refactor(workspace): split mcp_cli.py (626 LOC) into focused modules (RFC #2873 iter 3)

Splits the standalone molecule-mcp wrapper into three single-concern modules per the OSS-shape refactor program: * mcp_heartbeat.py — register POST + heartbeat loop + auth-failure escalation + inbound-secret persistence * mcp_workspace_resolver.py — single + multi-workspace env validation + on-disk token-file read + operator-help printer * mcp_inbox_pollers.py — activate inbox singleton + spawn one daemon poller per workspace mcp_cli.py becomes a 193-LOC orchestrator: validates env, calls each module's helpers, hands off to a2a_mcp_server.cli_main. The console- script entry molecule-mcp = molecule_runtime.mcp_cli:main is preserved. Back-compat aliases (mcp_cli._build_agent_card, _heartbeat_loop, _resolve_workspaces, etc.) re-export the new modules' authoritative functions so existing tests + wheel_smoke.py + any downstream caller keeps working unchanged. A new test file pins each alias as the exact same callable (drift gate via `is`). Tests: * 62 existing test_mcp_cli.py + test_mcp_cli_multi_workspace.py pass against the split. * Two heartbeat-loop persist tests + the auth-escalation caplog setup updated to target mcp_heartbeat (the module where the loop body now lives) instead of mcp_cli (still works through aliases for direct calls, but Python's name resolution inside the loop body uses the new module's namespace). * test_mcp_cli_split.py adds 11 new tests: alias drift gate + inbox-poller single + multi-workspace branches + degraded inbox-import logging path (none of those existed before). Refs RFC #2873.
2026-05-05 04:33:06 -07:00 · 2026-05-05 04:33:06 -07:00 · 28ef75d25e
commit 28ef75d25e
parent 89ee8e4d04
6 changed files with 812 additions and 474 deletions
--- a/workspace/mcp_cli.py
+++ b/workspace/mcp_cli.py
@ -31,422 +31,53 @@ dependency via ``a2a-sdk``.
 In-container usage (``python -m molecule_runtime.a2a_mcp_server`` or
 direct import) bypasses this wrapper — the workspace runtime has its
 own heartbeat loop in ``heartbeat.py`` so we don't double-heartbeat.
 Module layout (RFC #2873 iter 3 split):
    * ``mcp_heartbeat`` — register POST + heartbeat loop + auth-failure
      escalation + inbound-secret persistence.
    * ``mcp_workspace_resolver`` — env validation, single + multi-workspace
      resolution, operator-help printer, on-disk token-file read.
    * ``mcp_inbox_pollers`` — activate the inbox singleton + spawn one
      daemon poller per workspace.
 This file keeps just ``main()`` plus thin re-exports of the private
 symbols so existing tests' imports (``mcp_cli._build_agent_card``,
 ``mcp_cli._heartbeat_loop``, etc.) keep working without churn.
 """
 from __future__ import annotations
 import json
 import logging
 import os
 import sys
 import threading
 import time
 from pathlib import Path
 import configs_dir
 import mcp_heartbeat
 import mcp_inbox_pollers
 import mcp_workspace_resolver
 logger = logging.getLogger(__name__)
-# Heartbeat cadence. Must be tighter than healthsweep's stale window
+# Re-export public surface for back-compat with the pre-split callers
-# (currently 60-90s — see registry/healthsweep.go) by a comfortable
+# and tests. The underscore-prefixed names mirror the names that
-# margin so a single missed heartbeat doesn't flip awaiting_agent.
+# existed in this module before the split — keeping them ensures
-# 20s gives the operator's network 3 attempts within the budget; long
+# `mcp_cli._build_agent_card`, `mcp_cli._heartbeat_loop`, etc.
-# enough that it doesn't spam, short enough to recover quickly after
+# resolve identically to the new functions.
-# laptop sleep.
+HEARTBEAT_INTERVAL_SECONDS = mcp_heartbeat.HEARTBEAT_INTERVAL_SECONDS
-HEARTBEAT_INTERVAL_SECONDS = 20.0
+_HEARTBEAT_AUTH_LOUD_THRESHOLD = mcp_heartbeat.HEARTBEAT_AUTH_LOUD_THRESHOLD
 _HEARTBEAT_AUTH_RELOG_INTERVAL = mcp_heartbeat.HEARTBEAT_AUTH_RELOG_INTERVAL
-# After this many consecutive 401/403 heartbeats, escalate from
+_build_agent_card = mcp_heartbeat.build_agent_card
-# WARNING to ERROR with re-onboard guidance. 3 ticks at 20s = ~1 minute
+_platform_register = mcp_heartbeat.platform_register
-# of sustained auth failure — enough to rule out a transient platform
+_heartbeat_loop = mcp_heartbeat.heartbeat_loop
-# blip but quick enough that an operator doesn't sit puzzled for 10
+_log_heartbeat_auth_failure = mcp_heartbeat.log_heartbeat_auth_failure
-# minutes wondering why their MCP tools 401. Same threshold used for
+_persist_inbound_secret_from_heartbeat = mcp_heartbeat.persist_inbound_secret_from_heartbeat
-# repeat-logging at 20-tick (~7 min) intervals so a long-running
+_start_heartbeat_thread = mcp_heartbeat.start_heartbeat_thread
 # session that missed the first ERROR still sees the message.
 _HEARTBEAT_AUTH_LOUD_THRESHOLD = 3
 _HEARTBEAT_AUTH_RELOG_INTERVAL = 20
 _resolve_workspaces = mcp_workspace_resolver.resolve_workspaces
 _print_missing_env_help = mcp_workspace_resolver.print_missing_env_help
 _read_token_file = mcp_workspace_resolver.read_token_file
-def _build_agent_card(workspace_id: str) -> dict:
+_start_inbox_pollers = mcp_inbox_pollers.start_inbox_pollers
    """Build the ``agent_card`` payload sent to /registry/register.
    Three optional env vars override the defaults so an operator can
    surface human-readable identity + capabilities to peers and the
    canvas Skills tab without code changes:
      * ``MOLECULE_AGENT_NAME`` — display name (defaults to
        ``molecule-mcp-{id[:8]}``). Surfaced in canvas workspace cards
        and ``list_peers`` output.
      * ``MOLECULE_AGENT_DESCRIPTION`` — one-liner about the agent's
        purpose. Rendered in canvas Details + Skills tabs.
      * ``MOLECULE_AGENT_SKILLS`` — comma-separated skill names
        (e.g. ``research,code-review,memory-curation``). Each name is
        expanded to a ``{"name": ...}`` skill object — the minimum
        shape that satisfies both ``shared_runtime.summarize_peers``
        (uses ``s["name"]``) and the canvas SkillsTab.tsx schema
        (id falls back to name when omitted). Empty / whitespace
        entries are dropped.
    Defaults match the previous hardcoded behaviour exactly so this
    is a strict superset — an operator who sets none of the env vars
    sees no change.
