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9cd583fbbb34135fa120710dd3b5f3e1f03174a3
bot-bottle/tests/integration/test_supervise_sidecar.py
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didericis 9cd583fbbb
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feat(egress-proxy): retarget remediation at egress-proxy (PRD 0017 chunk 3) 
Finishes PRD 0017. The `cred-proxy-block` MCP tool is renamed and
its remediation apply path is repointed at egress-proxy.

  - `claude_bottle/supervise.py` — `TOOL_CRED_PROXY_BLOCK` →
    `TOOL_EGRESS_PROXY_BLOCK`; `COMPONENT_FOR_TOOL` maps the new
    tool ID to `egress-proxy` for audit-log routing.

  - `claude_bottle/supervise_server.py` — tool definition renamed
    + description rewritten: "Call when egress-proxy refused your
    HTTPS request ... Read the current routes.yaml from /etc/
    claude-bottle/current-config/routes.yaml, compose a modified
    version, pass the full new file plus a justification." The
    syntactic validator dispatches on the new tool ID.

  - `claude_bottle/backend/docker/egress_proxy_apply.py` — renamed
    from `cred_proxy_apply.py`. Reads routes.yaml from
    /etc/egress-proxy/routes.yaml via `docker exec cat`; validates
    via `egress_proxy_addon_core.load_routes` (so both sides use
    the same parser); writes via `docker cp`; SIGHUPs egress-proxy
    with `docker kill --signal HUP`. `EgressProxyApplyError`
    replaces `CredProxyApplyError`.

  - `claude_bottle/cli/dashboard.py` — wires the new apply +
    `discover_egress_proxy_slugs` helper; the operator-initiated
    `routes edit <bottle>` verb now writes to egress-proxy with
    `.yaml` suffix. Stale follow-up comment about path-aware
    filtering removed — PRD 0017 settled that question.

  - `tests/integration/test_supervise_sidecar.py` — restores the
    approval round-trip test (chunk 2 had switched it to a reject
    path because no cred-proxy existed). Approval stubs
    `apply_routes_change` so the test focuses on the supervise
    queue/response plumbing rather than docker-exec into a real
    egress-proxy sidecar (that's covered separately).

  - `tests/unit/test_egress_proxy_apply.py` — rewritten against
    the new validator; covers JSON shape, missing routes key,
    partial-auth-pair rejection (the addon-core parser catches
    these before SIGHUP).

  - PRDs 0010 + 0014 — status headers updated to
    Superseded / Retargeted with a callout block pointing at PRD
    0017's migration section. Historical text preserved.

384 unit + integration tests pass.

