osquery-1/include/osquery/events.h

// Copyright 2004-present Facebook. All Rights Reserved.

#pragma once

#include <functional>
#include <memory>
#include <map>
#include <vector>

#include <boost/make_shared.hpp>
#include <boost/thread.hpp>
#include <boost/thread/locks.hpp>
#include <boost/thread/mutex.hpp>

#include "osquery/status.h"
#include "osquery/database.h"
#include "osquery/registry.h"

namespace osquery {

struct Subscription;
class EventPublisher;
class EventSubscriber;

typedef const std::string EventPublisherID;
typedef const std::string EventID;
typedef uint32_t EventContextID;
typedef uint32_t EventTime;
typedef std::pair<EventID, EventTime> EventRecord;

/**
 * @brief An EventPublisher will define a SubscriptionContext for
 * EventSubscriber%s to use.
 *
 * Most EventPublisher%s will reqire specific information for interacting with
 * an OS to receive events. The SubscriptionContext contains information the
 * EventPublisher will use to register OS API callbacks, create
 * subscriptioning/listening handles, etc.
 *
 * Linux `inotify` should implement a SubscriptionContext that subscriptions
 * filesystem events based on a filesystem path. `libpcap` will subscription on
 * networking protocols at various stacks. Process creation may subscription on
 * process name, parent pid, etc.
 */
struct SubscriptionContext {};

/**
 * @brief An EventSubscriber EventCallback method will receive an EventContext.
 *
 * The EventContext contains the event-related data supplied by an
 * EventPublisher when the event occures. If a subscriptioning EventSubscriber
 * is should be called for the event the EventSubscriber%'s EventCallback is
 * passed an EventContext.
 */
struct EventContext {
  /// An unique counting ID specific to the EventPublisher%'s fired events.
  EventContextID id;
  /// The time the event occurred.
  EventTime time;
  /// The string representation of the time, often used for indexing.
  std::string time_string;
};

typedef std::shared_ptr<Subscription> SubscriptionRef;
typedef std::shared_ptr<EventPublisher> EventPublisherRef;
typedef std::shared_ptr<SubscriptionContext> SubscriptionContextRef;
typedef std::shared_ptr<EventContext> EventContextRef;
typedef std::shared_ptr<EventSubscriber> EventSubscriberRef;

typedef std::function<Status(EventContextRef, bool)> EventCallback;

/// An EventPublisher must track every subscription added.
typedef std::vector<SubscriptionRef> SubscriptionVector;

/// The EventFactory tracks every EventPublisher and the name it specifies.
typedef std::map<EventPublisherID, EventPublisherRef> EventPublisherMap;

/// The set of search-time binned lookup tables.
extern const std::vector<size_t> kEventTimeLists;

/**
 * @brief Helper type casting methods for EventPublisher classes.
 *
 * A new osquery EventPublisher should subclass EventPublisher and use the
 * following:
 *
 * @code{.cpp}
 *   #include "osquery/events.h"
 *
 *   class MyEventPublisher: public EventPublisher {
 *     DECLARE_EVENTPUBLISHER(MyEventPublisher, MySubscriptionContext,
 *       MyEventContext);
 *   }
 * @endcode
 *
 * This assumes new EventPublisher%s will always include a custom
 * SubscriptionContext and EventContext. In the above example
 * MySubscriptionContext allows EventSubscriber%s to downselect or customize
 * what events to handle. And MyEventContext includes fields specific to the
 * new EventPublisher.
 */
#define DECLARE_EVENTPUBLISHER(TYPE, MONITOR, EVENT)                           \
 public:                                                                       \
  EventPublisherID type() const { return #TYPE; }                              \
  bool shouldFire(const SubscriptionContextRef mc, const EventContextRef ec) { \
    if (#MONITOR == "SubscriptionContext" && #EVENT == "EventContext")         \
      return true;                                                             \
    return shouldFire(getSubscriptionContext(mc), getEventContext(ec));        \
  }                                                                            \
  static std::shared_ptr<EVENT> getEventContext(EventContextRef context) {     \
    return std::static_pointer_cast<EVENT>(context);                           \
  }                                                                            \
  static std::shared_ptr<MONITOR> getSubscriptionContext(                      \
      SubscriptionContextRef context) {                                        \
    return std::static_pointer_cast<MONITOR>(context);                         \
  }                                                                            \
  static std::shared_ptr<EVENT> createEventContext() {                         \
    return std::make_shared<EVENT>();                                          \
  }                                                                            \
  static std::shared_ptr<MONITOR> createSubscriptionContext() {                \
    return std::make_shared<MONITOR>();                                        \
  }