    """
    name = (os.environ.get("MOLECULE_AGENT_NAME") or "").strip()
    if not name:
        name = f"molecule-mcp-{workspace_id[:8]}"
    description = (os.environ.get("MOLECULE_AGENT_DESCRIPTION") or "").strip()
    skills_raw = (os.environ.get("MOLECULE_AGENT_SKILLS") or "").strip()
    skills: list[dict] = []
    if skills_raw:
        for s in skills_raw.split(","):
            label = s.strip()
            if label:
                skills.append({"name": label})
    card: dict = {"name": name, "skills": skills}
    if description:
        card["description"] = description
    return card
 def _platform_register(platform_url: str, workspace_id: str, token: str) -> None:
    """One-shot register at startup; fails fast on auth errors.
    Lifts the workspace from ``awaiting_agent`` to ``online`` for
    operators who never ran the curl-register snippet. Safe to call
    repeatedly: the platform's register handler is an upsert that
    just refreshes ``url``, ``agent_card``, and ``status``.
    Failure model (post-review):
        - 401 / 403  → ``sys.exit(3)`` immediately. The operator's
          token is wrong; silently looping in a broken state would
          make this hard to diagnose because the MCP tools would 401
          on every call too. Hard-fail is the kindest option.
        - Other 4xx/5xx → log a warning + continue. The heartbeat
          thread will surface persistent failures; transient platform
          blips shouldn't abort the MCP loop.
        - Network / transport errors → log + continue. Same reasoning.
    Origin header is required by the SaaS edge WAF; without it
    /registry/register currently still works (it's on the WAF
    allowlist), but the heartbeat path needs Origin and we want one
    consistent header set across both calls.
    """
    try:
        import httpx
    except ImportError:
        # httpx is a transitive dep via a2a-sdk; if missing, the MCP
        # server won't import either. Let the caller's later import
        # surface the real error.
        return
    payload = {
        "id": workspace_id,
        "url": "",
        "agent_card": _build_agent_card(workspace_id),
        "delivery_mode": "poll",
    }
    headers = {
        "Authorization": f"Bearer {token}",
        "Origin": platform_url,
        "Content-Type": "application/json",
    }
    try:
        with httpx.Client(timeout=10.0) as client:
            resp = client.post(
                f"{platform_url}/registry/register",
                json=payload,
                headers=headers,
            )
        if resp.status_code in (401, 403):
            print(
                f"molecule-mcp: register rejected with HTTP {resp.status_code} — "
                f"the token in MOLECULE_WORKSPACE_TOKEN is invalid for workspace "
                f"{workspace_id}. Regenerate from the canvas → Tokens tab.",
                file=sys.stderr,
            )
            sys.exit(3)
        if resp.status_code >= 400:
            logger.warning(
                "molecule-mcp: register POST returned HTTP %d: %s",
                resp.status_code,
                (resp.text or "")[:200],
            )
        else:
            logger.info(
                "molecule-mcp: registered workspace %s with platform",
                workspace_id,
            )
    except SystemExit:
        raise
    except Exception as exc:  # noqa: BLE001
        logger.warning("molecule-mcp: register POST failed: %s", exc)
 def _heartbeat_loop(
    platform_url: str,
    workspace_id: str,
    token: str,
    interval: float = HEARTBEAT_INTERVAL_SECONDS,
 ) -> None:
    """Daemon thread body: POST /registry/heartbeat every ``interval``s.
    Failures are logged at WARNING and the loop continues. The thread
    exits when the main process does (daemon=True). Each iteration
    rebuilds the payload + headers — cheap and ensures token rotation
    via env var (rare but possible) is picked up on the next tick.
    """
    try:
        import httpx
    except ImportError:
        return
    start_time = time.time()
    consecutive_auth_failures = 0
    while True:
        body = {
            "workspace_id": workspace_id,
            "error_rate": 0.0,
            "sample_error": "",
            "active_tasks": 0,
            "uptime_seconds": int(time.time() - start_time),
        }
        headers = {
            "Authorization": f"Bearer {token}",
            "Origin": platform_url,
            "Content-Type": "application/json",
        }
        try:
            with httpx.Client(timeout=10.0) as client:
                resp = client.post(
                    f"{platform_url}/registry/heartbeat",
                    json=body,
                    headers=headers,
                )
            if resp.status_code in (401, 403):
                consecutive_auth_failures += 1
                _log_heartbeat_auth_failure(
                    consecutive_auth_failures, workspace_id, resp.status_code,
                )
            elif resp.status_code >= 400:
                # Non-auth HTTP error — log, but DO NOT touch the
                # auth-failure counter (5xx blips, 429, etc. are
                # transient and unrelated to token validity).
                logger.warning(
                    "molecule-mcp: heartbeat HTTP %d: %s",
                    resp.status_code,
                    (resp.text or "")[:200],
                )
            else:
                consecutive_auth_failures = 0
                _persist_inbound_secret_from_heartbeat(resp)
        except Exception as exc:  # noqa: BLE001
            logger.warning("molecule-mcp: heartbeat failed: %s", exc)
        time.sleep(interval)
 def _log_heartbeat_auth_failure(count: int, workspace_id: str, status_code: int) -> None:
    """Escalate consecutive heartbeat 401/403s from quiet WARNING to
    actionable ERROR.
    The operator's first sign of trouble shouldn't be "tools 401 with no
    explanation" — that was the failure mode that motivated this code,
    triggered by a workspace being deleted server-side and its tokens
    revoked while the runtime kept heartbeating in silence.
    Cadence:
      * count < threshold: WARNING per tick (transient — could be a
        platform blip, don't shout yet)
      * count == threshold: ERROR with re-onboard instructions
        (the first signal the operator can't miss)
      * count > threshold and (count - threshold) % relog == 0: re-log
        ERROR (so a session that started after the first ERROR still
        sees the message scrolling past in their logs)
    """
    if count < _HEARTBEAT_AUTH_LOUD_THRESHOLD:
        logger.warning(
            "molecule-mcp: heartbeat HTTP %d (auth failure %d/%d) — "
            "token may be revoked. Will retry; if persistent, regenerate "
            "from canvas → Tokens.",
            status_code, count, _HEARTBEAT_AUTH_LOUD_THRESHOLD,
        )
        return
    # At or past the threshold — this is the loud actionable error.
    if count == _HEARTBEAT_AUTH_LOUD_THRESHOLD or (
        count - _HEARTBEAT_AUTH_LOUD_THRESHOLD
    ) % _HEARTBEAT_AUTH_RELOG_INTERVAL == 0:
        logger.error(
            "molecule-mcp: %d consecutive heartbeat auth failures (HTTP %d) — "
            "the token in MOLECULE_WORKSPACE_TOKEN has been REVOKED, likely "
            "because workspace %s was deleted server-side. The MCP server is "
            "still running but every platform call will fail. Regenerate the "
            "workspace + token from the canvas (Tokens tab), update your MCP "
            "config, and restart your runtime.",
            count, status_code, workspace_id,
        )
 def _persist_inbound_secret_from_heartbeat(resp: object) -> None:
    """Persist ``platform_inbound_secret`` from a heartbeat response, if any.
    The platform's heartbeat handler returns the secret on every beat
    (mirroring /registry/register) so a workspace that lazy-healed the
    secret on the platform side — typical recovery path for a workspace
    whose row had a NULL ``platform_inbound_secret`` after a partial
    bootstrap — picks it up within one heartbeat tick instead of
    requiring a runtime restart.
