hermes-bsd/tests/plugins/memory/test_memory_lazy_install.py
Ben Barclay 1289f12812 fix(memory): lazy-install supermemory + mem0 SDKs like honcho/hindsight
The supermemory and mem0 memory providers shipped third-party SDKs
(supermemory / mem0ai) that are not core dependencies, but — unlike the
honcho and hindsight providers — they imported those SDKs directly with
no tools.lazy_deps.ensure() preflight and had no LAZY_DEPS allowlist
entry. On the published Docker image the agent venv is sealed
(HERMES_DISABLE_LAZY_INSTALLS=1) and lazy installs are redirected to a
writable durable target (HERMES_LAZY_INSTALL_TARGET). honcho/hindsight
route through ensure() and install fine there; supermemory/mem0 never
called it, so their SDK was never installed on a hosted instance and the
provider silently reported itself unavailable even with the API key set.

Fixes:
- Add memory.supermemory + memory.mem0 to the LAZY_DEPS allowlist
  (tools/lazy_deps.py), pinned to current PyPI releases.
- Call ensure('memory.<x>', prompt=False) at each SDK-import chokepoint
  (_SupermemoryClient.__init__; Mem0MemoryProvider._create_backend),
  mirroring honcho's wrapped try/except shape.
- Drop the SDK-import gate from supermemory's is_available() — it was a
  chicken-and-egg trap (provider never loaded on a sealed venv, so
  ensure() never ran). Now key-presence only, like honcho/mem0.
- Add matching pyproject extras [supermemory]/[mem0]; update the
  lazy-covered-extras contract test (excluded from [all] by policy).

Tests prove each path fails without the fix and the real sealed-venv
durable-target gate accepts both features.
2026-06-29 00:25:36 -07:00

254 lines
10 KiB
Python

"""Regression tests: supermemory + mem0 memory providers must lazy-install
their SDKs like honcho/hindsight.
Both providers ship a third-party SDK (``supermemory`` / ``mem0ai``) that is
NOT a core dependency. Before this fix they imported the SDK directly with no
``tools.lazy_deps.ensure()`` preflight and had no ``LAZY_DEPS`` allowlist
entry. On the published Docker image the agent venv is sealed
(``HERMES_DISABLE_LAZY_INSTALLS=1``) and lazy installs are redirected to a
writable durable target (``HERMES_LAZY_INSTALL_TARGET``). honcho/hindsight
route through ``ensure()`` and therefore install fine on a hosted instance;
supermemory/mem0 never called it, so the SDK was never installed there and
the provider silently reported itself unavailable.
These tests pin the contract:
1. Both features are in the ``LAZY_DEPS`` allowlist (without an entry,
``ensure()`` raises ``FeatureUnavailable`` — the original silent-dark bug).
2. Each provider's SDK-import chokepoint actually calls ``ensure(<feature>)``.
3. supermemory's ``is_available()`` no longer gates on the SDK being
importable (the chicken-and-egg trap that stopped the provider loading at
all on a sealed venv, so ``initialize()``/``ensure()`` never ran).
4. The real sealed-venv durable-target gate accepts the new features (the
exact hosted-Fly condition the user hit).
The pip subprocess is never actually run — ``_venv_pip_install`` /
``_is_satisfied`` are stubbed so we exercise the real ``ensure()`` control
flow without touching PyPI.
"""
from __future__ import annotations
import os
import pytest
import tools.lazy_deps as ld
MEMORY_FEATURES = ("memory.supermemory", "memory.mem0")
# ---------------------------------------------------------------------------
# 1. Allowlist contract — the core regression.
# ---------------------------------------------------------------------------
class TestAllowlistEntries:
@pytest.mark.parametrize("feature", MEMORY_FEATURES)
def test_feature_is_allowlisted(self, feature):
# Without an allowlist entry, ensure() raises FeatureUnavailable with
# "not in LAZY_DEPS" — which is exactly why the SDK never installed on
# a hosted instance before this fix.
assert feature in ld.LAZY_DEPS, (
f"{feature!r} missing from LAZY_DEPS — its SDK can never "
f"lazy-install on a sealed Docker venv."