/**
 * @brief Required getter and namespace helper methods for EventSubscriber%s.
 *
 * A new osquery `EventSubscriber` should subclass EventSubscriber with the
 * following:
 *
 * @code{.cpp}
 *   #include "osquery/events.h"
 *
 *   class MyEventSubscriber: public EventSubscriber {
 *     DECLARE_EVENTSUBSCRIBER(MyEventSubscriber, MyEventPublisher);
 *   }
 * @endcode
 *
 * EventSubscriber%s should be specific to an EventPublisher.
 */
#define DECLARE_EVENTSUBSCRIBER(NAME, TYPE)            \
 public:                                               \
  static std::shared_ptr<NAME> getInstance() {         \
    static auto q = std::shared_ptr<NAME>(new NAME()); \
    return q;                                          \
  }                                                    \
  static QueryData genTable() __attribute__((used)) {  \
    return getInstance()->get(0, 0);                   \
  }                                                    \
                                                       \
 private:                                              \
  EventPublisherID name() const { return #NAME; }      \
  EventPublisherID type() const { return #TYPE; }      \
  NAME() {}

/**
 * @brief Required callin EventSubscriber method declaration helper.
 *
 * An EventSubscriber will include 1 or more EventCallback methods. Consider the
 * following flow: (1) Event occurs, (2) EventCallback is called with the
 * event details, (3) details logged, (4) details are queried.
 *
 * The above logic can be supplied in a class-like namespace with static
 * callin/callback functions:
 *
 * @code{.cpp}
 *   #include "osquery/events.h"
 *
 *   class MyEventSubscriber: public EventSubscriber {
 *     DECLARE_EVENTSUBSCRIBER(MyEventSubscriber, MyEventPublisher);
 *     DECLARE_CALLBACK(MyCallback, MyEventContext)
 *
 *     Status ModuleMyCallback(EventContextID, EventTime, MyEventContext);
 *   }
 * @endcode
 *
 * And then somewhere else in code the callback can be registered:
 *
 * @code{.cpp}
 *   EventFactory::addSubscription("MyEventPublisher", my_subscription_context,
 *                            MyEventSubscriber::MyCallback);
 * @endcode
 *
 * The binding from static method, function pointer, and EventSubscriber
 * instance boilerplate code is added automatically.
 * Note: The macro will append `Module` to `MyCallback`.
 */
#define DECLARE_CALLBACK(NAME, EVENT)                                  \
 public:                                                               \
  static Status Event##NAME(const EventContextRef ec, bool reserved) { \
    auto ec_ = std::static_pointer_cast<EVENT>(ec);                    \
    return getInstance()->NAME(ec_);                                   \
  }                                                                    \
                                                                       \
 private:                                                              \
  void BindTo##NAME(const SubscriptionContextRef mc) {                 \
    EventFactory::addSubscription(type(), mc, Event##NAME);            \
  }

/**
 * @brief Bind a subscription context to a declared EventCallback for this
 *module.
 *
 * Binding refers to the association of a callback for this EventSubscriber to
 * a configured SubscriptionContext. Under the hood "binding" creates a factory
 * Subscription for the EventPublisher used by the EventSubscriber. Such that
 * when an event of the EventPublisher is fired, if the event details match the
 * specifics of the SubscriptionContext the EventSubscription%'s EventCallback
 * will be called.
 *
 * @code{.cpp}
 *   #include "osquery/events.h"
 *
 *   class MyEventSubscriber: public EventSubscriber {
 *     DECLARE_EVENTSUBSCRIBER(MyEventSubscriber, MyEventPublisher);
 *     DECLARE_CALLBACK(MyCallback, MyEventContext);
 *
 *    public:
 *     void init() {
 *       auto mc = MyEventPublisher::createSubscriptionContext();
 *       mc->requirement = "SOME_SPECIFIC_DETAIL";
 *       BIND_CALLBACK(MyCallback, mc);
 *     }
 *     Status MyCallback(const MyEventContextRef ec) {}
 *   }
 * @endcode
 *
 * The symbol `MyCallback` must match in `DECLARE_CALLBACK`, `BIND_CALLBACK` and
 * as a member of this EventSubscriber.
 *
 * @param NAME The symbol for the EventCallback method used in DECLARE_CALLBACK.
 * @param MC The SubscriptionContext to bind.
 */
#define BIND_CALLBACK(NAME, MC) \
  EventFactory::addSubscription(type(), MC, Event##NAME);