    Without this delivery path the chat-upload code path's "secret was
    just minted, will pick up on next heartbeat" 503 message is a lie
    and the workspace stays 401-forever until the operator restarts
    the runtime. Caught 2026-04-30 on hongmingwang tenant.
    Failure is non-fatal: if the body isn't JSON, doesn't carry the
    field, or the disk write fails, the next heartbeat retries. This
    matches the cold-start register flow in main.py:319-323.
    """
    try:
        body = resp.json()
    except Exception:  # noqa: BLE001
        return
    if not isinstance(body, dict):
        return
    secret = body.get("platform_inbound_secret")
    if not secret:
        return
    try:
        from platform_inbound_auth import save_inbound_secret
        save_inbound_secret(secret)
    except Exception as exc:  # noqa: BLE001
        logger.warning(
            "molecule-mcp: persist inbound secret from heartbeat failed: %s", exc
        )
 def _start_heartbeat_thread(
    platform_url: str,
    workspace_id: str,
    token: str,
 ) -> threading.Thread:
    """Start the heartbeat daemon thread. Returns the Thread handle.
    The MCP stdio loop runs in the foreground (asyncio); this thread
    runs alongside it. ``daemon=True`` so when the operator hits
    Ctrl-C / closes the runtime, the heartbeat dies with it instead
    of leaking and writing to a stale workspace.
    """
    t = threading.Thread(
        target=_heartbeat_loop,
        args=(platform_url, workspace_id, token),
        name="molecule-mcp-heartbeat",
        daemon=True,
    )
    t.start()
    return t
 def _resolve_workspaces() -> tuple[list[tuple[str, str]], list[str]]:
    """Return the list of ``(workspace_id, token)`` pairs to register.
    Resolution order:
    1. ``MOLECULE_WORKSPACES`` env var — JSON array of
       ``{"id": "...", "token": "..."}`` objects. Activates the
       multi-workspace external-agent path (one process registered into
       N workspaces). When set, ``WORKSPACE_ID`` / ``MOLECULE_WORKSPACE_TOKEN``
       are IGNORED — the JSON is the source of truth.
    2. Single-workspace fallback — ``WORKSPACE_ID`` env var + token from
       ``MOLECULE_WORKSPACE_TOKEN`` or ``${CONFIGS_DIR}/.auth_token``.
       This is the pre-existing path; back-compat exact.
    Returns ``(workspaces, errors)``:
      * ``workspaces``: list of ``(workspace_id, token)`` — non-empty
        on the happy path.
      * ``errors``: human-readable strings describing what's missing /
        malformed. ``main()`` surfaces these with the same shape as
        ``_print_missing_env_help`` so the operator's first run gives
        actionable output.
    Why JSON env (not file): ergonomic for Claude Code MCP config (one
    string in ``mcpServers.molecule.env`` instead of a sidecar file)
    and for CI / launchers. A separate config-file path can be added
    later without breaking this.
    """
    raw = os.environ.get("MOLECULE_WORKSPACES", "").strip()
    if raw:
        try:
            parsed = json.loads(raw)
        except json.JSONDecodeError as exc:
            return [], [
                f"MOLECULE_WORKSPACES is not valid JSON ({exc.msg} at pos "
                f"{exc.pos}). Expected: '[{{\"id\":\"<wsid>\",\"token\":"
                f"\"<tok>\"}},{{...}}]'"
            ]
        if not isinstance(parsed, list) or not parsed:
            return [], [
                "MOLECULE_WORKSPACES must be a non-empty JSON array of "
                "{\"id\":\"...\",\"token\":\"...\"} objects"
            ]
        out: list[tuple[str, str]] = []
        seen: set[str] = set()
        errors: list[str] = []
        for i, entry in enumerate(parsed):
            if not isinstance(entry, dict):
                errors.append(
                    f"MOLECULE_WORKSPACES[{i}] is not an object — got {type(entry).__name__}"
                )
                continue
            wsid = str(entry.get("id", "")).strip()
            tok = str(entry.get("token", "")).strip()
            if not wsid or not tok:
                errors.append(
                    f"MOLECULE_WORKSPACES[{i}] missing 'id' or 'token'"
                )
                continue
            if wsid in seen:
                errors.append(
                    f"MOLECULE_WORKSPACES[{i}] duplicate workspace id {wsid!r}"
                )
                continue
            seen.add(wsid)
            out.append((wsid, tok))
        if errors:
            return [], errors
        return out, []
    # Single-workspace back-compat path.
    wsid = os.environ.get("WORKSPACE_ID", "").strip()
    if not wsid:
        return [], ["WORKSPACE_ID (or MOLECULE_WORKSPACES) is required"]
    tok = os.environ.get("MOLECULE_WORKSPACE_TOKEN", "").strip()
    if not tok:
        tok = _read_token_file()
    if not tok:
        return [], [
            "MOLECULE_WORKSPACE_TOKEN (or CONFIGS_DIR/.auth_token) is required"
        ]
    return [(wsid, tok)], []
 def _print_missing_env_help(missing: list[str], have_token_file: bool) -> None:
    print("molecule-mcp: missing required environment.\n", file=sys.stderr)
    print("Set the following before running molecule-mcp:", file=sys.stderr)
    print("  WORKSPACE_ID                — your workspace UUID (from canvas)", file=sys.stderr)
    print(
        "  PLATFORM_URL                — base URL of your Molecule platform "
        "(e.g. https://your-tenant.staging.moleculesai.app)",
        file=sys.stderr,
    )
    if not have_token_file:
        print(
            "  MOLECULE_WORKSPACE_TOKEN    — bearer token for this workspace "
            "(canvas → Tokens tab)",
            file=sys.stderr,
        )
    print("", file=sys.stderr)
    print(f"Currently missing: {', '.join(missing)}", file=sys.stderr)
 def main() -> None:
@ -558,69 +189,5 @@ def main() -> None:
    cli_main()
 def _start_inbox_pollers(platform_url: str, workspace_ids: list[str]) -> None:
    """Activate the inbox singleton + spawn one poller daemon thread per workspace.
    Done lazily here (not at module import) because importing inbox
    pulls in platform_auth, which only resolves cleanly AFTER env
    validation succeeds. Activation is idempotent within a process,
    so a stray double-call (e.g. test harness re-entering main) is
    harmless.
    The poller threads are daemon=True — die with the main process.
    Single-workspace path: one poller, single cursor file at the legacy
    location (``.mcp_inbox_cursor``). Cursor-key resolution falls back
    to the empty string for back-compat with operators whose existing
    on-disk cursor was written by the pre-multi-workspace code.
    Multi-workspace path: N pollers, each with its own cursor file
    keyed by ``workspace_id[:8]``. Cursors live next to each other in
    configs_dir so an operator inspecting state sees all of them
    together.
