header.split("Bearer ", 1)[1]
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# Validate token and get access attributes
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try:
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access_attributes = await self.auth_provider.validate_token(token, scope)
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except httpx.TimeoutException:
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logger.exception("Authentication request timed out")
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return await self._send_auth_error(send, "Authentication service timeout")
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except ValueError as e:
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logger.exception("Error during authentication")
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return await self._send_auth_error(send, str(e))
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except Exception:
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logger.exception("Error during authentication")
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return await self._send_auth_error(send, "Authentication service error")
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# Store attributes in request scope for access control
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if access_attributes:
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user_attributes = access_attributes.model_dump(exclude_none=True)
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else:
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logger.warning("No access attributes, setting namespace to token by default")
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user_attributes = {
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"namespaces": [token],
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}
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# Store attributes in request scope
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scope["user_attributes"] = user_attributes
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logger.debug(f"Authentication successful: {len(scope['user_attributes'])} attributes")
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return await self.app(scope, receive, send)
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async def _send_auth_error(self, send, message):
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await send(
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{
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"type": "http.response.start",
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"status": 401,
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"headers": [[b"content-type", b"application/json"]],
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}
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)
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error_msg = json.dumps({"error": {"message": message}}).encode()
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await send({"type": "http.response.body", "body": error_msg})
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