"""Tests for the memory provider interface, manager, and builtin provider."""
import json
import pytest
from unittest.mock import MagicMock, patch
from agent.memory_provider import MemoryProvider
from agent.memory_manager import MemoryManager
# ---------------------------------------------------------------------------
# Concrete test provider
# ---------------------------------------------------------------------------
class FakeMemoryProvider(MemoryProvider):
"""Minimal concrete provider for testing."""
def __init__(self, name="fake", available=True, tools=None):
self._name = name
self._available = available
self._tools = tools or []
self.initialized = False
self.synced_turns = []
self.prefetch_queries = []
self.queued_prefetches = []
self.turn_starts = []
self.session_end_called = False
self.pre_compress_called = False
self.memory_writes = []
self.shutdown_called = False
self._prefetch_result = ""
self._prompt_block = ""
@property
def name(self) -> str:
return self._name
def is_available(self) -> bool:
return self._available
def initialize(self, session_id, **kwargs):
self.initialized = True
self._init_kwargs = {"session_id": session_id, **kwargs}
def system_prompt_block(self) -> str:
return self._prompt_block
def prefetch(self, query, *, session_id=""):
self.prefetch_queries.append(query)
return self._prefetch_result
def queue_prefetch(self, query, *, session_id=""):
self.queued_prefetches.append(query)
def sync_turn(self, user_content, assistant_content, *, session_id=""):
self.synced_turns.append((user_content, assistant_content))
def get_tool_schemas(self):
return self._tools
def handle_tool_call(self, tool_name, args, **kwargs):
return json.dumps({"handled": tool_name, "args": args})
def shutdown(self):
self.shutdown_called = True
def on_turn_start(self, turn_number, message):
self.turn_starts.append((turn_number, message))
def on_session_end(self, messages):
self.session_end_called = True
def on_pre_compress(self, messages):
self.pre_compress_called = True
def on_memory_write(self, action, target, content):
self.memory_writes.append((action, target, content))
class MetadataMemoryProvider(FakeMemoryProvider):
"""Provider that opts into write metadata."""
def on_memory_write(self, action, target, content, metadata=None):
self.memory_writes.append((action, target, content, metadata or {}))
# ---------------------------------------------------------------------------
# MemoryProvider ABC tests
# ---------------------------------------------------------------------------
class TestMemoryProviderABC:
def test_cannot_instantiate_abstract(self):
"""ABC cannot be instantiated directly."""
with pytest.raises(TypeError):
MemoryProvider()
def test_concrete_provider_works(self):
"""Concrete implementation can be instantiated."""
p = FakeMemoryProvider()
assert p.name == "fake"
assert p.is_available()
def test_default_optional_hooks_are_noop(self):
"""Optional hooks have default no-op implementations."""
p = FakeMemoryProvider()
# These should not raise
p.on_turn_start(1, "hello")
p.on_session_end([])
p.on_pre_compress([])
p.on_memory_write("add", "memory", "test")
p.queue_prefetch("query")
p.sync_turn("user", "assistant")
p.shutdown()
# ---------------------------------------------------------------------------
# MemoryManager tests
# ---------------------------------------------------------------------------
class TestMemoryManager:
def test_empty_manager(self):
mgr = MemoryManager()
assert mgr.providers == []
assert [p.name for p in mgr.providers] == []
assert mgr.get_all_tool_schemas() == []
assert mgr.build_system_prompt() == ""
assert mgr.prefetch_all("test") == ""
def test_add_provider(self):
mgr = MemoryManager()
p = FakeMemoryProvider("test1")
mgr.add_provider(p)
assert len(mgr.providers) == 1
assert [p.name for p in mgr.providers] == ["test1"]
def test_get_provider_by_name(self):
mgr = MemoryManager()
p = FakeMemoryProvider("test1")
mgr.add_provider(p)
assert mgr.get_provider("test1") is p
assert mgr.get_provider("nonexistent") is None
def test_builtin_plus_external(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p2 = FakeMemoryProvider("external")
mgr.add_provider(p1)
mgr.add_provider(p2)
assert [p.name for p in mgr.providers] == ["builtin", "external"]
def test_second_external_rejected(self):
"""Only one non-builtin provider is allowed."""