/**
 * @brief A Subscription is used to configure an EventPublisher and bind a
 * callback.
 *
 * A Subscription is the input to an EventPublisher when the EventPublisher
 * decides on the scope and details of the events it watches and generates.
 * An example includes a filesystem change event. A subscription would include
 * a path with optional recursion and attribute selectors as well as a callback
 * function to fire when an event for that path and selector occurs.
 *
 * A Subscription also functions to greatly scope an EventPublisher%'s work.
 * Using the same filesystem example and the Linux inotify subsystem a
 * Subscription limits the number of inode watches to only those requested by
 * appropriate EventSubscriber%s.
 * Note: EventSubscriber%s and Subscriptions can be configured by the osquery
 * user.
 *
 * Subscriptions are usually created with EventFactory members:
 *
 * @code{.cpp}
 *   EventFactory::addSubscription("MyEventPublisher", my_subscription_context);
 * @endcode
 */
struct Subscription {
 public:
  /// An EventPublisher%-specific SubscriptionContext.
  SubscriptionContextRef context;
  /// An EventSubscription member EventCallback method.
  EventCallback callback;

  static SubscriptionRef create() { return std::make_shared<Subscription>(); }

  static SubscriptionRef create(const SubscriptionContextRef mc,
                                EventCallback ec = 0) {
    auto subscription = std::make_shared<Subscription>();
    subscription->context = mc;
    subscription->callback = ec;
    return subscription;
  }
};

/**
 * @brief Generate OS events of a type (FS, Network, Syscall, ioctl).
 *
 * A 'class' of OS events is abstracted into an EventPublisher responsible for
 * remaining as agile as possible given a known-set of subscriptions.
 *
 * The lifecycle of an EventPublisher may include, `setUp`, `configure`, `run`,
 * `tearDown`, and `fire`. `setUp` and `tearDown` happen when osquery starts and
 * stops either as a daemon or interactive shell. `configure` is a pseudo-start
 * called every time a Subscription is added. EventPublisher%s can adjust their
 * scope/agility specific to each added subscription by overriding
 *`addSubscription`,
 * and or globally in `configure`.
 *
 * Not all EventPublisher%s leverage pure async OS APIs, and most will require a
 * run loop either polling with a timeout on a descriptor or for a change. When
 * osquery initializes the EventFactory will optionally create a thread for each
 * EventPublisher using `run` as the thread's entrypoint. This is called in a
 * within-thread loop where returning a FAILED status ends the run loop and
 * shuts down the thread.
 *
 * To opt-out of polling in a thread consider the following run implementation:
 *
 * @code{.cpp}
 *   Status run() { return Status(1, "Not Implemented") }
 * @endcode
 *
 * The final lifecycle component, `fire` will iterate over the EventPublisher
 * Subscription%s and call `shouldFire` for each, using the EventContext fired.
 * The `shouldFire` method should check the subscription-specific selectors and
 * only call the Subscription%'s callback function is the EventContext
 * (thus event) matches.
 */
class EventPublisher {
 public:
  /**
   * @brief A new Subscription was added, potentially change state based on all
   * subscriptions for this EventPublisher.
   *
   * `configure` allows the EventPublisher to optimize on the state of all
   * subscriptions. An example is Linux `inotify` where multiple
   * EventSubscription%s will subscription identical paths, e.g., /etc for
   * config changes. Since Linux `inotify` has a subscription limit, `configure`
   * can depup paths.
   */
  virtual void configure() {}

  /**
   * @brief Perform handle opening, OS API callback registration.
   *
   * `setUp` is the event framework's EventPublisher constructor equivilent.
   * When `setUp` is called the EventPublisher is running in a dedicated thread
   * and may manage/allocate/wait for resources.
   */
  virtual void setUp() {}

  /**
   * @brief Perform handle closing, resource cleanup.
   *
   * osquery is about to end, the EventPublisher should close handle descriptors
   * unblock resources, and prepare to exit.
   */
  virtual void tearDown() {}

  /**
   * @brief Implement a step of an optional run loop.
   *
   * @return A SUCCESS status will immediately call `run` again. A FAILED status
   * will exit the run loop and the thread.
   */
  virtual Status run();

