""" Hermes Plugin System ==================== Discovers, loads, and manages plugins from four sources: 1. **Bundled plugins** – ``/plugins//`` (shipped with hermes-agent; ``memory/`` and ``context_engine/`` subdirs are excluded — they have their own discovery paths) 2. **User plugins** – ``~/.hermes/plugins//`` 3. **Project plugins** – ``./.hermes/plugins//`` (opt-in via ``HERMES_ENABLE_PROJECT_PLUGINS``) 4. **Pip plugins** – packages that expose the ``hermes_agent.plugins`` entry-point group. Later sources override earlier ones on name collision, so a user or project plugin with the same name as a bundled plugin replaces it. Each directory plugin must contain a ``plugin.yaml`` manifest **and** an ``__init__.py`` with a ``register(ctx)`` function. Lifecycle hooks --------------- Plugins may register callbacks for any of the hooks in ``VALID_HOOKS``. The agent core calls ``invoke_hook(name, **kwargs)`` at the appropriate points. Tool registration ----------------- ``PluginContext.register_tool()`` delegates to ``tools.registry.register()`` so plugin-defined tools appear alongside the built-in tools. """ from __future__ import annotations import importlib import importlib.metadata import importlib.util import logging import sys import types from dataclasses import dataclass, field from pathlib import Path from typing import Any, Callable, Dict, List, Optional, Set, Union from hermes_constants import get_hermes_home from utils import env_var_enabled try: import yaml except ImportError: # pragma: no cover – yaml is optional at import time yaml = None # type: ignore[assignment] logger = logging.getLogger(__name__) # --------------------------------------------------------------------------- # Constants # --------------------------------------------------------------------------- VALID_HOOKS: Set[str] = { "pre_tool_call", "post_tool_call", "transform_terminal_output", "transform_tool_result", "pre_llm_call", "post_llm_call", "pre_api_request", "post_api_request", "on_session_start", "on_session_end", "on_session_finalize", "on_session_reset", "subagent_stop", } ENTRY_POINTS_GROUP = "hermes_agent.plugins" _NS_PARENT = "hermes_plugins" def _env_enabled(name: str) -> bool: """Return True when an env var is set to a truthy opt-in value.""" return env_var_enabled(name) def _get_disabled_plugins() -> set: """Read the disabled plugins list from config.yaml. Kept for backward compat and explicit deny-list semantics. A plugin name in this set will never load, even if it appears in ``plugins.enabled``. """ try: from hermes_cli.config import load_config config = load_config() disabled = config.get("plugins", {}).get("disabled", []) return set(disabled) if isinstance(disabled, list) else set() except Exception: return set() def _get_enabled_plugins() -> Optional[set]: """Read the enabled-plugins allow-list from config.yaml. Plugins are opt-in by default — only plugins whose name appears in this set are loaded. Returns: * ``None`` — the key is missing or malformed. Callers should treat this as "nothing enabled yet" (the opt-in default); the first ``migrate_config`` run populates the key with a grandfathered set of currently-installed user plugins so existing setups don't break on upgrade. * ``set()`` — an empty list was explicitly set; nothing loads. * ``set(...)`` — the concrete allow-list. """ try: from hermes_cli.config import load_config config = load_config() plugins_cfg = config.get("plugins") if not isinstance(plugins_cfg, dict): return None if "enabled" not in plugins_cfg: return None enabled = plugins_cfg.get("enabled") if not isinstance(enabled, list): return None return set(enabled) except Exception: return None # --------------------------------------------------------------------------- # Data classes # --------------------------------------------------------------------------- _VALID_PLUGIN_KINDS: Set[str] = {"standalone", "backend", "exclusive"} @dataclass class PluginManifest: """Parsed representation of a plugin.yaml manifest.""" name: str version: str = "" description: str = "" author: str = "" requires_env: List[Union[str, Dict[str, Any]]] = field(default_factory=list) provides_tools: List[str] = field(default_factory=list) provides_hooks: List[str] = field(default_factory=list) source: str = "" # "user", "project", or "entrypoint" path: Optional[str] = None # Plugin kind — see plugins.py module docstring for