mgr = MemoryManager()
builtin = FakeMemoryProvider("builtin")
ext1 = FakeMemoryProvider("mem0")
ext2 = FakeMemoryProvider("hindsight")
mgr.add_provider(builtin)
mgr.add_provider(ext1)
mgr.add_provider(ext2) # should be rejected
assert [p.name for p in mgr.providers] == ["builtin", "mem0"]
assert len(mgr.providers) == 2
def test_system_prompt_merges_blocks(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1._prompt_block = "Block from builtin"
p2 = FakeMemoryProvider("external")
p2._prompt_block = "Block from external"
mgr.add_provider(p1)
mgr.add_provider(p2)
result = mgr.build_system_prompt()
assert "Block from builtin" in result
assert "Block from external" in result
def test_system_prompt_skips_empty(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1._prompt_block = "Has content"
p2 = FakeMemoryProvider("external")
p2._prompt_block = ""
mgr.add_provider(p1)
mgr.add_provider(p2)
result = mgr.build_system_prompt()
assert result == "Has content"
def test_prefetch_merges_results(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1._prefetch_result = "Memory from builtin"
p2 = FakeMemoryProvider("external")
p2._prefetch_result = "Memory from external"
mgr.add_provider(p1)
mgr.add_provider(p2)
result = mgr.prefetch_all("what do you know?")
assert "Memory from builtin" in result
assert "Memory from external" in result
assert p1.prefetch_queries == ["what do you know?"]
assert p2.prefetch_queries == ["what do you know?"]
def test_prefetch_skips_empty(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1._prefetch_result = "Has memories"
p2 = FakeMemoryProvider("external")
p2._prefetch_result = ""
mgr.add_provider(p1)
mgr.add_provider(p2)
result = mgr.prefetch_all("query")
assert result == "Has memories"
def test_queue_prefetch_all(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p2 = FakeMemoryProvider("external")
mgr.add_provider(p1)
mgr.add_provider(p2)
mgr.queue_prefetch_all("next turn")
assert p1.queued_prefetches == ["next turn"]
assert p2.queued_prefetches == ["next turn"]
def test_sync_all(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p2 = FakeMemoryProvider("external")
mgr.add_provider(p1)
mgr.add_provider(p2)
mgr.sync_all("user msg", "assistant msg")
assert p1.synced_turns == [("user msg", "assistant msg")]
assert p2.synced_turns == [("user msg", "assistant msg")]
def test_sync_failure_doesnt_block_others(self):
"""If one provider's sync fails, others still run."""
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1.sync_turn = MagicMock(side_effect=RuntimeError("boom"))
p2 = FakeMemoryProvider("external")
mgr.add_provider(p1)
mgr.add_provider(p2)
mgr.sync_all("user", "assistant")
# p1 failed but p2 still synced
assert p2.synced_turns == [("user", "assistant")]
# -- Tool routing -------------------------------------------------------
def test_tool_schemas_collected(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin", tools=[
{"name": "recall_builtin", "description": "Builtin recall", "parameters": {}}
])
p2 = FakeMemoryProvider("external", tools=[
{"name": "recall_ext", "description": "External recall", "parameters": {}}
])
mgr.add_provider(p1)
mgr.add_provider(p2)
schemas = mgr.get_all_tool_schemas()
names = {s["name"] for s in schemas}
assert names == {"recall_builtin", "recall_ext"}
def test_tool_name_conflict_first_wins(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin", tools=[
{"name": "shared_tool", "description": "From builtin", "parameters": {}}
])
p2 = FakeMemoryProvider("external", tools=[
{"name": "shared_tool", "description": "From external", "parameters": {}}
])
mgr.add_provider(p1)
mgr.add_provider(p2)
assert mgr.has_tool("shared_tool")
result = json.loads(mgr.handle_tool_call("shared_tool", {"q": "test"}))
assert result["handled"] == "shared_tool"
# Should be handled by p1 (first registered)
def test_handle_unknown_tool(self):
mgr = MemoryManager()
result = json.loads(mgr.handle_tool_call("nonexistent", {}))
assert "error" in result
def test_tool_routing(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin", tools=[
{"name": "builtin_tool", "description": "Builtin", "parameters": {}}
])
p2 = FakeMemoryProvider("external", tools=[
{"name": "ext_tool", "description": "External", "parameters": {}}
])
mgr.add_provider(p1)
mgr.add_provider(p2)
r1 = json.loads(mgr.handle_tool_call("builtin_tool", {"a": 1}))
assert r1["handled"] == "builtin_tool"
r2 = json.loads(mgr.handle_tool_call("ext_tool", {"b": 2}))
assert r2["handled"] == "ext_tool"
# -- Lifecycle hooks -----------------------------------------------------
def test_on_turn_start(self):