    """
    try:
        import inbox
    except ImportError as exc:
        logger.warning("molecule-mcp: inbox module unavailable: %s", exc)
        return
    if len(workspace_ids) <= 1:
        # Back-compat exact: single-workspace mode reuses the legacy
        # cursor filename + cursor_path constructor arg, so an existing
        # operator's on-disk state isn't invalidated by upgrade.
        wsid = workspace_ids[0]
        state = inbox.InboxState(cursor_path=inbox.default_cursor_path())
        inbox.activate(state)
        inbox.start_poller_thread(state, platform_url, wsid)
        return
    # Multi-workspace: per-workspace cursor file, one shared queue.
    cursor_paths = {wsid: inbox.default_cursor_path(wsid) for wsid in workspace_ids}
    state = inbox.InboxState(cursor_paths=cursor_paths)
    inbox.activate(state)
    for wsid in workspace_ids:
        inbox.start_poller_thread(state, platform_url, wsid)
 def _read_token_file() -> str:
    """Read the token from the resolved configs dir's ``.auth_token`` if
    present.
    Mirrors platform_auth._token_file's location resolution but without
    importing the heavy module here (that import triggers a2a_client's
    WORKSPACE_ID guard which is fine after env validation, but cheaper
    to inline a 4-line file read than pull in the whole stack just for
    the path).
    """
    path = configs_dir.resolve() / ".auth_token"
    if not path.is_file():
        return ""
    try:
        return path.read_text().strip()
    except OSError:
        return ""
 if __name__ == "__main__":  # pragma: no cover
    main()
--- a/workspace/mcp_heartbeat.py
+++ b/workspace/mcp_heartbeat.py
@ -0,0 +1,325 @@
 """Heartbeat + register thread for the standalone ``molecule-mcp`` wrapper.
 Extracted from ``mcp_cli.py`` (RFC #2873 iter 3) so the heartbeat /
 register concern lives in its own module. The console-script entry
 ``mcp_cli:main`` still drives the spawn, but the loop body, auth-failure
 escalation, and inbound-secret persistence now live here so they can be
 read, tested, and replaced independently of the orchestrator.
 Public surface:
 * ``HEARTBEAT_INTERVAL_SECONDS`` — cadence constant.
 * ``build_agent_card(workspace_id)`` — payload helper.
 * ``platform_register(platform_url, workspace_id, token)`` — one-shot
  POST /registry/register at startup.
 * ``start_heartbeat_thread(platform_url, workspace_id, token)`` — spawn
  the daemon thread.
 """
 from __future__ import annotations
 import logging
 import os
 import sys
 import threading
 import time
 logger = logging.getLogger(__name__)
 # Heartbeat cadence. Must be tighter than healthsweep's stale window
 # (currently 60-90s — see registry/healthsweep.go) by a comfortable
 # margin so a single missed heartbeat doesn't flip awaiting_agent.
 # 20s gives the operator's network 3 attempts within the budget; long
 # enough that it doesn't spam, short enough to recover quickly after
 # laptop sleep.
 HEARTBEAT_INTERVAL_SECONDS = 20.0
 # After this many consecutive 401/403 heartbeats, escalate from
 # WARNING to ERROR with re-onboard guidance. 3 ticks at 20s = ~1 minute
 # of sustained auth failure — enough to rule out a transient platform
 # blip but quick enough that an operator doesn't sit puzzled for 10
 # minutes wondering why their MCP tools 401. Same threshold used for
 # repeat-logging at 20-tick (~7 min) intervals so a long-running
 # session that missed the first ERROR still sees the message.
 HEARTBEAT_AUTH_LOUD_THRESHOLD = 3
 HEARTBEAT_AUTH_RELOG_INTERVAL = 20
 def build_agent_card(workspace_id: str) -> dict:
    """Build the ``agent_card`` payload sent to /registry/register.
    Three optional env vars override the defaults so an operator can
    surface human-readable identity + capabilities to peers and the
    canvas Skills tab without code changes:
      * ``MOLECULE_AGENT_NAME`` — display name (defaults to
        ``molecule-mcp-{id[:8]}``). Surfaced in canvas workspace cards
        and ``list_peers`` output.
      * ``MOLECULE_AGENT_DESCRIPTION`` — one-liner about the agent's
        purpose. Rendered in canvas Details + Skills tabs.
      * ``MOLECULE_AGENT_SKILLS`` — comma-separated skill names
        (e.g. ``research,code-review,memory-curation``). Each name is
        expanded to a ``{"name": ...}`` skill object — the minimum
        shape that satisfies both ``shared_runtime.summarize_peers``
        (uses ``s["name"]``) and the canvas SkillsTab.tsx schema
        (id falls back to name when omitted). Empty / whitespace
        entries are dropped.
    Defaults match the previous hardcoded behaviour exactly so this
    is a strict superset — an operator who sets none of the env vars
    sees no change.
    """
    name = (os.environ.get("MOLECULE_AGENT_NAME") or "").strip()
    if not name:
        name = f"molecule-mcp-{workspace_id[:8]}"
    description = (os.environ.get("MOLECULE_AGENT_DESCRIPTION") or "").strip()
    skills_raw = (os.environ.get("MOLECULE_AGENT_SKILLS") or "").strip()
    skills: list[dict] = []
    if skills_raw:
        for s in skills_raw.split(","):
            label = s.strip()
            if label:
                skills.append({"name": label})
    card: dict = {"name": name, "skills": skills}
    if description:
        card["description"] = description
    return card
 def platform_register(platform_url: str, workspace_id: str, token: str) -> None:
    """One-shot register at startup; fails fast on auth errors.
    Lifts the workspace from ``awaiting_agent`` to ``online`` for
    operators who never ran the curl-register snippet. Safe to call
    repeatedly: the platform's register handler is an upsert that
    just refreshes ``url``, ``agent_card``, and ``status``.
    Failure model (post-review):
        - 401 / 403  → ``sys.exit(3)`` immediately. The operator's
          token is wrong; silently looping in a broken state would
          make this hard to diagnose because the MCP tools would 401
          on every call too. Hard-fail is the kindest option.
        - Other 4xx/5xx → log a warning + continue. The heartbeat
          thread will surface persistent failures; transient platform
          blips shouldn't abort the MCP loop.
        - Network / transport errors → log + continue. Same reasoning.
    Origin header is required by the SaaS edge WAF; without it
    /registry/register currently still works (it's on the WAF
    allowlist), but the heartbeat path needs Origin and we want one
    consistent header set across both calls.
    """
    try:
        import httpx
    except ImportError:
        # httpx is a transitive dep via a2a-sdk; if missing, the MCP
        # server won't import either. Let the caller's later import
        # surface the real error.
        return
    payload = {
        "id": workspace_id,
        "url": "",
        "agent_card": build_agent_card(workspace_id),
        "delivery_mode": "poll",
    }
    headers = {
        "Authorization": f"Bearer {token}",
        "Origin": platform_url,
        "Content-Type": "application/json",
    }
    try:
        with httpx.Client(timeout=10.0) as client:
            resp = client.post(
                f"{platform_url}/registry/register",
                json=payload,
                headers=headers,
            )
        if resp.status_code in (401, 403):
            print(
                f"molecule-mcp: register rejected with HTTP {resp.status_code} — "
                f"the token in MOLECULE_WORKSPACE_TOKEN is invalid for workspace "
                f"{workspace_id}. Regenerate from the canvas → Tokens tab.",
                file=sys.stderr,
            )
            sys.exit(3)
        if resp.status_code >= 400:
            logger.warning(
                "molecule-mcp: register POST returned HTTP %d: %s",
                resp.status_code,
                (resp.text or "")[:200],
            )
        else:
            logger.info(
                "molecule-mcp: registered workspace %s with platform",
                workspace_id,
            )
    except SystemExit:
        raise
    except Exception as exc:  # noqa: BLE001
        logger.warning("molecule-mcp: register POST failed: %s", exc)
 def heartbeat_loop(
    platform_url: str,
    workspace_id: str,
    token: str,
    interval: float = HEARTBEAT_INTERVAL_SECONDS,
 ) -> None:
    """Daemon thread body: POST /registry/heartbeat every ``interval``s.