  /**
   * @brief A new EventSubscriber is subscriptioning events of this
   * EventPublisher.
   *
   * @param subscription The Subscription context information and optional
   * EventCallback.
   *
   * @return If the Subscription is not appropriate (mismatched type) fail.
   */
  virtual Status addSubscription(const SubscriptionRef subscription) {
    subscriptions_.push_back(subscription);
    return Status(0, "OK");
  }

  /// Number of Subscription%s watching this EventPublisher.
  size_t numSubscriptions() { return subscriptions_.size(); }

  /**
   * @brief The number of events fired by this EventPublisher.
   *
   * @return The number of events.
   */
  size_t numEvents() { return next_ec_id_; }

  /// Overriding the EventPublisher constructor is not recommended.
  EventPublisher() : next_ec_id_(0){};

  /// Return a string identifier associated with this EventPublisher.
  virtual EventPublisherID type() const = 0;

  /// Return a string identifier for the given EventPublisher symbol.
  template <typename T>
  static EventPublisherID type() {
    const auto& event_pub = new T();
    auto type_id = event_pub->type();
    delete event_pub;
    return type_id;
  }

 public:
  /**
   * @brief The generic check loop to call SubscriptionContext callback methods.
   *
   * It is NOT recommended to override `fire`. The simple logic of enumerating
   * the Subscription%s and using `shouldFire` is more appropraite.
   *
   * @param ec The EventContext created and fired by the EventPublisher.
   * @param time The most accurate time associated with the event.
   */
  void fire(const EventContextRef ec, EventTime time = 0);

 protected:
  /**
   * @brief The generic `fire` will call `shouldFire` for each Subscription.
   *
   * @param mc A SubscriptionContext with optional specifications for events
   * details.
   * @param ec The event fired with event details.
   *
   * @return should the Subscription%'s EventCallback be called for this event.
   */
  virtual bool shouldFire(const SubscriptionContextRef mc,
                          const EventContextRef ec);

 protected:
  /// The EventPublisher will keep track of Subscription%s that contain callins.
  SubscriptionVector subscriptions_;

  /// An Event ID is assigned by the EventPublisher within the EventContext.
  /// This is not used to store event date in the backing store.
  EventContextID next_ec_id_;

 private:
  /// A lock for incrementing the next EventContextID.
  boost::mutex ec_id_lock_;

 private:
  FRIEND_TEST(EventsTests, test_fire_event);
};

/**
 * @brief An interface binding Subscriptions, event response, and table
 *generation.
 *
 * Use the EventSubscriber interface when adding event subscriptions and
 * defining callin functions. The EventCallback is usually a member function
 * for an EventSubscriber. The EventSubscriber interface includes a very
 * important `add` method that abstracts the needed event to backing store
 * interaction.
 *
 * Storing event data in the backing store must match a table spec for queries.
 * Small overheads exist that help query-time indexing and lookups.
 */
class EventSubscriber {
 public:
  /// Called after EventPublisher `setUp`. Add all Subscription%s here.
  /**
   * @brief Add Subscription%s to the EventPublisher this module will act on.
   *
   * When the EventSubscriber%'s `init` method is called you are assured the
   * EventPublisher has `setUp` and is ready to subscription for events.
   */
  virtual void init() {}

  /**
   * @brief Suggested entrypoint for table generation.
   *
   * The EventSubscriber is a convention that removes a lot of boilerplate event
   * subscriptioning and acting. The `genTable` static entrypoint is the
   * suggested method for table specs.
   *
   * @return The query-time table data, retrieved from a backing store.
   */
  static QueryData genTable();

 protected:
  /**
   * @brief Store parsed event data from an EventCallback in a backing store.
   *
   * Within a EventCallback the EventSubscriber has an opprotunity to create
   * an osquery Row element, add the relevant table data for the EventSubscriber
   * and store that element in the osquery backing store. At query-time
   * the added data will apply selection criteria and return these elements.
   * The backing store data retrieval is optimized by time-based indexes. It
   * is important to added EventTime as it relates to "when the event occurred".
   *
   * @param r An osquery Row element.
   * @param time The time the added event occurred.
   *
   * @return Was the element added to the backing store.
   */
  virtual Status add(const osquery::Row& r, EventTime time) final;