)
@pytest.mark.parametrize("feature", MEMORY_FEATURES)
def test_feature_specs_pass_safety(self, feature):
for spec in ld.LAZY_DEPS[feature]:
assert ld._spec_is_safe(spec), f"{feature}: {spec!r} fails safety"
def test_supermemory_spec_package(self):
specs = ld.LAZY_DEPS["memory.supermemory"]
assert any(ld._pkg_name_from_spec(s) == "supermemory" for s in specs)
def test_mem0_spec_package(self):
# mem0's pip package is ``mem0ai`` (imports as ``mem0``).
specs = ld.LAZY_DEPS["memory.mem0"]
assert any(ld._pkg_name_from_spec(s) == "mem0ai" for s in specs)
@pytest.mark.parametrize("feature", MEMORY_FEATURES)
def test_unknown_feature_would_raise_without_entry(self, feature, monkeypatch):
# Demonstrate the failure mode the allowlist entry prevents: a feature
# NOT in LAZY_DEPS raises rather than installing.
monkeypatch.setattr(ld, "_allow_lazy_installs", lambda: True)
with pytest.raises(ld.FeatureUnavailable, match="not in LAZY_DEPS"):
ld.ensure(feature + ".typo", prompt=False)
# ---------------------------------------------------------------------------
# 2. Import sites call ensure().
# ---------------------------------------------------------------------------
class TestSupermemoryEnsureCalled:
def test_client_construction_calls_ensure(self, monkeypatch):
"""_SupermemoryClient.__init__ must call ensure('memory.supermemory')
before importing the SDK."""
from plugins.memory.supermemory import _SupermemoryClient
calls = []
monkeypatch.setattr(
ld, "ensure",
lambda feature, **kw: calls.append((feature, kw)),
)
# Stub the SDK so construction doesn't need the real package. The
# client does ``from supermemory import Supermemory`` right after
# ensure(); inject a fake module.
import sys
import types
fake = types.ModuleType("supermemory")
fake.Supermemory = lambda **kw: object()
monkeypatch.setitem(sys.modules, "supermemory", fake)
_SupermemoryClient(api_key="k", timeout=5.0, container_tag="hermes")
assert ("memory.supermemory", {"prompt": False}) in calls, (
"supermemory client did not call ensure('memory.supermemory', "
f"prompt=False); calls={calls}"
)
class TestMem0EnsureCalled:
def test_create_backend_calls_ensure(self, monkeypatch):
"""SupermemoryMemoryProvider-style mem0 provider must call
ensure('memory.mem0') in _create_backend before importing the SDK."""
from plugins.memory.mem0 import Mem0MemoryProvider
calls = []
monkeypatch.setattr(
ld, "ensure",
lambda feature, **kw: calls.append((feature, kw)),
)
prov = Mem0MemoryProvider()
# Platform mode is the default; force a known mode and stub the backend
# import so we isolate the ensure() call.
prov._mode = "platform"
prov._api_key = "k"
import sys
import types
fake = types.ModuleType("mem0")
fake.MemoryClient = lambda **kw: object()
fake.Memory = object
monkeypatch.setitem(sys.modules, "mem0", fake)
# _backend imports ``from mem0 import MemoryClient`` lazily inside
# PlatformBackend.__init__, so the fake module satisfies it.
prov._create_backend()
assert ("memory.mem0", {"prompt": False}) in calls, (
f"mem0 _create_backend did not call ensure('memory.mem0', "
f"prompt=False); calls={calls}"
)
# ---------------------------------------------------------------------------
# 3. supermemory is_available() chicken-and-egg fix.
# ---------------------------------------------------------------------------
class TestSupermemoryIsAvailable:
def test_available_with_key_even_when_sdk_absent(self, monkeypatch):
"""With the key set but the SDK not importable, is_available() must
still return True — otherwise the provider never loads on a sealed
venv and ensure() (which installs the SDK) never runs."""