semantics. # ``standalone`` (default): hooks/tools of its own; opt-in via # ``plugins.enabled``. # ``backend``: pluggable backend for an existing core tool (e.g. # image_gen). Built-in (bundled) backends auto-load; # user-installed still gated by ``plugins.enabled``. # ``exclusive``: category with exactly one active provider (memory). # Selection via ``.provider`` config key; the # category's own discovery system handles loading and the # general scanner skips these. kind: str = "standalone" # Registry key — path-derived, used by ``plugins.enabled``/``disabled`` # lookups and by ``hermes plugins list``. For a flat plugin at # ``plugins/disk-cleanup/`` the key is ``disk-cleanup``; for a nested # category plugin at ``plugins/image_gen/openai/`` the key is # ``image_gen/openai``. When empty, falls back to ``name``. key: str = "" @dataclass class LoadedPlugin: """Runtime state for a single loaded plugin.""" manifest: PluginManifest module: Optional[types.ModuleType] = None tools_registered: List[str] = field(default_factory=list) hooks_registered: List[str] = field(default_factory=list) commands_registered: List[str] = field(default_factory=list) enabled: bool = False error: Optional[str] = None # --------------------------------------------------------------------------- # PluginContext – handed to each plugin's ``register()`` function # --------------------------------------------------------------------------- class PluginContext: """Facade given to plugins so they can register tools and hooks.""" def __init__(self, manifest: PluginManifest, manager: "PluginManager"): self.manifest = manifest self._manager = manager # -- tool registration -------------------------------------------------- def register_tool( self, name: str, toolset: str, schema: dict, handler: Callable, check_fn: Callable | None = None, requires_env: list | None = None, is_async: bool = False, description: str = "", emoji: str = "", ) -> None: """Register a tool in the global registry **and** track it as plugin-provided.""" from tools.registry import registry registry.register( name=name, toolset=toolset, schema=schema, handler=handler, check_fn=check_fn, requires_env=requires_env, is_async=is_async, description=description, emoji=emoji, ) self._manager._plugin_tool_names.add(name) logger.debug("Plugin %s registered tool: %s", self.manifest.name, name) # -- message injection -------------------------------------------------- def inject_message(self, content: str, role: str = "user") -> bool: """Inject a message into the active conversation. If the agent is idle (waiting for user input), this starts a new turn. If the agent is running, this interrupts and injects the message. This enables plugins (e.g. remote control viewers, messaging bridges) to send messages into the conversation from external sources. Returns True if the message was queued successfully. """ cli = self._manager._cli_ref if cli is None: logger.warning("inject_message: no CLI reference (not available in gateway mode)") return False msg = content if role == "user" else f"[{role}] {content}" if getattr(cli, "_agent_running", False): # Agent is mid-turn — interrupt with the message cli._interrupt_queue.put(msg) else: # Agent is idle — queue as next input cli._pending_input.put(msg) return True # -- CLI command registration -------------------------------------------- def register_cli_command( self, name: str, help: str, setup_fn: Callable, handler_fn: Callable | None = None, description: str = "", ) -> None: """Register a CLI subcommand (e.g. ``hermes honcho ...``). The *setup_fn* receives an argparse subparser and should add any arguments/sub-subparsers. If *handler_fn* is provided it is set as the default dispatch function via ``set_defaults(func=...)``.""" self._manager._cli_commands[name] = { "name": name, "help": help, "description": description, "setup_fn": setup_fn, "handler_fn": handler_fn, "plugin": self.manifest.name, } logger.debug("Plugin %s registered CLI command: %s", self.manifest.name, name) # -- slash command registration ------------------------------------------- def register_command( self, name: str, handler: Callable, description: str = "", args_hint: str = "", ) -> None: """Register a slash command (e.g. ``/lcm``) available in CLI and gateway sessions. The handler signature is ``fn(raw_args: str) -> str | None``. It may also be an async callable — the gateway dispatch handles both. Unlike ``register_cli_command()`` (which creates ``hermes `` terminal commands), this registers in-session slash commands that users invoke during a conversation. ``args_hint`` is an optional short string (e.g. ``""`` or ``"dias:7 formato:json"``) used by gateway adapters to surface the command with an argument field — for example Discord's native slash command picker. Plugin commands without ``args_hint`` register as parameterless in Discord and still accept trailing text when invoked as free-form chat. Names conflicting with built-in commands are rejected with a warning. """ clean = name.lower().strip().lstrip("/").replace(" ", "-") if not clean: logger.warning( "Plugin '%s' tried to register a command with an empty name.", self.manifest.name, ) return # Reject if it conflicts with a built-in command try: from hermes_cli.commands import resolve_command if resolve_command(clean) is not None: logger.warning( "Plugin '%s' tried to register command '/%s' which conflicts " "with a built-in command. Skipping.", self.manifest.name, clean, ) return except Exception: pass # If commands module isn't available, skip the check self._manager._plugin_commands[clean] = { "handler": handler, "description": description or "Plugin command", "plugin": self.manifest.name, "args_hint": (args_hint or "").strip(), } logger.debug("Plugin %s registered command: /%s", self.manifest.name, clean) # -- tool dispatch ------------------------------------------------------- def dispatch_tool(self, tool_name: str, args: dict, **kwargs) -> str: """Dispatch a tool call through the registry, with parent agent context. This is the public interface for plugin slash commands that need to call tools like ``delegate_task`` without reaching into framework internals. The parent agent (if available) is resolved automatically — plugins never need to access the agent directly. Args: tool_name: Registry name of the tool (e.g. ``"delegate_task"``). args: Tool arguments dict (same as what the model would pass). **kwargs: Extra keyword args forwarded to the registry dispatch. Returns: JSON string from the tool handler (same format as model tool calls). """ from tools.registry import registry # Wire up parent agent context when available (CLI mode). # In gateway mode _cli_ref is None — tools degrade gracefully # (workspace hints fall back to TERMINAL_CWD, no spinner). if "parent_agent" not in kwargs: cli = self._manager._cli_ref agent = getattr(cli, "agent", None) if cli else None if agent is not None: kwargs["parent_agent"] = agent return registry.dispatch(tool_name, args, **kwargs) # -- context engine registration ----------------------------------------- def register_context_engine(self, engine) -> None: """Register a context engine to replace the built-in ContextCompressor. Only one context engine plugin is allowed. If a second plugin tries to register one, it is rejected with a warning. The engine must be an instance of ``agent.context_engine.ContextEngine``. """ if self._manager._context_engine is not None: logger.warning( "Plugin '%s' tried to register a context engine, but one is " "already registered. Only one context engine plugin is allowed.", self.manifest.name, ) return # Defer the import to avoid circular deps at module level from agent.context_engine import ContextEngine if not isinstance(engine, ContextEngine): logger.warning( "Plugin '%s' tried to register a context engine that does not " "inherit from ContextEngine. Ignoring.", self.manifest.name, ) return self._manager._context_engine = engine logger.info( "Plugin '%s' registered context engine: %s", self.manifest.name, engine.name, ) # -- image gen provider registration ------------------------------------ def register_image_gen_provider(self, provider) -> None: """Register an image generation backend. ``provider`` must be an instance of :class:`agent.image_gen_provider.ImageGenProvider`. The ``provider.name`` attribute is what ``image_gen.provider`` in ``config.yaml`` matches against when routing ``image_generate`` tool calls. """ from agent.image_gen_provider import ImageGenProvider from agent.image_gen_registry import register_provider if not isinstance(provider, ImageGenProvider): logger.warning( "Plugin '%s' tried to register an image_gen provider that does " "not inherit from ImageGenProvider. Ignoring.", self.manifest.name, ) return register_provider(provider) logger.info( "Plugin '%s' registered image_gen