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-05-25 15:13:44 -04:00

307 lines
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"""Integration: drive `DockerSupervise.start` against the supervise
sidecar and round-trip an MCP tool call through the queue (PRD 0013).
Topology mirrors production minimally: a per-bottle internal docker
network for the agent ↔ supervise leg, no egress network (supervise
doesn't make outbound calls). The "agent" is a curl container on the
internal net; the supervisor lives on the host (this test process)
and uses claude_bottle.cli.dashboard helpers to write Response files.
Verifies:
1. `tools/list` returns the three PRD 0013 tool names over real MCP
wire format.
2. A `tools/call` from the in-container agent blocks until the host
writes a Response to the queue; once written, the agent receives
the approval payload.
"""
from __future__ import annotations
import json
import os
import shutil
import subprocess
import tempfile
import threading
import time
import unittest
from pathlib import Path
from claude_bottle import supervise as _sv
from claude_bottle.backend.docker.network import (
network_create_internal,
network_remove,
)
from claude_bottle.backend.docker.supervise import (
DockerSupervise,
build_supervise_image,
supervise_container_name,
)
from claude_bottle.cli import dashboard
from claude_bottle.supervise import SupervisePlan, list_pending_proposals
from tests._docker import skip_unless_docker
CURL_IMAGE = "curlimages/curl:latest"
@skip_unless_docker()
class TestSuperviseSidecar(unittest.TestCase):
@classmethod
def setUpClass(cls):
r = subprocess.run(
["docker", "pull", CURL_IMAGE],
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
check=False,
)
if r.returncode != 0:
raise unittest.SkipTest(f"could not pull {CURL_IMAGE}")
build_supervise_image()
def setUp(self):
self.slug = f"cb-test-sv-{os.getpid()}-{int(time.time())}"
self.sidecar_name = ""
self.internal_net = ""
self.work_dir = Path(tempfile.mkdtemp(prefix="supervise-int."))
self.queue_dir = self.work_dir / "queue"
self.queue_dir.mkdir()
def tearDown(self):
if self.sidecar_name:
subprocess.run(
["docker", "rm", "-f", self.sidecar_name],
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
check=False,
)
if self.internal_net:
network_remove(self.internal_net)
shutil.rmtree(self.work_dir, ignore_errors=True)
def _require_bind_mount_sharing(self) -> None:
"""Skip if `docker run -v <host-path>:<container-path>` doesn't
share the filesystem between the test process and the spawned
container. In docker-in-docker CI (Gitea Actions runner with
host socket forwarded), bind-mount paths are resolved against
the outer host's fs, not the runner container's — so the
sidecar writes proposals to a dir the test process can't see.
Cached on the class so the probe runs once per test session."""
cached = getattr(type(self), "_bind_mount_ok", None)
if cached is True:
return
if cached is False:
self.skipTest(
"docker bind mounts don't share fs with this test process "
"(likely docker-in-docker); the supervise queue round-trip "
"requires real host fs sharing"
)
probe_dir = Path(tempfile.mkdtemp(prefix="supervise-bind-probe."))
try:
(probe_dir / "from-host").write_text("x")
r = subprocess.run(
[
"docker", "run", "--rm",
"-v", f"{probe_dir}:/probe",
"--entrypoint", "sh",
CURL_IMAGE,
"-c", "test -f /probe/from-host && touch /probe/from-container",
],
capture_output=True,
check=False,
)
ok = (
r.returncode == 0
and (probe_dir / "from-container").exists()
)
finally:
shutil.rmtree(probe_dir, ignore_errors=True)
type(self)._bind_mount_ok = ok
if not ok:
self.skipTest(
"docker bind mounts don't share fs with this test process "
"(likely docker-in-docker); the supervise queue round-trip "
"requires real host fs sharing"
)
def _bring_up_sidecar(self) -> None:
self.internal_net = network_create_internal(self.slug)
plan = SupervisePlan(
slug=self.slug,
queue_dir=self.queue_dir,
current_config_dir=self.work_dir / "current-config",
internal_network=self.internal_net,
)
# current_config_dir isn't bind-mounted into the sidecar, only
# the queue dir is. Create it for symmetry with production.
plan.current_config_dir.mkdir()
self.sidecar_name = DockerSupervise().start(plan)
# Block until the server is ready to answer (the container
# `docker start` returns immediately; python is still
# binding to the port).
deadline = time.monotonic() + 10.0
while time.monotonic() < deadline:
rc = subprocess.run(
[
"docker", "run", "--rm",
"--network", self.internal_net,
CURL_IMAGE,
"-fsS", "-o", "/dev/null",
"--max-time", "2",
f"http://{_sv.SUPERVISE_HOSTNAME}:{_sv.SUPERVISE_PORT}/health",
],
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