    Failures are logged at WARNING and the loop continues. The thread
    exits when the main process does (daemon=True). Each iteration
    rebuilds the payload + headers — cheap and ensures token rotation
    via env var (rare but possible) is picked up on the next tick.
    """
    try:
        import httpx
    except ImportError:
        return
    start_time = time.time()
    consecutive_auth_failures = 0
    while True:
        body = {
            "workspace_id": workspace_id,
            "error_rate": 0.0,
            "sample_error": "",
            "active_tasks": 0,
            "uptime_seconds": int(time.time() - start_time),
        }
        headers = {
            "Authorization": f"Bearer {token}",
            "Origin": platform_url,
            "Content-Type": "application/json",
        }
        try:
            with httpx.Client(timeout=10.0) as client:
                resp = client.post(
                    f"{platform_url}/registry/heartbeat",
                    json=body,
                    headers=headers,
                )
            if resp.status_code in (401, 403):
                consecutive_auth_failures += 1
                log_heartbeat_auth_failure(
                    consecutive_auth_failures, workspace_id, resp.status_code,
                )
            elif resp.status_code >= 400:
                # Non-auth HTTP error — log, but DO NOT touch the
                # auth-failure counter (5xx blips, 429, etc. are
                # transient and unrelated to token validity).
                logger.warning(
                    "molecule-mcp: heartbeat HTTP %d: %s",
                    resp.status_code,
                    (resp.text or "")[:200],
                )
            else:
                consecutive_auth_failures = 0
                persist_inbound_secret_from_heartbeat(resp)
        except Exception as exc:  # noqa: BLE001
            logger.warning("molecule-mcp: heartbeat failed: %s", exc)
        time.sleep(interval)
 def log_heartbeat_auth_failure(count: int, workspace_id: str, status_code: int) -> None:
    """Escalate consecutive heartbeat 401/403s from quiet WARNING to
    actionable ERROR.
    The operator's first sign of trouble shouldn't be "tools 401 with no
    explanation" — that was the failure mode that motivated this code,
    triggered by a workspace being deleted server-side and its tokens
    revoked while the runtime kept heartbeating in silence.
    Cadence:
      * count < threshold: WARNING per tick (transient — could be a
        platform blip, don't shout yet)
      * count == threshold: ERROR with re-onboard instructions
        (the first signal the operator can't miss)
      * count > threshold and (count - threshold) % relog == 0: re-log
        ERROR (so a session that started after the first ERROR still
        sees the message scrolling past in their logs)
    """
    if count < HEARTBEAT_AUTH_LOUD_THRESHOLD:
        logger.warning(
            "molecule-mcp: heartbeat HTTP %d (auth failure %d/%d) — "
            "token may be revoked. Will retry; if persistent, regenerate "
            "from canvas → Tokens.",
            status_code, count, HEARTBEAT_AUTH_LOUD_THRESHOLD,
        )
        return
    # At or past the threshold — this is the loud actionable error.
    if count == HEARTBEAT_AUTH_LOUD_THRESHOLD or (
        count - HEARTBEAT_AUTH_LOUD_THRESHOLD
    ) % HEARTBEAT_AUTH_RELOG_INTERVAL == 0:
        logger.error(
            "molecule-mcp: %d consecutive heartbeat auth failures (HTTP %d) — "
            "the token in MOLECULE_WORKSPACE_TOKEN has been REVOKED, likely "
            "because workspace %s was deleted server-side. The MCP server is "
            "still running but every platform call will fail. Regenerate the "
            "workspace + token from the canvas (Tokens tab), update your MCP "
            "config, and restart your runtime.",
            count, status_code, workspace_id,
        )
 def persist_inbound_secret_from_heartbeat(resp: object) -> None:
    """Persist ``platform_inbound_secret`` from a heartbeat response, if any.
    The platform's heartbeat handler returns the secret on every beat
    (mirroring /registry/register) so a workspace that lazy-healed the
    secret on the platform side — typical recovery path for a workspace
    whose row had a NULL ``platform_inbound_secret`` after a partial
    bootstrap — picks it up within one heartbeat tick instead of
    requiring a runtime restart.
    Without this delivery path the chat-upload code path's "secret was
    just minted, will pick up on next heartbeat" 503 message is a lie
    and the workspace stays 401-forever until the operator restarts
    the runtime. Caught 2026-04-30 on hongmingwang tenant.
    Failure is non-fatal: if the body isn't JSON, doesn't carry the
    field, or the disk write fails, the next heartbeat retries. This
    matches the cold-start register flow in main.py:319-323.
    """
    try:
        body = resp.json()
    except Exception:  # noqa: BLE001
        return
    if not isinstance(body, dict):
        return
    secret = body.get("platform_inbound_secret")
    if not secret:
        return
    try:
        from platform_inbound_auth import save_inbound_secret
        save_inbound_secret(secret)
    except Exception as exc:  # noqa: BLE001
        logger.warning(
            "molecule-mcp: persist inbound secret from heartbeat failed: %s", exc
        )
 def start_heartbeat_thread(
    platform_url: str,
    workspace_id: str,
    token: str,
 ) -> threading.Thread:
    """Start the heartbeat daemon thread. Returns the Thread handle.
    The MCP stdio loop runs in the foreground (asyncio); this thread
    runs alongside it. ``daemon=True`` so when the operator hits
    Ctrl-C / closes the runtime, the heartbeat dies with it instead
    of leaking and writing to a stale workspace.
    """
    t = threading.Thread(
        target=heartbeat_loop,
        args=(platform_url, workspace_id, token),
        name="molecule-mcp-heartbeat",
        daemon=True,
    )
    t.start()
    return t
--- a/workspace/mcp_inbox_pollers.py
+++ b/workspace/mcp_inbox_pollers.py
@ -0,0 +1,63 @@
 """Inbox-poller spawn helpers for the standalone ``molecule-mcp`` wrapper.
 Extracted from ``mcp_cli.py`` (RFC #2873 iter 3). The poller is the
 INBOUND side of the standalone path — without it, the universal MCP
 server is outbound-only (can call ``delegate_task`` /
 ``send_message_to_user``, never observes canvas-user / peer-agent
 messages).
 Public surface:
 * ``start_inbox_pollers(platform_url, workspace_ids)`` — activate the
  inbox singleton and spawn one daemon poller per workspace.
 """
 from __future__ import annotations
 import logging
 logger = logging.getLogger(__name__)
 def start_inbox_pollers(platform_url: str, workspace_ids: list[str]) -> None:
    """Activate the inbox singleton + spawn one poller daemon thread per workspace.