  /**
   * @brief Return all events added by this EventSubscriber within start, stop.
   *
   * This is used internally (for the most part) by EventSubscriber::genTable.
   *
   * @param start Inclusive lower bound time limit.
   * @param stop Inclusive upper bound time limit.
   * @return Set of event rows matching time limits.
   */
  virtual QueryData get(EventTime start, EventTime stop);

  /*
   * @brief When `get`ting event results, return EventID%s from time indexes.
   *
   * Used by EventSubscriber::get to retrieve EventID, EventTime indexes. This
   * applies the lookup-efficiency checks for time list appropriate bins.
   * If the time range in 24 hours and there is a 24-hour list bin it will
   * be queried using a single backing store `Get` followed by two `Get`s of
   * the most-specific boundary lists.
   *
   * @return List of EventID, EventTime%s
   */
  std::vector<EventRecord> getRecords(EventTime start, EventTime stop);

 private:
  /**
   * @brief Get a unique storage-related EventID.
   *
   * An EventID is an index/element-identifier for the backing store.
   * Each EventPublisher maintains a fired EventContextID to identify the many
   * events that may or may not be fired to subscriptioning criteria for this
   * EventSubscriber. This EventContextID is NOT the same as an EventID.
   * EventSubscriber development should not require use of EventID%s, if this
   * indexing is required within-EventCallback consider an
   * EventSubscriber%-unique indexing, counting mechanic.
   *
   * @return A unique ID for backing storage.
   */
  EventID getEventID();

  /*
   * @brief Add an EventID, EventTime pair to all matching list types.
   *
   * The list types are defined by time size. Based on the EventTime this pair
   * is added to the list bin for each list type. If there are two list types:
   * 60 seconds and 3600 seconds and `time` is 92, this pair will be added to
   * list type 1 bin 4 and list type 2 bin 1.
   *
   * @param eid A unique EventID.
   * @param time The time when this EventID%'s event occurred.
   *
   * @return Were the indexes recorded.
   */
  Status recordEvent(EventID eid, EventTime time);

 protected:
  /**
   * @brief A single instance requirement for static callback facilities.
   *
   * The EventSubscriber constructor is NOT responsible for adding
   * Subscription%s. Please use `init` for adding Subscription%s as all
   * EventPublisher instances will have run `setUp` and initialized their run
   * loops.
   */
  EventSubscriber() {}

  /// Backing storage indexing namespace definition methods.
  EventPublisherID dbNamespace() { return type() + "." + name(); }
  /// The string EventPublisher identifying this EventSubscriber.
  virtual EventPublisherID type() const = 0;
  /// The string name identifying this EventSubscriber.
  virtual EventPublisherID name() const = 0;

 private:
  /// Lock used when incrementing the EventID database index.
  boost::mutex event_id_lock_;

  /// Lock used when recording an EventID and time into search bins.
  boost::mutex event_record_lock_;

 private:
  FRIEND_TEST(EventsDatabaseTests, test_event_module_id);
  FRIEND_TEST(EventsDatabaseTests, test_unique_event_module_id);
};

/**
 * @brief A factory for associating event generators to EventPublisherID%s.
 *
 * This factory both registers new event types and the subscriptions that use
 * them. An EventPublisher is also a factory, the single event factory arbitates
 * Subscription creatating and management for each associated EventPublisher.
 *
 * Since event types may be plugins, they are created using the factory.
 * Since subscriptions may be configured/disabled they are also factory-managed.
 */
class EventFactory {
 public:
  /// Access to the EventFactory instance.
  static EventFactory& getInstance();

  /**
   * @brief Add an EventPublisher to the factory.
   *
   * The registration is mostly abstracted using osquery's registery.
   */
  template <typename T>
  static Status registerEventPublisher() {
    auto event_pub = std::make_shared<T>();
    return EventFactory::registerEventPublisher(event_pub);
  }

  /**
   * @brief Add an EventPublisher to the factory.
   *
   * The registration is mostly abstracted using osquery's registery.
   *
   * @param event_pub If for some reason the caller needs access to the
   * EventPublisher instance they can register-by-instance.
   *
   * Access to the EventPublisher instance is not discouraged, but using the
   * EventFactory `getEventPublisher` accessor is encouraged.
   */
  static Status registerEventPublisher(const EventPublisherRef event_pub);

