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ensure_running() unconditionally recreated the bot-bottle-orchestrator container on every bottle launch, added so bind-mounted code changes take effect (the process never reloads). But the orchestrator's per-bottle egress auth tokens live only in its process memory (Orchestrator._tokens), by design never persisted to disk. So starting a second bottle recreated the container and silently dropped the FIRST bottle's already-injected token -- its next authed egress call 403s with "env var EGRESS_TOKEN_0 is unset", and it needs a full restart to recover. Now the orchestrator container is labeled with a content hash of its bind-mounted bot_bottle source, mirroring the gateway's existing image-staleness check. ensure_running only recreates on a hash mismatch (a real code change), so a bottle launch that isn't accompanied by a code change leaves a healthy orchestrator -- and every other active bottle's in-memory tokens -- alone. Fixes #381. Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
210 lines
8.9 KiB
Python
210 lines
8.9 KiB
Python
"""Orchestrator + gateway lifecycle (PRD 0070, docker slice).
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Runs the orchestrator control plane **as a container** on the shared gateway
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network, alongside the gateway container. This is the PRD's "virtualize the
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orchestrator": container↔container between the gateway and the orchestrator
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avoids the host firewall (which drops container→host traffic), and the gateway
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reaches the control plane by container name over docker DNS. The host CLI
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reaches it via a published loopback port.
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The orchestrator runs with the **register-only broker** — the *backend*
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launches agent containers (compose), so the orchestrator needs no docker
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socket. That keeps this control-plane container unprivileged; the host manages
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both containers. `ensure_running` is an idempotent singleton (fixed container
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names + the published port).
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"""
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from __future__ import annotations
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import hashlib
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import time
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import urllib.error
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import urllib.request
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from pathlib import Path
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from .. import log
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from ..docker_cmd import run_docker
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from ..paths import bot_bottle_root
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from .gateway import GATEWAY_IMAGE, GATEWAY_NETWORK, DockerGateway
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DEFAULT_PORT = 8099
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ORCHESTRATOR_NAME = "bot-bottle-orchestrator"
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ORCHESTRATOR_LABEL = "bot-bottle-orchestrator=1"
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# Baked onto the container as a label so `ensure_running` can tell whether the
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# running process is executing the *current* bind-mounted source — see
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# `_source_hash`.
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ORCHESTRATOR_SOURCE_HASH_LABEL = "bot-bottle-orchestrator-source-hash"
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# The repo root is bind-mounted into the control-plane container so
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# `python -m bot_bottle.orchestrator` resolves the package (the orchestrator
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# is stdlib-only, so the bundle image's python is enough).
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_REPO_ROOT = Path(__file__).resolve().parents[2]
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_APP_DIR = "/app"
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_ROOT_IN_CONTAINER = "/bot-bottle-root"
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_HEALTH_POLL_SECONDS = 0.25
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DEFAULT_STARTUP_TIMEOUT_SECONDS = 45.0
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_HEALTH_REQUEST_TIMEOUT_SECONDS = 1.0
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class OrchestratorStartError(RuntimeError):
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"""The orchestrator container did not become healthy within the timeout."""
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def _source_hash(repo_root: Path) -> str:
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"""Content hash of the orchestrator's bind-mounted Python source (the
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`bot_bottle` package the control-plane process imports). This only
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changes when the code that would actually run inside the container
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changes — `ensure_running` recreates the container on a mismatch and
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otherwise leaves a healthy one alone, so a bottle launch that isn't
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accompanied by a code change doesn't restart the process and drop every
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*other* active bottle's in-memory egress tokens (`Orchestrator._tokens`
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in `service.py`, never persisted to disk by design)."""
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h = hashlib.sha256()
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for path in sorted((repo_root / "bot_bottle").rglob("*.py")):
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h.update(str(path.relative_to(repo_root)).encode())
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h.update(path.read_bytes())
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return h.hexdigest()
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class OrchestratorService:
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"""Manages the orchestrator control-plane container + the shared gateway.
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Callers only need `ensure_running()` + `url`."""
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def __init__(
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self,
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*,
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port: int = DEFAULT_PORT,
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network: str = GATEWAY_NETWORK,
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image: str = GATEWAY_IMAGE,
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repo_root: Path = _REPO_ROOT,
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host_root: Path | None = None,
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) -> None:
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self.port = port
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self.network = network
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self.image = image
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self._repo_root = repo_root
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self._host_root = host_root or bot_bottle_root()
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@property
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def url(self) -> str:
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"""Host-side control-plane URL (published loopback port)."""
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return f"http://127.0.0.1:{self.port}"
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@property
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def internal_url(self) -> str:
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"""Control-plane URL as the gateway container reaches it — by name over
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docker DNS on the shared network. This is the gateway's
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BOT_BOTTLE_ORCHESTRATOR_URL."""