    Done lazily here (not at module import) because importing inbox
    pulls in platform_auth, which only resolves cleanly AFTER env
    validation succeeds. Activation is idempotent within a process,
    so a stray double-call (e.g. test harness re-entering main) is
    harmless.
    The poller threads are daemon=True — die with the main process.
    Single-workspace path: one poller, single cursor file at the legacy
    location (``.mcp_inbox_cursor``). Cursor-key resolution falls back
    to the empty string for back-compat with operators whose existing
    on-disk cursor was written by the pre-multi-workspace code.
    Multi-workspace path: N pollers, each with its own cursor file
    keyed by ``workspace_id[:8]``. Cursors live next to each other in
    configs_dir so an operator inspecting state sees all of them
    together.
    """
    try:
        import inbox
    except ImportError as exc:
        logger.warning("molecule-mcp: inbox module unavailable: %s", exc)
        return
    if len(workspace_ids) <= 1:
        # Back-compat exact: single-workspace mode reuses the legacy
        # cursor filename + cursor_path constructor arg, so an existing
        # operator's on-disk state isn't invalidated by upgrade.
        wsid = workspace_ids[0]
        state = inbox.InboxState(cursor_path=inbox.default_cursor_path())
        inbox.activate(state)
        inbox.start_poller_thread(state, platform_url, wsid)
        return
    # Multi-workspace: per-workspace cursor file, one shared queue.
    cursor_paths = {wsid: inbox.default_cursor_path(wsid) for wsid in workspace_ids}
    state = inbox.InboxState(cursor_paths=cursor_paths)
    inbox.activate(state)
    for wsid in workspace_ids:
        inbox.start_poller_thread(state, platform_url, wsid)
--- a/workspace/mcp_workspace_resolver.py
+++ b/workspace/mcp_workspace_resolver.py
@ -0,0 +1,146 @@
 """Env validation + workspace resolution for the standalone ``molecule-mcp``.
 Extracted from ``mcp_cli.py`` (RFC #2873 iter 3). Deals with the two
 shapes ``molecule-mcp`` accepts:
  * Single-workspace legacy shape: ``WORKSPACE_ID`` + token from
    ``MOLECULE_WORKSPACE_TOKEN`` or ``${CONFIGS_DIR}/.auth_token``.
  * Multi-workspace JSON shape: ``MOLECULE_WORKSPACES`` env var carries a
    JSON array of ``{"id": ..., "token": ...}`` entries.
 Public surface:
 * ``resolve_workspaces()`` → ``(workspaces, errors)``.
 * ``read_token_file()`` → token text or ``""``.
 * ``print_missing_env_help(missing, have_token_file)`` — operator-help
  printer.
 """
 from __future__ import annotations
 import json
 import os
 import sys
 import configs_dir
 def resolve_workspaces() -> tuple[list[tuple[str, str]], list[str]]:
    """Return the list of ``(workspace_id, token)`` pairs to register.
    Resolution order:
    1. ``MOLECULE_WORKSPACES`` env var — JSON array of
       ``{"id": "...", "token": "..."}`` objects. Activates the
       multi-workspace external-agent path (one process registered into
       N workspaces). When set, ``WORKSPACE_ID`` / ``MOLECULE_WORKSPACE_TOKEN``
       are IGNORED — the JSON is the source of truth.
    2. Single-workspace fallback — ``WORKSPACE_ID`` env var + token from
       ``MOLECULE_WORKSPACE_TOKEN`` or ``${CONFIGS_DIR}/.auth_token``.
       This is the pre-existing path; back-compat exact.
    Returns ``(workspaces, errors)``:
      * ``workspaces``: list of ``(workspace_id, token)`` — non-empty
        on the happy path.
      * ``errors``: human-readable strings describing what's missing /
        malformed. ``main()`` surfaces these with the same shape as
        ``print_missing_env_help`` so the operator's first run gives
        actionable output.
    Why JSON env (not file): ergonomic for Claude Code MCP config (one
    string in ``mcpServers.molecule.env`` instead of a sidecar file)
    and for CI / launchers. A separate config-file path can be added
    later without breaking this.
    """
    raw = os.environ.get("MOLECULE_WORKSPACES", "").strip()
    if raw:
        try:
            parsed = json.loads(raw)
        except json.JSONDecodeError as exc:
            return [], [
                f"MOLECULE_WORKSPACES is not valid JSON ({exc.msg} at pos "
                f"{exc.pos}). Expected: '[{{\"id\":\"<wsid>\",\"token\":"
                f"\"<tok>\"}},{{...}}]'"
            ]
        if not isinstance(parsed, list) or not parsed:
            return [], [
                "MOLECULE_WORKSPACES must be a non-empty JSON array of "
                "{\"id\":\"...\",\"token\":\"...\"} objects"
            ]
        out: list[tuple[str, str]] = []
        seen: set[str] = set()
        errors: list[str] = []
        for i, entry in enumerate(parsed):
            if not isinstance(entry, dict):
                errors.append(
                    f"MOLECULE_WORKSPACES[{i}] is not an object — got {type(entry).__name__}"
                )
                continue
            wsid = str(entry.get("id", "")).strip()
            tok = str(entry.get("token", "")).strip()
            if not wsid or not tok:
                errors.append(
                    f"MOLECULE_WORKSPACES[{i}] missing 'id' or 'token'"
                )
                continue
            if wsid in seen:
                errors.append(
                    f"MOLECULE_WORKSPACES[{i}] duplicate workspace id {wsid!r}"
                )
                continue
            seen.add(wsid)
            out.append((wsid, tok))
        if errors:
            return [], errors
        return out, []
    # Single-workspace back-compat path.
    wsid = os.environ.get("WORKSPACE_ID", "").strip()
    if not wsid:
        return [], ["WORKSPACE_ID (or MOLECULE_WORKSPACES) is required"]
    tok = os.environ.get("MOLECULE_WORKSPACE_TOKEN", "").strip()
    if not tok:
        tok = read_token_file()
    if not tok:
        return [], [
            "MOLECULE_WORKSPACE_TOKEN (or CONFIGS_DIR/.auth_token) is required"
        ]
    return [(wsid, tok)], []
 def print_missing_env_help(missing: list[str], have_token_file: bool) -> None:
    print("molecule-mcp: missing required environment.\n", file=sys.stderr)
    print("Set the following before running molecule-mcp:", file=sys.stderr)
    print("  WORKSPACE_ID                — your workspace UUID (from canvas)", file=sys.stderr)
    print(
        "  PLATFORM_URL                — base URL of your Molecule platform "
        "(e.g. https://your-tenant.staging.moleculesai.app)",
        file=sys.stderr,
    )
    if not have_token_file:
        print(
            "  MOLECULE_WORKSPACE_TOKEN    — bearer token for this workspace "
            "(canvas → Tokens tab)",
            file=sys.stderr,
        )
    print("", file=sys.stderr)
    print(f"Currently missing: {', '.join(missing)}", file=sys.stderr)
 def read_token_file() -> str:
    """Read the token from the resolved configs dir's ``.auth_token`` if
    present.