provider: %s", self.manifest.name, provider.name, ) # -- hook registration -------------------------------------------------- def register_hook(self, hook_name: str, callback: Callable) -> None: """Register a lifecycle hook callback. Unknown hook names produce a warning but are still stored so forward-compatible plugins don't break. """ if hook_name not in VALID_HOOKS: logger.warning( "Plugin '%s' registered unknown hook '%s' " "(valid: %s)", self.manifest.name, hook_name, ", ".join(sorted(VALID_HOOKS)), ) self._manager._hooks.setdefault(hook_name, []).append(callback) logger.debug("Plugin %s registered hook: %s", self.manifest.name, hook_name) # -- skill registration ------------------------------------------------- def register_skill( self, name: str, path: Path, description: str = "", ) -> None: """Register a read-only skill provided by this plugin. The skill becomes resolvable as ``':'`` via ``skill_view()``. It does **not** enter the flat ``~/.hermes/skills/`` tree and is **not** listed in the system prompt's ```` index — plugin skills are opt-in explicit loads only. Raises: ValueError: if *name* contains ``':'`` or invalid characters. FileNotFoundError: if *path* does not exist. """ from agent.skill_utils import _NAMESPACE_RE if ":" in name: raise ValueError( f"Skill name '{name}' must not contain ':' " f"(the namespace is derived from the plugin name " f"'{self.manifest.name}' automatically)." ) if not name or not _NAMESPACE_RE.match(name): raise ValueError( f"Invalid skill name '{name}'. Must match [a-zA-Z0-9_-]+." ) if not path.exists(): raise FileNotFoundError(f"SKILL.md not found at {path}") qualified = f"{self.manifest.name}:{name}" self._manager._plugin_skills[qualified] = { "path": path, "plugin": self.manifest.name, "bare_name": name, "description": description, } logger.debug( "Plugin %s registered skill: %s", self.manifest.name, qualified, ) # --------------------------------------------------------------------------- # PluginManager # --------------------------------------------------------------------------- class PluginManager: """Central manager that discovers, loads, and invokes plugins.""" def __init__(self) -> None: self._plugins: Dict[str, LoadedPlugin] = {} self._hooks: Dict[str, List[Callable]] = {} self._plugin_tool_names: Set[str] = set() self._cli_commands: Dict[str, dict] = {} self._context_engine = None # Set by a plugin via register_context_engine() self._plugin_commands: Dict[str, dict] = {} # Slash commands registered by plugins self._discovered: bool = False self._cli_ref = None # Set by CLI after plugin discovery # Plugin skill registry: qualified name → metadata dict. self._plugin_skills: Dict[str, Dict[str, Any]] = {} # ----------------------------------------------------------------------- # Public # ----------------------------------------------------------------------- def discover_and_load(self) -> None: """Scan all plugin sources and load each plugin found.""" if self._discovered: return self._discovered = True manifests: List[PluginManifest] = [] # 1. Bundled plugins (/plugins//) # # Repo-shipped plugins live next to hermes_cli/. Two layouts are # supported (see ``_scan_directory`` for details): # # - flat: ``plugins/disk-cleanup/plugin.yaml`` (standalone) # - category: ``plugins/image_gen/openai/plugin.yaml`` (backend) # # ``memory/`` and ``context_engine/`` are skipped at the top level — # they have their own discovery systems. Porting those to the # category-namespace ``kind: exclusive`` model is a future PR. repo_plugins = Path(__file__).resolve().parent.parent / "plugins" manifests.extend( self._scan_directory( repo_plugins, source="bundled", skip_names={"memory", "context_engine"}, ) ) # 2. User plugins (~/.hermes/plugins/) user_dir = get_hermes_home() / "plugins" manifests.extend(self._scan_directory(user_dir, source="user")) # 3. Project plugins (./.hermes/plugins/) if _env_enabled("HERMES_ENABLE_PROJECT_PLUGINS"): project_dir = Path.cwd() / ".hermes" / "plugins" manifests.extend(self._scan_directory(project_dir, source="project")) # 4. Pip / entry-point plugins manifests.extend(self._scan_entry_points()) # Load each manifest (skip user-disabled plugins). # Later sources override earlier ones on key collision — user # plugins take precedence over bundled, project plugins take # precedence over user. Dedup here so we only load the final # winner. Keys are path-derived (``image_gen/openai``, # ``disk-cleanup``) so ``tts/openai`` and ``image_gen/openai`` # don't collide even when both manifests say ``name: openai``. disabled = _get_disabled_plugins() enabled = _get_enabled_plugins() # None = opt-in default (nothing enabled) winners: Dict[str, PluginManifest] = {} for manifest in manifests: winners[manifest.key or manifest.name] = manifest for manifest in winners.values(): lookup_key = manifest.key or manifest.name # Explicit disable always wins (matches on key or on legacy # bare name for back-compat with existing user configs). if lookup_key in disabled or manifest.name in disabled: loaded = LoadedPlugin(manifest=manifest, enabled=False) loaded.error = "disabled via config" self._plugins[lookup_key] = loaded logger.debug("Skipping disabled plugin '%s'", lookup_key) continue # Exclusive plugins (memory providers) have their own # discovery/activation path. The general loader records the # manifest for introspection but does not load the module. if manifest.kind == "exclusive": loaded = LoadedPlugin(manifest=manifest, enabled=False) loaded.error = ( "exclusive plugin — activate via .provider config" ) self._plugins[lookup_key] = loaded logger.debug( "Skipping '%s' (exclusive, handled by category discovery)", lookup_key, ) continue # Built-in backends auto-load — they ship with hermes and must # just work. Selection among them (e.g. which image_gen backend # services calls) is driven by ``.provider`` config, # enforced by the tool wrapper. if manifest.kind == "backend" and manifest.source == "bundled": self._load_plugin(manifest) continue # Everything else (standalone, user-installed backends, # entry-point plugins) is opt-in via plugins.enabled. # Accept both the path-derived key and the legacy bare name # so existing configs keep working. is_enabled = ( enabled is not None and (lookup_key in enabled or manifest.name in enabled) ) if not is_enabled: loaded = LoadedPlugin(manifest=manifest, enabled=False) loaded.error = ( "not enabled in config (run `hermes plugins enable {}` to activate)" .format(lookup_key) ) self._plugins[lookup_key] = loaded logger.debug( "Skipping '%s' (not in plugins.enabled)", lookup_key ) continue self._load_plugin(manifest) if manifests: logger.info( "Plugin discovery complete: %d found, %d enabled", len(self._plugins), sum(1 for p in self._plugins.values() if p.enabled), ) # ----------------------------------------------------------------------- # Directory scanning # ----------------------------------------------------------------------- def _scan_directory( self, path: Path, source: str, skip_names: Optional[Set[str]] = None, ) -> List[PluginManifest]: """Read ``plugin.yaml`` manifests from subdirectories of *path*. Supports two layouts, mixed freely: * **Flat** — ``//plugin.yaml``. Key is ```` (e.g. ``disk-cleanup``). * **Category** — ``///plugin.yaml``, where the ```` directory itself has no ``plugin.yaml``. Key is ``/`` (e.g. ``image_gen/openai``). Depth is capped at two segments. *skip_names* is an optional allow-list of names to ignore at the top level (kept for back-compat; the current call sites no longer pass it now that categories are first-class). """ return self._scan_directory_level( path, source, skip_names=skip_names, prefix="", depth=0 ) def _scan_directory_level( self, path: Path, source: str, *, skip_names: Optional[Set[str]], prefix: str, depth: int, ) -> List[PluginManifest]: """Recursive implementation of :meth:`_scan_directory`. ``prefix`` is the category path already accumulated ("" at root, "image_gen" one level in). ``depth`` is the recursion depth; we cap at 2 so ``/a/b/c/`` is ignored. """ manifests: List[PluginManifest] = [] if not path.is_dir(): return manifests for child in sorted(path.iterdir()): if not child.is_dir(): continue if depth == 0 and skip_names and child.name in skip_names: continue manifest_file = child / "plugin.yaml" if not manifest_file.exists(): manifest_file = child / "plugin.yml" if manifest_file.exists(): manifest = self._parse_manifest( manifest_file, child, source, prefix ) if manifest is not None: manifests.append(manifest) continue # No manifest at this level. If we're still within the depth # cap, treat this directory as a category namespace and recurse # one level in looking for children with manifests. if depth >= 1: logger.debug("Skipping %s (no plugin.yaml, depth cap reached)", child) continue sub_prefix = f"{prefix}/{child.name}" if