check=False,
).returncode
if rc == 0:
return
time.sleep(0.25)
raise AssertionError("supervise sidecar /health never came up")
def _curl_jsonrpc(self, body: dict[str, object]) -> dict[str, object]:
"""Invoke curl on the internal network to POST a JSON-RPC
request to the supervise sidecar and parse the response."""
payload = json.dumps(body)
result = subprocess.run(
[
"docker", "run", "--rm",
"--network", self.internal_net,
CURL_IMAGE,
"-sS", "--max-time", "30",
"-H", "Content-Type: application/json",
"-X", "POST",
"--data", payload,
f"http://{_sv.SUPERVISE_HOSTNAME}:{_sv.SUPERVISE_PORT}/",
],
capture_output=True,
text=True,
check=False,
)
if result.returncode != 0:
raise AssertionError(
f"curl to supervise failed: {result.stderr}\n"
f"stdout: {result.stdout}"
)
return json.loads(result.stdout)
def test_tools_list_over_mcp(self):
self._bring_up_sidecar()
result = self._curl_jsonrpc(
{"jsonrpc": "2.0", "id": 1, "method": "tools/list"},
)
self.assertEqual(1, result["id"])
names = {t["name"] for t in result["result"]["tools"]}
self.assertEqual(
{
_sv.TOOL_EGRESS_PROXY_BLOCK,
_sv.TOOL_PIPELOCK_BLOCK,
_sv.TOOL_CAPABILITY_BLOCK,
},
names,
)
def test_tools_call_round_trips_through_queue(self):
"""End-to-end: agent in the bottle calls egress-proxy-block;
the call blocks on the queue; the host approves via the
dashboard helpers; the agent receives the approval.
This test focuses on the supervise sidecar's queue + response
plumbing, not the egress-proxy apply path itself. The apply
function is stubbed so we don't need to bring up a real
egress-proxy sidecar (its docker lifecycle has its own
integration coverage)."""
self._require_bind_mount_sharing()
self._bring_up_sidecar()
# Stub the apply step. The dashboard's approve() calls
# apply_routes_change to docker-exec into the egress-proxy
# sidecar; this test isn't exercising the real sidecar, so
# patch it to a no-op that returns plausible before/after
# strings the audit-log writer can render.
from claude_bottle.cli import dashboard as _dash
original_apply = _dash.apply_routes_change
_dash.apply_routes_change = (
lambda slug, new: ("(stubbed before)", new)
)
captured: dict[str, object] = {}
def caller() -> None:
captured["response"] = self._curl_jsonrpc({
"jsonrpc": "2.0", "id": 7, "method": "tools/call",
"params": {
"name": _sv.TOOL_EGRESS_PROXY_BLOCK,
"arguments": {
"routes": '{"routes": [{"host": "api.example.com"}]}',
"justification": "integration test",
},
},
})
t = threading.Thread(target=caller)
t.start()
try:
# Wait for the proposal to appear in the queue (the
# sidecar writes it before blocking on wait_for_response).
deadline = time.monotonic() + 10.0
qp = None
while time.monotonic() < deadline:
pending = list_pending_proposals(self.queue_dir)
if pending:
qp = dashboard.QueuedProposal(
proposal=pending[0], queue_dir=self.queue_dir,
)
break
time.sleep(0.1)
self.assertIsNotNone(qp, "proposal never appeared in queue")
assert qp is not None # type-narrowing
self.assertEqual(
_sv.TOOL_EGRESS_PROXY_BLOCK, qp.proposal.tool,
)
self.assertEqual("integration test", qp.proposal.justification)
# Approve via the dashboard helper. The apply step (now
# stubbed) would docker-exec into the egress-proxy sidecar
# and SIGHUP it. The supervise sidecar sees the response
# file and returns to the curl caller.
dashboard.approve(qp, notes="lgtm from integration test")
finally:
_dash.apply_routes_change = original_apply
t.join(timeout=20)
response = captured.get("response")
self.assertIsNotNone(response, "curl thread never produced a response")
assert isinstance(response, dict) # type-narrowing
self.assertEqual(7, response["id"])
result = response["result"]
assert isinstance(result, dict)
self.assertFalse(result.get("isError"))
text = result["content"][0]["text"]
self.assertIn("status: approved", text)
self.assertIn("notes: lgtm from integration test", text)
def test_orphan_sidecar_name_collision_recovered(self):
"""An orphan supervise sidecar from a previous run blocks
the next .start with a duplicate-name error. Documents the
observed behavior so a future change that adds auto-cleanup
can flip the assertion."""
self._bring_up_sidecar()
self.assertEqual(supervise_container_name(self.slug), self.sidecar_name)
# Second .start should fail because the container name is
# taken. cleanup is handled by the orphan probe in prepare.py
# (tested separately in test_orphan_cleanup).
with self.assertRaises(SystemExit):
DockerSupervise().start(SupervisePlan(
slug=self.slug,
queue_dir=self.queue_dir,
current_config_dir=self.work_dir / "current-config",
internal_network=self.internal_net,
))
if __name__ == "__main__":
unittest.main()
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