from plugins.memory.supermemory import SupermemoryMemoryProvider
import builtins
monkeypatch.setenv("SUPERMEMORY_API_KEY", "sk-test")
# Make any attempt to import the SDK fail, simulating the
# not-yet-installed sealed-venv state.
real_import = builtins.__import__
def _no_supermemory(name, *args, **kwargs):
if name == "supermemory" or name.startswith("supermemory."):
raise ImportError("No module named 'supermemory'")
return real_import(name, *args, **kwargs)
monkeypatch.setattr(builtins, "__import__", _no_supermemory)
prov = SupermemoryMemoryProvider()
assert prov.is_available() is True
def test_unavailable_without_key(self, monkeypatch):
from plugins.memory.supermemory import SupermemoryMemoryProvider
monkeypatch.delenv("SUPERMEMORY_API_KEY", raising=False)
prov = SupermemoryMemoryProvider()
assert prov.is_available() is False
# ---------------------------------------------------------------------------
# 4. Real sealed-venv durable-target gate accepts the new features.
#
# This is the exact hosted-Fly condition: HERMES_DISABLE_LAZY_INSTALLS=1 seals
# the venv, but HERMES_LAZY_INSTALL_TARGET redirects installs to a writable
# durable dir, so installs are still ALLOWED. We exercise the real
# _allow_lazy_installs() + ensure() flow end-to-end with only the pip
# subprocess stubbed.
# ---------------------------------------------------------------------------
class TestSealedVenvDurableTarget:
@pytest.mark.parametrize("feature", MEMORY_FEATURES)
def test_ensure_installs_into_durable_target_on_sealed_venv(
self, feature, monkeypatch, tmp_path
):
# Sealed venv + durable target = the published Docker image config.
monkeypatch.setenv("HERMES_DISABLE_LAZY_INSTALLS", "1")
monkeypatch.setenv("HERMES_LAZY_INSTALL_TARGET", str(tmp_path / "lazy"))
# config.yaml kill-switch left at default (allow).
monkeypatch.setattr(
"hermes_cli.config.load_config",
lambda: {"security": {"allow_lazy_installs": True}},
)
# Real gate must permit installs because a durable target is set.
assert ld._allow_lazy_installs() is True, (
"sealed venv WITH a durable target must allow installs — this is "
"the path honcho/hindsight use on hosted Fly instances"
)
# Drive ensure(): missing first, satisfied after the (stubbed) install.
states = iter([False, True])
monkeypatch.setattr(ld, "_is_satisfied", lambda spec: next(states))
captured = {}
def fake_install(specs, **kw):
captured["specs"] = specs
captured["target_env"] = os.environ.get("HERMES_LAZY_INSTALL_TARGET")
return ld._InstallResult(True, "ok", "")
monkeypatch.setattr(ld, "_venv_pip_install", fake_install)
ld.ensure(feature, prompt=False) # must not raise
assert captured.get("specs") == ld.LAZY_DEPS[feature]
assert captured.get("target_env"), (
"install ran without the durable target env set"
)
@pytest.mark.parametrize("feature", MEMORY_FEATURES)
def test_sealed_venv_without_target_blocks(self, feature, monkeypatch):
# Sealed venv and NO durable target → installs blocked (can't mutate
# the sealed venv). Belt-and-suspenders: confirms the gate still
# protects the seal for these features.
monkeypatch.setenv("HERMES_DISABLE_LAZY_INSTALLS", "1")
monkeypatch.delenv("HERMES_LAZY_INSTALL_TARGET", raising=False)
monkeypatch.setattr(
"hermes_cli.config.load_config",
lambda: {"security": {"allow_lazy_installs": True}},
)
monkeypatch.setattr(ld, "_is_satisfied", lambda spec: False)
with pytest.raises(ld.FeatureUnavailable, match="lazy installs disabled"):
ld.ensure(feature, prompt=False)