prefix else child.name manifests.extend( self._scan_directory_level( child, source, skip_names=None, prefix=sub_prefix, depth=depth + 1, ) ) return manifests def _parse_manifest( self, manifest_file: Path, plugin_dir: Path, source: str, prefix: str, ) -> Optional[PluginManifest]: """Parse a single ``plugin.yaml`` into a :class:`PluginManifest`. Returns ``None`` on parse failure (logs a warning). """ try: if yaml is None: logger.warning("PyYAML not installed – cannot load %s", manifest_file) return None data = yaml.safe_load(manifest_file.read_text()) or {} name = data.get("name", plugin_dir.name) key = f"{prefix}/{plugin_dir.name}" if prefix else name raw_kind = data.get("kind", "standalone") if not isinstance(raw_kind, str): raw_kind = "standalone" kind = raw_kind.strip().lower() if kind not in _VALID_PLUGIN_KINDS: logger.warning( "Plugin %s: unknown kind '%s' (valid: %s); treating as 'standalone'", key, raw_kind, ", ".join(sorted(_VALID_PLUGIN_KINDS)), ) kind = "standalone" # Auto-coerce user-installed memory providers to kind="exclusive" # so they're routed to plugins/memory discovery instead of being # loaded by the general PluginManager (which has no # register_memory_provider on PluginContext). Mirrors the # heuristic in plugins/memory/__init__.py:_is_memory_provider_dir. # Bundled memory providers are already skipped via skip_names. if kind == "standalone" and "kind" not in data: init_file = plugin_dir / "__init__.py" if init_file.exists(): try: source_text = init_file.read_text(errors="replace")[:8192] if ( "register_memory_provider" in source_text or "MemoryProvider" in source_text ): kind = "exclusive" logger.debug( "Plugin %s: detected memory provider, " "treating as kind='exclusive'", key, ) except Exception: pass return PluginManifest( name=name, version=str(data.get("version", "")), description=data.get("description", ""), author=data.get("author", ""), requires_env=data.get("requires_env", []), provides_tools=data.get("provides_tools", []), provides_hooks=data.get("provides_hooks", []), source=source, path=str(plugin_dir), kind=kind, key=key, ) except Exception as exc: logger.warning("Failed to parse %s: %s", manifest_file, exc) return None # ----------------------------------------------------------------------- # Entry-point scanning # ----------------------------------------------------------------------- def _scan_entry_points(self) -> List[PluginManifest]: """Check ``importlib.metadata`` for pip-installed plugins.""" manifests: List[PluginManifest] = [] try: eps = importlib.metadata.entry_points() # Python 3.12+ returns a SelectableGroups; earlier returns dict if hasattr(eps, "select"): group_eps = eps.select(group=ENTRY_POINTS_GROUP) elif isinstance(eps, dict): group_eps = eps.get(ENTRY_POINTS_GROUP, []) else: group_eps = [ep for ep in eps if ep.group == ENTRY_POINTS_GROUP] for ep in group_eps: manifest = PluginManifest( name=ep.name, source="entrypoint", path=ep.value, key=ep.name, ) manifests.append(manifest) except Exception as exc: logger.debug("Entry-point scan failed: %s", exc) return manifests # ----------------------------------------------------------------------- # Loading # ----------------------------------------------------------------------- def _load_plugin(self, manifest: PluginManifest) -> None: """Import a plugin module and call its ``register(ctx)`` function.""" loaded = LoadedPlugin(manifest=manifest) try: if manifest.source in ("user", "project", "bundled"): module = self._load_directory_module(manifest) else: module = self._load_entrypoint_module(manifest) loaded.module = module # Call register() register_fn = getattr(module, "register", None) if register_fn is None: loaded.error = "no register() function" logger.warning("Plugin '%s' has no register() function", manifest.name) else: ctx = PluginContext(manifest, self) register_fn(ctx) loaded.tools_registered = [ t for t in self._plugin_tool_names if t not in { n for name, p in self._plugins.items() for n in p.tools_registered } ] loaded.hooks_registered = list( { h for h, cbs in self._hooks.items() if cbs # non-empty } - { h for name, p in self._plugins.items() for h in p.hooks_registered } ) loaded.commands_registered = [ c for c in self._plugin_commands if self._plugin_commands[c].get("plugin") == manifest.name ] loaded.enabled = True except Exception as exc: loaded.error = str(exc) logger.warning("Failed to load plugin '%s': %s", manifest.name, exc) self._plugins[manifest.key or manifest.name] = loaded def _load_directory_module(self, manifest: PluginManifest) -> types.ModuleType: """Import a directory-based plugin as ``hermes_plugins.