mgr = MemoryManager()
p = FakeMemoryProvider("p")
mgr.add_provider(p)
mgr.on_turn_start(3, "hello")
assert p.turn_starts == [(3, "hello")]
def test_on_session_end(self):
mgr = MemoryManager()
p = FakeMemoryProvider("p")
mgr.add_provider(p)
mgr.on_session_end([{"role": "user", "content": "hi"}])
assert p.session_end_called
def test_on_pre_compress(self):
mgr = MemoryManager()
p = FakeMemoryProvider("p")
mgr.add_provider(p)
mgr.on_pre_compress([{"role": "user", "content": "old"}])
assert p.pre_compress_called
def test_shutdown_all_reverse_order(self):
mgr = MemoryManager()
order = []
p1 = FakeMemoryProvider("builtin")
p1.shutdown = lambda: order.append("builtin")
p2 = FakeMemoryProvider("external")
p2.shutdown = lambda: order.append("external")
mgr.add_provider(p1)
mgr.add_provider(p2)
mgr.shutdown_all()
assert order == ["external", "builtin"] # reverse order
def test_initialize_all(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p2 = FakeMemoryProvider("external")
mgr.add_provider(p1)
mgr.add_provider(p2)
mgr.initialize_all(session_id="test-123", platform="cli")
assert p1.initialized
assert p2.initialized
assert p1._init_kwargs["session_id"] == "test-123"
assert p1._init_kwargs["platform"] == "cli"
# -- Error resilience ---------------------------------------------------
def test_prefetch_failure_doesnt_block(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1.prefetch = MagicMock(side_effect=RuntimeError("network error"))
p2 = FakeMemoryProvider("external")
p2._prefetch_result = "external memory"
mgr.add_provider(p1)
mgr.add_provider(p2)
result = mgr.prefetch_all("query")
assert "external memory" in result
def test_system_prompt_failure_doesnt_block(self):
mgr = MemoryManager()
p1 = FakeMemoryProvider("builtin")
p1.system_prompt_block = MagicMock(side_effect=RuntimeError("broken"))
p2 = FakeMemoryProvider("external")
p2._prompt_block = "works fine"
mgr.add_provider(p1)
mgr.add_provider(p2)
result = mgr.build_system_prompt()
assert result == "works fine"
class TestPluginMemoryDiscovery:
"""Memory providers are discovered from plugins/memory/ directory."""
def test_discover_finds_providers(self):
"""discover_memory_providers returns available providers."""
from plugins.memory import discover_memory_providers
providers = discover_memory_providers()
names = [name for name, _, _ in providers]
assert "holographic" in names # always available (no external deps)
def test_load_provider_by_name(self):
"""load_memory_provider returns a working provider instance."""
from plugins.memory import load_memory_provider
p = load_memory_provider("holographic")
assert p is not None
assert p.name == "holographic"
assert p.is_available()
def test_load_nonexistent_returns_none(self):
"""load_memory_provider returns None for unknown names."""
from plugins.memory import load_memory_provider
assert load_memory_provider("nonexistent_provider") is None
class TestUserInstalledProviderDiscovery:
"""Memory providers installed to $HERMES_HOME/plugins/ should be found.
Regression test for issues #4956 and #9099: load_memory_provider() and
discover_memory_providers() only scanned the bundled plugins/memory/
directory, ignoring user-installed plugins.
"""
def _make_user_memory_plugin(self, tmp_path, name="myprovider"):
"""Create a minimal user memory provider plugin."""
plugin_dir = tmp_path / "plugins" / name
plugin_dir.mkdir(parents=True)
(plugin_dir / "__init__.py").write_text(
"from agent.memory_provider import MemoryProvider\n"
"class MyProvider(MemoryProvider):\n"
f" @property\n"
f" def name(self): return {name!r}\n"
" def is_available(self): return True\n"
" def initialize(self, **kw): pass\n"
" def sync_turn(self, *a, **kw): pass\n"
" def get_tool_schemas(self): return []\n"
" def handle_tool_call(self, *a, **kw): return '{}'\n"
)
(plugin_dir / "plugin.yaml").write_text(
f"name: {name}\ndescription: Test user provider\n"
)
return plugin_dir
def test_discover_finds_user_plugins(self, tmp_path, monkeypatch):
"""discover_memory_providers() includes user-installed plugins."""
from plugins.memory import discover_memory_providers, _get_user_plugins_dir
self._make_user_memory_plugin(tmp_path, "myexternal")
monkeypatch.setattr(
"plugins.memory._get_user_plugins_dir",
lambda: tmp_path / "plugins",
)
providers = discover_memory_providers()
names = [n for n, _, _ in providers]
assert "myexternal" in names
assert "holographic" in names # bundled still found
def test_load_user_plugin(self, tmp_path, monkeypatch):
"""load_memory_provider() can load from $HERMES_HOME/plugins/."""
