cc-ci/tests/lasuite-docs/functional/test_oidc_with_keycloak.py

"""lasuite-docs — Q2 SSO-flow acceptance test (operator-2026-05-28 SSO-dep plan).

Refactored to the refined SSO-dep model:
- The orchestrator deploys a per-run keycloak dep AFTER generic tiers and provisions a fresh
  realm/client/user via `harness.sso.setup_keycloak_realm`. The creds are written to
  `$CCCI_DEPS_FILE` (read here via the `deps_creds` fixture).
- This test no longer calls `setup_keycloak_realm` itself — that's the orchestrator's job in
  the setup_custom_tests step. We just consume the credentials and exercise the OIDC flow.
- Marked `@pytest.mark.requires_deps` so if setup_custom_tests failed, this test SKIPs with a
  clear `deps-not-ready` reason rather than red-flagging a non-recipe failure.
"""

from __future__ import annotations

import base64
import json
import os
import re
import sys
import time

import pytest

sys.path.insert(0, os.path.join(os.path.dirname(__file__), "..", "..", "..", "runner"))
from harness import sso  # noqa: E402


def _b64url_decode(seg: str) -> bytes:
    pad = "=" * ((4 - len(seg) % 4) % 4)
    return base64.urlsafe_b64decode(seg + pad)


@pytest.mark.requires_deps
def test_oidc_password_grant_against_dep_keycloak(live_app, deps_creds):
    """The dep keycloak issues a JWT for the pre-provisioned test user via OIDC password grant."""
    assert "keycloak" in deps_creds, (
        f"keycloak creds not in deps_creds; got {list(deps_creds.keys())}. "
        "setup_custom_tests should have populated this."
    )
    kc = deps_creds["keycloak"]

    # Sanity-check the creds shape — orchestrator-written
    assert kc["domain"]
    # WC1: realm is per-run namespaced "<parent>-<6hex>" so concurrent dependents never collide.
    assert re.fullmatch(r"lasuite-docs-[0-9a-f]{6}", kc["realm"]), (
        f"realm {kc['realm']!r} not the per-run namespaced form lasuite-docs-<6hex>"
    )
    assert kc["client_id"] == "lasuite-docs"
    assert isinstance(kc["client_secret"], str) and len(kc["client_secret"]) >= 16
    assert isinstance(kc["password"], str) and len(kc["password"]) >= 16

    # Build a creds dict in the shape sso.* primitives expect
    creds = {
        "provider": "keycloak",
        "provider_domain": kc["domain"],
        "realm": kc["realm"],
        "client_id": kc["client_id"],
        "client_secret": kc["client_secret"],
        "user": kc["user"],
        "password": kc["password"],
        "email": kc["email"],
        "discovery_url": kc["discovery_url"],
        "token_url": kc["token_url"],
        "auth_url": kc["auth_url"],
        "userinfo_url": kc["userinfo_url"],
    }

    # OIDC discovery endpoint advertises the realm
    discovery = sso.assert_discovery_endpoint(creds)
    expected_iss = f"https://{kc['domain']}/realms/{kc['realm']}"
    assert discovery.get("issuer") == expected_iss
    assert discovery.get("token_endpoint", "").startswith(expected_iss + "/")
    assert discovery.get("authorization_endpoint", "").startswith(expected_iss + "/")

    # Password grant → real JWT
    token = sso.oidc_password_grant(creds)
    assert isinstance(token, str) and token.count(".") == 2, (
        f"access_token is not a JWT: {token!r}"
    )
    payload = json.loads(_b64url_decode(token.split(".")[1]))
    assert payload.get("iss") == expected_iss, f"JWT iss={payload.get('iss')!r} != {expected_iss!r}"
    assert payload.get("azp") == kc["client_id"], (
        f"JWT azp={payload.get('azp')!r} != {kc['client_id']!r}"
    )
    assert payload.get("typ") == "Bearer", f"JWT typ={payload.get('typ')!r} != 'Bearer'"
    exp = payload.get("exp")
    assert isinstance(exp, int) and exp > time.time(), (
        f"JWT exp={exp!r} not a future timestamp (now={time.time():.0f})"
    )