    Mirrors platform_auth._token_file's location resolution but without
    importing the heavy module here (that import triggers a2a_client's
    WORKSPACE_ID guard which is fine after env validation, but cheaper
    to inline a 4-line file read than pull in the whole stack just for
    the path).
    """
    path = configs_dir.resolve() / ".auth_token"
    if not path.is_file():
        return ""
    try:
        return path.read_text().strip()
    except OSError:
        return ""
--- a/workspace/tests/test_mcp_cli.py
+++ b/workspace/tests/test_mcp_cli.py
@ -13,6 +13,7 @@ from pathlib import Path
 import pytest
 import mcp_cli
 import mcp_heartbeat
@pytest.fixture(autouse=True)
@ -739,8 +740,13 @@ def test_heartbeat_loop_calls_persist_on_success(monkeypatch):
    def fake_persist(resp):
        saw.append(resp)
    # Patch on mcp_heartbeat — that's where heartbeat_loop's internal
    # name resolution looks up persist_inbound_secret_from_heartbeat
    # after the RFC #2873 iter 3 split. The mcp_cli._persist_…_from_heartbeat
    # back-compat re-export still exists, but patching it here would not
    # affect the loop body.
    monkeypatch.setattr(
-        mcp_cli, "_persist_inbound_secret_from_heartbeat", fake_persist
+        mcp_heartbeat, "persist_inbound_secret_from_heartbeat", fake_persist
    )
    class FakeResp:
@ -786,8 +792,8 @@ def test_heartbeat_loop_skips_persist_on_4xx(monkeypatch):
    """Heartbeat 4xx error path must NOT invoke persist (no body to trust)."""
    saw: list[object] = []
    monkeypatch.setattr(
-        mcp_cli,
+        mcp_heartbeat,
-        "_persist_inbound_secret_from_heartbeat",
+        "persist_inbound_secret_from_heartbeat",
        lambda r: saw.append(r),
    )
@ -899,7 +905,7 @@ def test_heartbeat_single_401_logs_warning_not_error(monkeypatch, caplog):
    transient platform blip. Log at WARNING; don't shout."""
    import logging
-    caplog.set_level(logging.WARNING, logger="mcp_cli")
+    caplog.set_level(logging.WARNING, logger="mcp_heartbeat")
    _multi_iter_runner(monkeypatch, [401])
@ -923,7 +929,7 @@ def test_heartbeat_three_consecutive_401s_escalates_to_error(monkeypatch, caplog
    LOUD ERROR with re-onboard guidance — not buried at WARNING."""
    import logging
-    caplog.set_level(logging.WARNING, logger="mcp_cli")
+    caplog.set_level(logging.WARNING, logger="mcp_heartbeat")
    _multi_iter_runner(monkeypatch, [401, 401, 401])
@ -949,7 +955,7 @@ def test_heartbeat_403_treated_same_as_401(monkeypatch, caplog):
    not authorized for this workspace). Same escalation path."""
    import logging
-    caplog.set_level(logging.WARNING, logger="mcp_cli")
+    caplog.set_level(logging.WARNING, logger="mcp_heartbeat")
    _multi_iter_runner(monkeypatch, [403, 403, 403])
@ -963,7 +969,7 @@ def test_heartbeat_recovery_resets_consecutive_counter(monkeypatch, caplog):
    later should NOT immediately escalate."""
    import logging
-    caplog.set_level(logging.WARNING, logger="mcp_cli")
+    caplog.set_level(logging.WARNING, logger="mcp_heartbeat")
    # Two 401s, then 200, then one 401. If counter resets correctly,
    # the final 401 is "1 consecutive" and should NOT escalate.
@ -982,7 +988,7 @@ def test_heartbeat_500_does_not_increment_auth_counter(monkeypatch, caplog):
    misleading the operator."""
    import logging
-    caplog.set_level(logging.WARNING, logger="mcp_cli")
+    caplog.set_level(logging.WARNING, logger="mcp_heartbeat")
    _multi_iter_runner(monkeypatch, [500, 500, 500])
--- a/workspace/tests/test_mcp_cli_split.py
+++ b/workspace/tests/test_mcp_cli_split.py
@ -0,0 +1,231 @@
 """RFC #2873 iter 3 — drift gate + behavior tests for the post-split surface.
 The bulk of the heartbeat / resolver behavior is exercised by
 ``test_mcp_cli.py`` and ``test_mcp_cli_multi_workspace.py`` through the
 ``mcp_cli._symbol`` back-compat aliases. This file pins:
  1. The split is **behavior-neutral via aliasing** — every previously-
     exposed ``mcp_cli._foo`` symbol is the SAME callable as the new
     module's authoritative function. If a refactor accidentally drops
     an alias or points it at a stale copy, this fails.
  2. ``mcp_inbox_pollers.start_inbox_pollers`` works for both single-
     workspace (legacy back-compat) and multi-workspace shapes.
     ``mcp_cli`` had no direct test for this branch before the split.
 """
 from __future__ import annotations
 import sys
 import types
 import pytest
 import mcp_cli
 import mcp_heartbeat
 import mcp_inbox_pollers
 import mcp_workspace_resolver
 # ============== Drift gate: back-compat aliases point at the real fn ==============
 class TestBackCompatAliases:
    """Pin that ``mcp_cli._foo is real_fn``. A test that re-implements
    the alias would still pass — the ``is`` check guarantees we didn't
    create a wrapper that drifts."""
    def test_heartbeat_aliases(self):
        assert mcp_cli._build_agent_card is mcp_heartbeat.build_agent_card
        assert mcp_cli._platform_register is mcp_heartbeat.platform_register
        assert mcp_cli._heartbeat_loop is mcp_heartbeat.heartbeat_loop
        assert mcp_cli._log_heartbeat_auth_failure is mcp_heartbeat.log_heartbeat_auth_failure
        assert (
            mcp_cli._persist_inbound_secret_from_heartbeat
            is mcp_heartbeat.persist_inbound_secret_from_heartbeat
        )
        assert mcp_cli._start_heartbeat_thread is mcp_heartbeat.start_heartbeat_thread
    def test_resolver_aliases(self):
        assert mcp_cli._resolve_workspaces is mcp_workspace_resolver.resolve_workspaces
        assert mcp_cli._print_missing_env_help is mcp_workspace_resolver.print_missing_env_help
        assert mcp_cli._read_token_file is mcp_workspace_resolver.read_token_file
    def test_inbox_pollers_alias(self):
        assert mcp_cli._start_inbox_pollers is mcp_inbox_pollers.start_inbox_pollers
    def test_constants_match(self):
        assert (
            mcp_cli.HEARTBEAT_INTERVAL_SECONDS
            == mcp_heartbeat.HEARTBEAT_INTERVAL_SECONDS
        )
        assert (
            mcp_cli._HEARTBEAT_AUTH_LOUD_THRESHOLD
            == mcp_heartbeat.HEARTBEAT_AUTH_LOUD_THRESHOLD
        )
        assert (
            mcp_cli._HEARTBEAT_AUTH_RELOG_INTERVAL
            == mcp_heartbeat.HEARTBEAT_AUTH_RELOG_INTERVAL
        )
 # ============== mcp_inbox_pollers — both shapes + degraded import ==============
 class _FakeInboxState:
    def __init__(self, **kwargs):
        self.kwargs = kwargs
 def _install_fake_inbox(monkeypatch):
    """Inject a fake ``inbox`` module so we observe the spawn calls
    without pulling in the real platform_auth dependency tree."""