from plugins.memory import load_memory_provider
self._make_user_memory_plugin(tmp_path, "myexternal")
monkeypatch.setattr(
"plugins.memory._get_user_plugins_dir",
lambda: tmp_path / "plugins",
)
p = load_memory_provider("myexternal")
assert p is not None
assert p.name == "myexternal"
assert p.is_available()
def test_bundled_takes_precedence(self, tmp_path, monkeypatch):
"""Bundled provider wins when user plugin has the same name."""
from plugins.memory import load_memory_provider, discover_memory_providers
# Create user plugin named "holographic" (same as bundled)
plugin_dir = tmp_path / "plugins" / "holographic"
plugin_dir.mkdir(parents=True)
(plugin_dir / "__init__.py").write_text(
"from agent.memory_provider import MemoryProvider\n"
"class Fake(MemoryProvider):\n"
" @property\n"
" def name(self): return 'holographic-FAKE'\n"
" def is_available(self): return True\n"
" def initialize(self, **kw): pass\n"
" def sync_turn(self, *a, **kw): pass\n"
" def get_tool_schemas(self): return []\n"
" def handle_tool_call(self, *a, **kw): return '{}'\n"
)
monkeypatch.setattr(
"plugins.memory._get_user_plugins_dir",
lambda: tmp_path / "plugins",
)
# Load should return bundled (name "holographic"), not user (name "holographic-FAKE")
p = load_memory_provider("holographic")
assert p is not None
assert p.name == "holographic" # bundled wins
# discover should not duplicate
providers = discover_memory_providers()
holo_count = sum(1 for n, _, _ in providers if n == "holographic")
assert holo_count == 1
def test_non_memory_user_plugins_excluded(self, tmp_path, monkeypatch):
"""User plugins that don't reference MemoryProvider are skipped."""
from plugins.memory import discover_memory_providers
plugin_dir = tmp_path / "plugins" / "notmemory"
plugin_dir.mkdir(parents=True)
(plugin_dir / "__init__.py").write_text(
"def register(ctx):\n ctx.register_tool('foo', 'bar', {}, lambda: None)\n"
)
monkeypatch.setattr(
"plugins.memory._get_user_plugins_dir",
lambda: tmp_path / "plugins",
)
providers = discover_memory_providers()
names = [n for n, _, _ in providers]
assert "notmemory" not in names
# ---------------------------------------------------------------------------
# Sequential dispatch routing tests
# ---------------------------------------------------------------------------
class TestSequentialDispatchRouting:
"""Verify that memory provider tools are correctly routed through
memory_manager.has_tool() and handle_tool_call().
This is a regression test for a bug where _execute_tool_calls_sequential
in run_agent.py had its own inline dispatch chain that skipped
memory_manager.has_tool(), causing all memory provider tools to fall
through to the registry and return "Unknown tool". The fix added
has_tool() + handle_tool_call() to the sequential path.
These tests verify the memory_manager contract that both dispatch
paths rely on: has_tool() returns True for registered provider tools,
and handle_tool_call() routes to the correct provider.
"""
def test_has_tool_returns_true_for_provider_tools(self):
"""has_tool returns True for tools registered by memory providers."""
mgr = MemoryManager()
provider = FakeMemoryProvider("ext", tools=[
{"name": "ext_recall", "description": "Ext recall", "parameters": {}},
{"name": "ext_retain", "description": "Ext retain", "parameters": {}},
])
mgr.add_provider(provider)
assert mgr.has_tool("ext_recall")
assert mgr.has_tool("ext_retain")
def test_has_tool_returns_false_for_builtin_tools(self):
"""has_tool returns False for agent-level tools (terminal, memory, etc.)."""
mgr = MemoryManager()
provider = FakeMemoryProvider("ext", tools=[
{"name": "ext_recall", "description": "Ext", "parameters": {}},
])
mgr.add_provider(provider)
assert not mgr.has_tool("terminal")
assert not mgr.has_tool("memory")
assert not mgr.has_tool("todo")
assert not mgr.has_tool("session_search")
assert not mgr.has_tool("nonexistent")
def test_handle_tool_call_routes_to_provider(self):
"""handle_tool_call dispatches to the correct provider's handler."""
mgr = MemoryManager()
provider = FakeMemoryProvider("hindsight", tools=[
{"name": "hindsight_recall", "description": "Recall", "parameters": {}},
{"name": "hindsight_retain", "description": "Retain", "parameters": {}},
])
mgr.add_provider(provider)
result = json.loads(mgr.handle_tool_call("hindsight_recall", {"query": "alice"}))
assert result["handled"] == "hindsight_recall"
assert result["args"] == {"query": "alice"}
def test_handle_tool_call_unknown_returns_error(self):
"""handle_tool_call returns error for tools not in any provider."""