``. The module slug is derived from ``manifest.key`` so category-namespaced plugins (``image_gen/openai``) import as ``hermes_plugins.image_gen__openai`` without colliding with any future ``tts/openai``. """ plugin_dir = Path(manifest.path) # type: ignore[arg-type] init_file = plugin_dir / "__init__.py" if not init_file.exists(): raise FileNotFoundError(f"No __init__.py in {plugin_dir}") # Ensure the namespace parent package exists if _NS_PARENT not in sys.modules: ns_pkg = types.ModuleType(_NS_PARENT) ns_pkg.__path__ = [] # type: ignore[attr-defined] ns_pkg.__package__ = _NS_PARENT sys.modules[_NS_PARENT] = ns_pkg key = manifest.key or manifest.name slug = key.replace("/", "__").replace("-", "_") module_name = f"{_NS_PARENT}.{slug}" spec = importlib.util.spec_from_file_location( module_name, init_file, submodule_search_locations=[str(plugin_dir)], ) if spec is None or spec.loader is None: raise ImportError(f"Cannot create module spec for {init_file}") module = importlib.util.module_from_spec(spec) module.__package__ = module_name module.__path__ = [str(plugin_dir)] # type: ignore[attr-defined] sys.modules[module_name] = module spec.loader.exec_module(module) return module def _load_entrypoint_module(self, manifest: PluginManifest) -> types.ModuleType: """Load a pip-installed plugin via its entry-point reference.""" eps = importlib.metadata.entry_points() if hasattr(eps, "select"): group_eps = eps.select(group=ENTRY_POINTS_GROUP) elif isinstance(eps, dict): group_eps = eps.get(ENTRY_POINTS_GROUP, []) else: group_eps = [ep for ep in eps if ep.group == ENTRY_POINTS_GROUP] for ep in group_eps: if ep.name == manifest.name: return ep.load() raise ImportError( f"Entry point '{manifest.name}' not found in group '{ENTRY_POINTS_GROUP}'" ) # ----------------------------------------------------------------------- # Hook invocation # ----------------------------------------------------------------------- def invoke_hook(self, hook_name: str, **kwargs: Any) -> List[Any]: """Call all registered callbacks for *hook_name*. Each callback is wrapped in its own try/except so a misbehaving plugin cannot break the core agent loop. Returns a list of non-``None`` return values from callbacks. For ``pre_llm_call``, callbacks may return a dict describing context to inject into the current turn's user message:: {"context": "recalled text..."} "recalled text..." # plain string, equivalent Context is ALWAYS injected into the user message, never the system prompt. This preserves the prompt cache prefix — the system prompt stays identical across turns so cached tokens are reused. All injected context is ephemeral — never persisted to session DB. """ callbacks = self._hooks.get(hook_name, []) results: List[Any] = [] for cb in callbacks: try: ret = cb(**kwargs) if ret is not None: results.append(ret) except Exception as exc: logger.warning( "Hook '%s' callback %s raised: %s", hook_name, getattr(cb, "__name__", repr(cb)), exc, ) return results # ----------------------------------------------------------------------- # Introspection # ----------------------------------------------------------------------- def list_plugins(self) -> List[Dict[str, Any]]: """Return a list of info dicts for all discovered plugins.""" result: List[Dict[str, Any]] = [] for key, loaded in sorted(self._plugins.items()): result.append( { "name": loaded.manifest.name, "key": loaded.manifest.key or loaded.manifest.name, "kind": loaded.manifest.kind, "version": loaded.manifest.version, "description": loaded.manifest.description, "source": loaded.manifest.source, "enabled": loaded.enabled, "tools": len(loaded.tools_registered), "hooks": len(loaded.hooks_registered), "commands": len(loaded.commands_registered), "error": loaded.error, } ) return result # ----------------------------------------------------------------------- # Plugin skill lookups # ----------------------------------------------------------------------- def find_plugin_skill(self, qualified_name: str) -> Optional[Path]: """Return the ``Path`` to a plugin skill's SKILL.md, or ``None``.""" entry = self._plugin_skills.get(qualified_name) return entry["path"] if entry else None def list_plugin_skills(self, plugin_name: str) -> List[str]: """Return sorted bare names of all skills registered by *plugin_name*.""" prefix = f"{plugin_name}:" return sorted( e["bare_name"] for qn, e in self._plugin_skills.items() if qn.startswith(prefix) ) def remove_plugin_skill(self, qualified_name: str) -> None: """Remove a stale registry entry (silently ignores missing keys).""" self._plugin_skills.pop(qualified_name, None) # --------------------------------------------------------------------------- # Module-level singleton & convenience functions # --------------------------------------------------------------------------- _plugin_manager: Optional[PluginManager] = None def get_plugin_manager() -> PluginManager: """Return (and lazily create) the global PluginManager singleton.""" global _plugin_manager if _plugin_manager is None: _plugin_manager = PluginManager() return _plugin_manager def discover_plugins() -> None: """Discover and load all plugins (idempotent).""" get_plugin_manager().discover_and_load() def invoke_hook(hook_name: str, **kwargs: Any) -> List[Any]: """Invoke a lifecycle hook on all loaded plugins. Returns a list of non-``None`` return values from plugin callbacks. """ return get_plugin_manager().invoke_hook(hook_name, **kwargs) def get_pre_tool_call_block_message( tool_name: str, args: Optional[Dict[str, Any]], task_id: str = "", session_id: str = "", tool_call_id: str = "", ) -> Optional[str]: """Check ``pre_tool_call`` hooks for a blocking directive. Plugins that need to enforce policy (rate limiting, security restrictions, approval workflows) can return:: {"action": "block", "message": "Reason the tool was blocked"} from their ``pre_tool_call`` callback. The first valid block directive wins. Invalid or irrelevant hook return values are silently ignored so existing observer-only hooks are unaffected. """ hook_results = invoke_hook( "pre_tool_call", tool_name=tool_name, args=args if isinstance(args, dict) else {}, task_id=task_id, session_id=session_id, tool_call_id=tool_call_id, ) for result in hook_results: if not isinstance(result, dict): continue if result.get("action") != "block": continue message = result.get("message") if isinstance(message, str) and message: return message return None def _ensure_plugins_discovered() -> PluginManager: """Return the global manager after running idempotent plugin discovery.""" manager = get_plugin_manager() manager.discover_and_load() return manager def get_plugin_context_engine(): """Return the plugin-registered context engine, or None.""" return _ensure_plugins_discovered()._context_engine def get_plugin_command_handler(name: str) -> Optional[Callable]: """Return the handler for a plugin-registered slash command, or ``None``.""" entry = _ensure_plugins_discovered()._plugin_commands.get(name) return entry["handler"] if entry else None def get_plugin_commands() -> Dict[str, dict]: """Return the full plugin commands dict (name → {handler, description, plugin}). Triggers idempotent plugin discovery so callers can use plugin commands before any explicit discover_plugins() call. """ return _ensure_plugins_discovered()._plugin_commands def get_plugin_toolsets() -> List[tuple]: """Return plugin toolsets as ``(key, label, description)`` tuples. Used by the ``hermes tools`` TUI so plugin-provided toolsets appear alongside the built-in ones and can be toggled on/off per platform. """ manager = get_plugin_manager() if not manager._plugin_tool_names: return [] try: from tools.registry import registry except Exception: return [] # Group plugin tool names by their toolset toolset_tools: Dict[str, List[str]] = {} toolset_plugin: Dict[str, LoadedPlugin] = {} for tool_name in manager._plugin_tool_names: entry = registry.get_entry(tool_name) if not entry: continue ts = entry.toolset toolset_tools.setdefault(ts, []).append(entry.name) # Map toolsets back to the plugin that registered them for _name, loaded in manager._plugins.items(): for tool_name in loaded.tools_registered: entry = registry.get_entry(tool_name) if entry and entry.toolset in toolset_tools: toolset_plugin.setdefault(entry.toolset, loaded) result = [] for ts_key in sorted(toolset_tools): plugin = toolset_plugin.get(ts_key) label = f"🔌 {ts_key.replace('_', ' ').title()}" if plugin and plugin.manifest.description: desc = plugin.manifest.description else: desc = ", ".join(sorted(toolset_tools[ts_key])) result.append((ts_key, label, desc)) return result