    activations: list[_FakeInboxState] = []
    spawned: list[tuple[_FakeInboxState, str, str]] = []
    cursor_paths: list[str] = []
    def default_cursor_path(wsid=None):
        # Mirror the real signature: optional wsid → distinct path per id,
        # absent → legacy single path.
        path = f"/tmp/.mcp_inbox_cursor.{wsid[:8]}" if wsid else "/tmp/.mcp_inbox_cursor"
        cursor_paths.append(path)
        return path
    def activate(state):
        activations.append(state)
    def start_poller_thread(state, platform_url, wsid):
        spawned.append((state, platform_url, wsid))
    fake = types.ModuleType("inbox")
    fake.InboxState = _FakeInboxState
    fake.activate = activate
    fake.default_cursor_path = default_cursor_path
    fake.start_poller_thread = start_poller_thread
    monkeypatch.setitem(sys.modules, "inbox", fake)
    return activations, spawned, cursor_paths
 class TestStartInboxPollers:
    def test_single_workspace_uses_legacy_cursor_path(self, monkeypatch):
        """Back-compat exact: single-workspace mode reuses the legacy
        cursor filename so an existing operator's on-disk state isn't
        invalidated by upgrade."""
        activations, spawned, cursor_paths = _install_fake_inbox(monkeypatch)
        mcp_inbox_pollers.start_inbox_pollers(
            "https://test.moleculesai.app", ["ws-only-one"]
        )
        assert len(activations) == 1, "exactly one inbox.activate call"
        assert len(spawned) == 1, "exactly one poller thread spawned"
        # Single-workspace path uses default_cursor_path() with no arg —
        # the cursor_path captured here must be the legacy filename
        # (no per-ws suffix).
        assert cursor_paths == ["/tmp/.mcp_inbox_cursor"]
        # State carries cursor_path, not cursor_paths
        state = activations[0]
        assert state.kwargs == {"cursor_path": "/tmp/.mcp_inbox_cursor"}
        # Spawned poller is for the right workspace
        assert spawned[0] == (state, "https://test.moleculesai.app", "ws-only-one")
    def test_multi_workspace_uses_per_workspace_cursor_paths(self, monkeypatch):
        """Multi-workspace path: per-workspace cursor file, one shared
        InboxState. N pollers, each pointed at the same state so the
        agent's inbox_peek/pop sees a merged view."""
        activations, spawned, _ = _install_fake_inbox(monkeypatch)
        wsids = ["ws-aaaaaaaa", "ws-bbbbbbbb", "ws-cccccccc"]
        mcp_inbox_pollers.start_inbox_pollers(
            "https://test.moleculesai.app", wsids
        )
        # One state, one activate, three pollers
        assert len(activations) == 1
        assert len(spawned) == 3
        state = activations[0]
        # Multi-workspace state carries cursor_paths (mapping)
        assert "cursor_paths" in state.kwargs
        assert set(state.kwargs["cursor_paths"].keys()) == set(wsids)
        # All pollers share the same state
        for s, _url, _wsid in spawned:
            assert s is state
        # All workspace ids covered
        assert sorted(t[2] for t in spawned) == sorted(wsids)
    def test_inbox_module_unavailable_logs_and_returns(self, monkeypatch, caplog):
        """If ``import inbox`` fails (older install or stripped
        runtime), spawn must NOT raise — log a warning and continue.
        The MCP server can still serve outbound tools."""
        import logging
        # Force ImportError by injecting a module sentinel that raises.
        class _Boom:
            def __getattr__(self, _name):
                raise ImportError("inbox stripped from this build")
        # Setting sys.modules["inbox"] to a broken object isn't enough —
        # the import statement reads sys.modules first; if the entry is
        # truthy, Python returns it. We need to force the import to raise.
        # Easiest: pre-poison sys.modules so the `import inbox` line
        # raises by setting the entry to None (Python special-cases None
        # as "explicit ImportError").
        monkeypatch.setitem(sys.modules, "inbox", None)
        caplog.set_level(logging.WARNING, logger="mcp_inbox_pollers")
        # Should not raise.
        mcp_inbox_pollers.start_inbox_pollers(
            "https://test.moleculesai.app", ["ws-1"]
        )
        warnings = [r for r in caplog.records if r.levelno == logging.WARNING]
        assert any("inbox module unavailable" in r.message for r in warnings), (
            f"expected a 'inbox module unavailable' warning, got: "
            f"{[r.message for r in warnings]}"
        )
 # ============== mcp_heartbeat.build_agent_card — short direct tests ==============
 class TestBuildAgentCardDirect:
    """Spot-check the new module's public surface; the full test matrix
    lives in ``test_mcp_cli.py`` reaching through ``mcp_cli._build_agent_card``.
    """
    def test_default_card_shape(self, monkeypatch):
        for v in ("MOLECULE_AGENT_NAME", "MOLECULE_AGENT_DESCRIPTION", "MOLECULE_AGENT_SKILLS"):
            monkeypatch.delenv(v, raising=False)
        card = mcp_heartbeat.build_agent_card("8dad3e29-c32a-4ec7-9ea7-94fe2d2d98ec")
        assert card == {"name": "molecule-mcp-8dad3e29", "skills": []}
    def test_skills_csv_split_and_trim(self, monkeypatch):
        monkeypatch.setenv("MOLECULE_AGENT_SKILLS", "research, , code-review,memory-curation, ")
        card = mcp_heartbeat.build_agent_card("ws-1")
        assert card["skills"] == [
            {"name": "research"},
            {"name": "code-review"},
            {"name": "memory-curation"},
        ]
 # ============== mcp_workspace_resolver — short direct tests ==============
 class TestResolveWorkspacesDirect:
    @pytest.fixture(autouse=True)
    def _isolate(self, monkeypatch, tmp_path):
        for v in ("WORKSPACE_ID", "MOLECULE_WORKSPACE_TOKEN", "MOLECULE_WORKSPACES"):
            monkeypatch.delenv(v, raising=False)
        monkeypatch.setenv("CONFIGS_DIR", str(tmp_path))
        yield
    def test_single_workspace_via_env(self, monkeypatch):
        monkeypatch.setenv("WORKSPACE_ID", "ws-1")
        monkeypatch.setenv("MOLECULE_WORKSPACE_TOKEN", "tok")
        out, errors = mcp_workspace_resolver.resolve_workspaces()
        assert out == [("ws-1", "tok")]
        assert errors == []
    def test_multi_workspace_via_json_env(self, monkeypatch):
        monkeypatch.setenv(
            "MOLECULE_WORKSPACES",
            '[{"id":"ws-a","token":"a"},{"id":"ws-b","token":"b"}]',
        )
        out, errors = mcp_workspace_resolver.resolve_workspaces()
        assert out == [("ws-a", "a"), ("ws-b", "b")]
        assert errors == []