mgr = MemoryManager()
provider = FakeMemoryProvider("ext", tools=[
{"name": "ext_recall", "description": "Ext", "parameters": {}},
])
mgr.add_provider(provider)
result = json.loads(mgr.handle_tool_call("terminal", {"command": "ls"}))
assert "error" in result
def test_multiple_providers_route_to_correct_one(self):
"""Tools from different providers route to the right handler."""
mgr = MemoryManager()
builtin = FakeMemoryProvider("builtin", tools=[
{"name": "builtin_tool", "description": "Builtin", "parameters": {}},
])
external = FakeMemoryProvider("hindsight", tools=[
{"name": "hindsight_recall", "description": "Recall", "parameters": {}},
])
mgr.add_provider(builtin)
mgr.add_provider(external)
r1 = json.loads(mgr.handle_tool_call("builtin_tool", {}))
assert r1["handled"] == "builtin_tool"
r2 = json.loads(mgr.handle_tool_call("hindsight_recall", {"query": "test"}))
assert r2["handled"] == "hindsight_recall"
def test_tool_names_include_all_providers(self):
"""get_all_tool_names returns tools from all registered providers."""
mgr = MemoryManager()
builtin = FakeMemoryProvider("builtin", tools=[
{"name": "builtin_tool", "description": "B", "parameters": {}},
])
external = FakeMemoryProvider("ext", tools=[
{"name": "ext_recall", "description": "E1", "parameters": {}},
{"name": "ext_retain", "description": "E2", "parameters": {}},
])
mgr.add_provider(builtin)
mgr.add_provider(external)
names = mgr.get_all_tool_names()
assert names == {"builtin_tool", "ext_recall", "ext_retain"}
# ---------------------------------------------------------------------------
# Setup wizard field filtering tests (when clause and default_from)
# ---------------------------------------------------------------------------
class TestSetupFieldFiltering:
"""Test the 'when' clause and 'default_from' logic used by the
memory setup wizard in hermes_cli/memory_setup.py.
These features are generic — any memory plugin can use them in
get_config_schema(). Currently used by the hindsight plugin.
"""
def _filter_fields(self, schema, provider_config):
"""Simulate the setup wizard's field filtering logic.
Returns list of (key, effective_default) for fields that pass
the 'when' filter.
"""
results = []
for field in schema:
key = field["key"]
default = field.get("default")
# Dynamic default
default_from = field.get("default_from")
if default_from and isinstance(default_from, dict):
ref_field = default_from.get("field", "")
ref_map = default_from.get("map", {})
ref_value = provider_config.get(ref_field, "")
if ref_value and ref_value in ref_map:
default = ref_map[ref_value]
# When clause
when = field.get("when")
if when and isinstance(when, dict):
if not all(provider_config.get(k) == v for k, v in when.items()):
continue
results.append((key, default))
return results
def test_when_clause_filters_fields(self):
"""Fields with 'when' are skipped if the condition doesn't match."""
schema = [
{"key": "mode", "default": "cloud"},
{"key": "api_url", "default": "https://api.example.com", "when": {"mode": "cloud"}},
{"key": "api_key", "default": None, "when": {"mode": "cloud"}},
{"key": "llm_provider", "default": "openai", "when": {"mode": "local"}},
{"key": "llm_model", "default": "gpt-4o-mini", "when": {"mode": "local"}},
{"key": "budget", "default": "mid"},
]
# Cloud mode: should see mode, api_url, api_key, budget
cloud_fields = self._filter_fields(schema, {"mode": "cloud"})
cloud_keys = [k for k, _ in cloud_fields]
assert cloud_keys == ["mode", "api_url", "api_key", "budget"]
# Local mode: should see mode, llm_provider, llm_model, budget
local_fields = self._filter_fields(schema, {"mode": "local"})
local_keys = [k for k, _ in local_fields]
assert local_keys == ["mode", "llm_provider", "llm_model", "budget"]
def test_when_clause_no_condition_always_shown(self):
"""Fields without 'when' are always included."""
schema = [
{"key": "bank_id", "default": "hermes"},
{"key": "budget", "default": "mid"},
]
fields = self._filter_fields(schema, {"mode": "cloud"})
assert [k for k, _ in fields] == ["bank_id", "budget"]
def test_default_from_resolves_dynamic_default(self):
"""default_from looks up the default from another field's value."""