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return f"http://{ORCHESTRATOR_NAME}:{self.port}"
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def is_healthy(self, *, timeout: float = _HEALTH_REQUEST_TIMEOUT_SECONDS) -> bool:
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try:
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with urllib.request.urlopen(f"{self.url}/health", timeout=timeout) as resp:
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return resp.status == 200
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except (urllib.error.URLError, TimeoutError, OSError):
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return False
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def _container_running(self, name: str) -> bool:
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proc = run_docker(["docker", "ps", "--filter", f"name=^/{name}$", "--format", "{{.Names}}"])
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return name in proc.stdout.split()
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def _run_orchestrator_container(self, source_hash: str) -> None:
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"""Start the control-plane container (idempotent: clears a stale
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fixed-name container first). Register-only broker → no docker socket.
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Labels the container with `source_hash` so a later `ensure_running`
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can detect a real code change (see `_source_hash`)."""
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run_docker(["docker", "rm", "--force", ORCHESTRATOR_NAME])
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proc = run_docker([
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"docker", "run", "--detach",
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"--name", ORCHESTRATOR_NAME,
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"--label", ORCHESTRATOR_LABEL,
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"--label", f"{ORCHESTRATOR_SOURCE_HASH_LABEL}={source_hash}",
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"--network", self.network,
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# Host CLI reaches the control plane here; bound to loopback so it
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# is not exposed on the host's external interfaces.
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"--publish", f"127.0.0.1:{self.port}:{self.port}",
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"--volume", f"{self._repo_root}:{_APP_DIR}:ro",
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"--workdir", _APP_DIR,
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# Persist the registry DB on the host (sole-owner: only the
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# orchestrator opens bot-bottle.db).
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"--volume", f"{self._host_root}:{_ROOT_IN_CONTAINER}",
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"--env", f"BOT_BOTTLE_ROOT={_ROOT_IN_CONTAINER}",
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"--entrypoint", "python3",
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self.image,
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"-m", "bot_bottle.orchestrator",
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"--host", "0.0.0.0", "--port", str(self.port), "--broker", "stub",
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])
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if proc.returncode != 0:
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raise OrchestratorStartError(
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f"orchestrator container failed to start: {proc.stderr.strip()}"
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)
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def _gateway(self) -> DockerGateway:
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return DockerGateway(self.image, network=self.network, orchestrator_url=self.internal_url)
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def _orchestrator_source_current(self, current_hash: str) -> bool:
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"""True iff the running orchestrator container was created from the
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*current* bind-mounted source. Mirrors `DockerGateway`'s
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image-staleness check, but by content hash rather than image id since
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the orchestrator runs bind-mounted source, not a built image."""
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if not self._container_running(ORCHESTRATOR_NAME):
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return False
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proc = run_docker([
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"docker", "inspect", "--format",
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"{{ index .Config.Labels \"" + ORCHESTRATOR_SOURCE_HASH_LABEL + "\" }}",
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ORCHESTRATOR_NAME,
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])
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if proc.returncode != 0:
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return True # can't compare -> don't churn a working container
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return proc.stdout.strip() == current_hash
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def ensure_running(
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self, *, startup_timeout: float = DEFAULT_STARTUP_TIMEOUT_SECONDS,
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) -> str:
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"""Ensure the control plane + shared gateway are up; return the host
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control-plane URL. Idempotent — a healthy control plane running
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current code and a running gateway are left untouched. Raises
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`OrchestratorStartError` on timeout."""
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gateway = self._gateway()
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gateway.ensure_built() # rebuild the bundle image on a source change
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gateway.ensure_running() # creates the shared network + (re)starts gateway
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# Recreate the orchestrator container only when its bind-mounted
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# source has actually changed since it started — its Python process
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# loaded that code at startup and won't reload, so a stale container
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# would keep running OLD control-plane code. Recreating on *every*
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# launch (the prior behaviour) would drop every other active
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# bottle's in-memory egress tokens each time a new bottle starts,
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# since the orchestrator process holds them only in memory (#381).
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current_hash = _source_hash(self._repo_root)
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if self.is_healthy() and self._orchestrator_source_current(current_hash):
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return self.url
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log.info("starting orchestrator container", context={"name": ORCHESTRATOR_NAME})
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self._run_orchestrator_container(current_hash)
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deadline = time.monotonic() + startup_timeout
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while time.monotonic() < deadline:
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if self.is_healthy():
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log.info("orchestrator healthy", context={"url": self.url})
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return self.url
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time.sleep(_HEALTH_POLL_SECONDS)
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raise OrchestratorStartError(
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f"orchestrator at {self.url} did not become healthy within {startup_timeout:g}s"
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)
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def stop(self) -> None:
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"""Remove the orchestrator + gateway containers (idempotent)."""
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run_docker(["docker", "rm", "--force", ORCHESTRATOR_NAME])
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self._gateway().stop()
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__all__ = [
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"OrchestratorService",
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"OrchestratorStartError",
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"ORCHESTRATOR_NAME",
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"DEFAULT_PORT",
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"DEFAULT_STARTUP_TIMEOUT_SECONDS",
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]
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