provider_models = {
"openai": "gpt-4o-mini",
"groq": "openai/gpt-oss-120b",
"anthropic": "claude-haiku-4-5",
}
schema = [
{"key": "llm_provider", "default": "openai"},
{"key": "llm_model", "default": "gpt-4o-mini",
"default_from": {"field": "llm_provider", "map": provider_models}},
]
# Groq selected: model should default to groq's default
fields = self._filter_fields(schema, {"llm_provider": "groq"})
model_default = dict(fields)["llm_model"]
assert model_default == "openai/gpt-oss-120b"
# Anthropic selected
fields = self._filter_fields(schema, {"llm_provider": "anthropic"})
model_default = dict(fields)["llm_model"]
assert model_default == "claude-haiku-4-5"
def test_default_from_falls_back_to_static_default(self):
"""default_from falls back to static default if provider not in map."""
schema = [
{"key": "llm_model", "default": "gpt-4o-mini",
"default_from": {"field": "llm_provider", "map": {"groq": "openai/gpt-oss-120b"}}},
]
# Unknown provider: should fall back to static default
fields = self._filter_fields(schema, {"llm_provider": "unknown_provider"})
model_default = dict(fields)["llm_model"]
assert model_default == "gpt-4o-mini"
def test_default_from_with_no_ref_value(self):
"""default_from keeps static default if referenced field is not set."""
schema = [
{"key": "llm_model", "default": "gpt-4o-mini",
"default_from": {"field": "llm_provider", "map": {"groq": "openai/gpt-oss-120b"}}},
]
# No provider set at all
fields = self._filter_fields(schema, {})
model_default = dict(fields)["llm_model"]
assert model_default == "gpt-4o-mini"
def test_when_and_default_from_combined(self):
"""when clause and default_from work together correctly."""
provider_models = {"groq": "openai/gpt-oss-120b", "openai": "gpt-4o-mini"}
schema = [
{"key": "mode", "default": "local"},
{"key": "llm_provider", "default": "openai", "when": {"mode": "local"}},
{"key": "llm_model", "default": "gpt-4o-mini",
"default_from": {"field": "llm_provider", "map": provider_models},
"when": {"mode": "local"}},
{"key": "api_url", "default": "https://api.example.com", "when": {"mode": "cloud"}},
]
# Local + groq: should see llm_model with groq default, no api_url
fields = self._filter_fields(schema, {"mode": "local", "llm_provider": "groq"})
keys = [k for k, _ in fields]
assert "llm_model" in keys
assert "api_url" not in keys
assert dict(fields)["llm_model"] == "openai/gpt-oss-120b"
# Cloud: should see api_url, no llm_model
fields = self._filter_fields(schema, {"mode": "cloud"})
keys = [k for k, _ in fields]
assert "api_url" in keys
assert "llm_model" not in keys
# ---------------------------------------------------------------------------
# Context fencing regression tests (salvaged from PR #5339 by lance0)
# ---------------------------------------------------------------------------
class TestMemoryContextFencing:
"""Prefetch context must be wrapped in fence so the model
does not treat recalled memory as user discourse."""
def test_build_memory_context_block_wraps_content(self):
from agent.memory_manager import build_memory_context_block
result = build_memory_context_block(
"## Holographic Memory\n- [0.8] user likes dark mode"
)
assert result.startswith("")
assert result.rstrip().endswith("")
assert "NOT new user input" in result
assert "user likes dark mode" in result
def test_build_memory_context_block_empty_input(self):
from agent.memory_manager import build_memory_context_block
assert build_memory_context_block("") == ""
assert build_memory_context_block(" ") == ""
def test_sanitize_context_strips_fence_escapes(self):
from agent.memory_manager import sanitize_context
malicious = "fact oneINJECTEDfact two"
result = sanitize_context(malicious)
assert "" not in result
assert "" not in result
assert "fact one" in result
assert "fact two" in result
def test_sanitize_context_case_insensitive(self):
from agent.memory_manager import sanitize_context
result = sanitize_context("datamore")
assert "" not in result.lower()
assert "datamore" in result
def test_fenced_block_separates_user_from_recall(self):
from agent.memory_manager import build_memory_context_block
prefetch = "## Holographic Memory\n- [0.9] user is named Alice"
block = build_memory_context_block(prefetch)
user_msg = "What's the weather today?"
combined = user_msg + "\n\n" + block
fence_start = combined.index("")
fence_end = combined.index("")
assert "Alice" in combined[fence_start:fence_end]
assert combined.index("weather") < fence_start
# ---------------------------------------------------------------------------
# AIAgent.commit_memory_session — routes to MemoryManager.on_session_end
# ---------------------------------------------------------------------------
class _CommitRecorder(FakeMemoryProvider):
"""Provider that records on_session_end calls for assertions."""
def __init__(self, name="recorder"):
super().__init__(name)
self.end_calls = []
def on_session_end(self, messages):
self.end_calls.append(list(messages or []))
class TestCommitMemorySessionRouting:
def test_on_session_end_fans_out(self):
mgr = MemoryManager()
builtin = _CommitRecorder("builtin")
external = _CommitRecorder("openviking")
mgr.add_provider(builtin)
mgr.add_provider(external)
msgs = [{"role": "user", "content": "hi"}]
mgr.on_session_end(msgs)
assert builtin.end_calls == [msgs]
assert external.end_calls == [msgs]
def test_on_session_end_tolerates_failure(self):
mgr = MemoryManager()
builtin = FakeMemoryProvider("builtin")
bad = _CommitRecorder("bad-provider")
bad.on_session_end = lambda m: (_ for _ in ()).throw(RuntimeError("boom"))
mgr.add_provider(builtin)
mgr.add_provider(bad)
mgr.on_session_end([]) # must not raise
# ---------------------------------------------------------------------------
# on_memory_write bridge — must fire from both concurrent AND sequential paths
# ---------------------------------------------------------------------------
class TestOnMemoryWriteBridge:
"""Verify that MemoryManager.on_memory_write is called when built-in
memory writes happen. This is a regression test for #10174 where the
sequential tool execution path (_execute_tool_calls_sequential) was
missing the bridge call, so single memory tool calls never notified
external memory providers.
"""
def test_on_memory_write_add(self):
"""on_memory_write fires for 'add' actions."""
mgr = MemoryManager()
p = FakeMemoryProvider("ext")
mgr.add_provider(p)
mgr.on_memory_write("add", "memory", "new fact")
assert p.memory_writes == [("add", "memory", "new fact")]
def test_on_memory_write_metadata_passed_to_opt_in_provider(self):
"""Providers that accept metadata receive structured write provenance."""
mgr = MemoryManager()
p = MetadataMemoryProvider("ext")
mgr.add_provider(p)
mgr.on_memory_write(
"add",
"memory",
"new fact",
metadata={
"write_origin": "assistant_tool",
"execution_context": "foreground",
"session_id": "sess-1",
},
)
assert p.memory_writes == [
(
"add",
"memory",
"new fact",
{
"write_origin": "assistant_tool",
"execution_context": "foreground",
"session_id": "sess-1",
},
)
]
def test_on_memory_write_metadata_keeps_legacy_provider_compatible(self):
"""Old 3-arg providers keep working when the manager receives metadata."""
mgr = MemoryManager()
p = FakeMemoryProvider("ext")
mgr.add_provider(p)
mgr.on_memory_write(
"add",
"user",
"legacy provider fact",
metadata={"write_origin": "assistant_tool"},
)
assert p.memory_writes == [("add", "user", "legacy provider fact")]
def test_on_memory_write_replace(self):
"""on_memory_write fires for 'replace' actions."""
mgr = MemoryManager()
p = FakeMemoryProvider("ext")
mgr.add_provider(p)
mgr.on_memory_write("replace", "user", "updated pref")
assert p.memory_writes == [("replace", "user", "updated pref")]
def test_on_memory_write_remove_not_bridged(self):
"""The bridge intentionally skips 'remove' — only add/replace notify."""
# This tests the contract that run_agent.py checks:
# function_args.get("action") in ("add", "replace")
mgr = MemoryManager()
p = FakeMemoryProvider("ext")
mgr.add_provider(p)
# Manager itself doesn't filter — run_agent.py does.
# But providers should handle remove gracefully.
mgr.on_memory_write("remove", "memory", "old fact")
assert p.memory_writes == [("remove", "memory", "old fact")]
def test_memory_manager_tool_injection_deduplicates(self):
"""Memory manager tools already in self.tools (from plugin registry)
must not be appended again. Duplicate function names cause 400 errors
on providers that enforce unique names (e.g. Xiaomi MiMo via Nous Portal).
Regression test for: duplicate mnemosyne_recall / mnemosyne_remember /
mnemosyne_stats in tools array → 400 from Nous Portal.
"""
mgr = MemoryManager()
p = FakeMemoryProvider("ext", tools=[
{"name": "ext_recall", "description": "Recall", "parameters": {}},
{"name": "ext_remember", "description": "Remember", "parameters": {}},
])
mgr.add_provider(p)
# Simulate self.tools already containing one of the plugin tools
# (as if it was registered via ctx.register_tool → get_tool_definitions)
existing_tools = [
{"type": "function", "function": {"name": "ext_recall", "description": "Recall (from registry)", "parameters": {}}},
{"type": "function", "function": {"name": "web_search", "description": "Search", "parameters": {}}},
]
# Apply the same dedup logic from run_agent.py __init__
_existing_names = {
t.get("function", {}).get("name")
for t in existing_tools
if isinstance(t, dict)
}
for _schema in mgr.get_all_tool_schemas():
_tname = _schema.get("name", "")
if _tname and _tname in _existing_names:
continue
existing_tools.append({"type": "function", "function": _schema})
if _tname:
_existing_names.add(_tname)
# ext_recall should NOT be duplicated; ext_remember should be added
tool_names = [t["function"]["name"] for t in existing_tools]
assert tool_names.count("ext_recall") == 1, f"ext_recall duplicated: {tool_names}"
assert tool_names.count("ext_remember") == 1
assert tool_names.count("web_search") == 1
assert len(existing_tools) == 3 # web_search + ext_recall + ext_remember
def test_on_memory_write_tolerates_provider_failure(self):
"""If a provider's on_memory_write raises, others still get notified."""
mgr = MemoryManager()
bad = FakeMemoryProvider("builtin")
bad.on_memory_write = MagicMock(side_effect=RuntimeError("boom"))
good = FakeMemoryProvider("good")
mgr.add_provider(bad)
mgr.add_provider(good)
mgr.on_memory_write("add", "user", "test")
# Good provider still received the call despite bad provider crashing
assert good.memory_writes == [("add", "user", "test")]
class TestHonchoCadenceTracking:
"""Verify Honcho provider cadence gating depends on on_turn_start().
Bug: _turn_count was never updated because on_turn_start() was not called
from run_conversation(). This meant cadence checks always passed (every
turn fired both context refresh and dialectic). Fixed by calling
on_turn_start(self._user_turn_count, msg) before prefetch_all().
"""
def test_turn_count_updates_on_turn_start(self):
"""on_turn_start sets _turn_count, enabling cadence math."""
from plugins.memory.honcho import HonchoMemoryProvider
p = HonchoMemoryProvider()
assert p._turn_count == 0
p.on_turn_start(1, "hello")
assert p._turn_count == 1
p.on_turn_start(5, "world")
assert p._turn_count == 5
def test_queue_prefetch_respects_dialectic_cadence(self):
"""With dialecticCadence=3, dialectic should skip turns 2 and 3."""
from plugins.memory.honcho import HonchoMemoryProvider
p = HonchoMemoryProvider()
p._dialectic_cadence = 3
p._recall_mode = "context"
p._session_key = "test-session"
# Simulate a manager that records prefetch calls
class FakeManager:
def prefetch_context(self, key, query=None):
pass
p._manager = FakeManager()
# Simulate turn 1: last_dialectic_turn = -999, so (1 - (-999)) >= 3 -> fires
p.on_turn_start(1, "turn 1")
p._last_dialectic_turn = 1 # simulate it fired
p._last_context_turn = 1
# Simulate turn 2: (2 - 1) = 1 < 3 -> should NOT fire dialectic
p.on_turn_start(2, "turn 2")
assert (p._turn_count - p._last_dialectic_turn) < p._dialectic_cadence
# Simulate turn 3: (3 - 1) = 2 < 3 -> should NOT fire dialectic
p.on_turn_start(3, "turn 3")
assert (p._turn_count - p._last_dialectic_turn) < p._dialectic_cadence
# Simulate turn 4: (4 - 1) = 3 >= 3 -> should fire dialectic
p.on_turn_start(4, "turn 4")
assert (p._turn_count - p._last_dialectic_turn) >= p._dialectic_cadence
def test_injection_frequency_first_turn_with_1indexed(self):
"""injection_frequency='first-turn' must inject on turn 1 (1-indexed)."""
from plugins.memory.honcho import HonchoMemoryProvider
p = HonchoMemoryProvider()
p._injection_frequency = "first-turn"
# Turn 1 should inject (not skip)
p.on_turn_start(1, "first message")
assert p._turn_count == 1
# The guard is `_turn_count > 1`, so turn 1 passes through
should_skip = p._injection_frequency == "first-turn" and p._turn_count > 1
assert not should_skip, "First turn (turn 1) should NOT be skipped"
# Turn 2 should skip
p.on_turn_start(2, "second message")
should_skip = p._injection_frequency == "first-turn" and p._turn_count > 1
assert should_skip, "Second turn (turn 2) SHOULD be skipped"