  /**
   * @brief Add an EventSubscriber to the factory.
   *
   * The registration is mostly abstracted using osquery's registery.
   */
  template <typename T>
  static Status registerEventSubscriber() {
    auto event_module = T::getInstance();
    return EventFactory::registerEventSubscriber(event_module);
  }

  /**
   * @brief Add an EventSubscriber to the factory.
   *
   * The registration is mostly abstracted using osquery's registery.
   *
   * @param event_module If the caller must access the EventSubscriber instance
   * control may be passed to the registry.
   *
   * Access to the EventSubscriber instance outside of the within-instance
   * table generation method and set of EventCallback%s is discouraged.
   */
  static Status registerEventSubscriber(const EventSubscriberRef event_module);

  /**
   * @brief Add a SubscriptionContext and EventCallback Subscription to an
   *EventPublisher.
   *
   * Create a Subscription from a given SubscriptionContext and EventCallback
   * and add that Subscription to the EventPublisher assosicated identiter.
   *
   * @param type_id The string for an EventPublisher receiving the Subscription.
   * @param mc A SubscriptionContext related to the EventPublisher.
   * @param cb When the EventPublisher fires an event the SubscriptionContext
   * will be evaluated, if the event matches optional specifics in the context
   * this callback function will be called. It should belong to an
   * EventSubscription.
   *
   * @return Was the SubscriptionContext appropriate for the EventPublisher.
   */
  static Status addSubscription(EventPublisherID type_id,
                                const SubscriptionContextRef mc,
                                EventCallback cb = 0);

  /// Add a Subscription using a caller Subscription instance.
  static Status addSubscription(EventPublisherID type_id,
                                const SubscriptionRef subscription);

  /// Add a Subscription by templating the EventPublisher, using a
  /// SubscriptionContext.
  template <typename T>
  static Status addSubscription(const SubscriptionContextRef mc,
                                EventCallback cb = 0) {
    return addSubscription(EventPublisher::type<T>(), mc, cb);
  }

  /// Add a Subscription by templating the EventPublisher, using a Subscription
  /// instance.
  template <typename T>
  static Status addSubscription(const SubscriptionRef subscription) {
    return addSubscription(EventPublisher::type<T>(), subscription);
  }

  /// Get the total number of Subscription%s across ALL EventPublisher%s.
  static size_t numSubscriptions(EventPublisherID type_id);

  /// Get the number of EventPublishers.
  static size_t numEventPublishers() {
    return EventFactory::getInstance().event_pubs_.size();
  }

  /**
   * @brief Halt the EventPublisher run loop and call its `tearDown`.
   *
   * Any EventSubscriber%s with Subscription%s for this EventPublisher will
   * become useless. osquery instanciators MUST deregister events.
   * EventPublisher%s assume they can hook/trampoline, which requires cleanup.
   *
   * @param event_pub The string label for the EventPublisher.
   *
   * @return Did the EventPublisher deregister cleanly.
   */
  static Status deregisterEventPublisher(const EventPublisherRef event_pub);

  /// Deregister an EventPublisher by EventPublisherID.
  static Status deregisterEventPublisher(EventPublisherID type_id);

  /// Deregister all EventPublisher%s.
  static Status deregisterEventPublishers();

  /// Return an instance to a registered EventPublisher.
  static EventPublisherRef getEventPublisher(EventPublisherID);

 public:
  /// The dispatched event thread's entrypoint (if needed).
  static Status run(EventPublisherID type_id);

  /// An initializer's entrypoint for spawning all event type run loops.
  static void delay();

 public:
  /// If a static EventPublisher callback wants to fire
  template <typename T>
  static void fire(const EventContextRef ec) {
    auto event_pub = getEventPublisher(EventPublisher::type<T>());
    event_pub->fire(ec);
  }

  /**
   * @brief End all EventPublisher run loops and call their `tearDown` methods.
   *
   * End is NOT the same as deregistration.
   *
   * @param should_end Reset the "is ending" state if False.
   */
  static void end(bool should_end = true);

 private:
  /// An EventFactory will exist for the lifetime of the application.
  EventFactory() { ending_ = false; }
  EventFactory(EventFactory const&);
  void operator=(EventFactory const&);

 private:
  /// Set ending to True to cause event type run loops to finish.
  bool ending_;

  /// Set of registered EventPublisher instances.
  EventPublisherMap event_pubs_;

  /// Set of running EventPublisher run loop threads.
  std::vector<std::shared_ptr<boost::thread> > threads_;

  /// Set of instanciated EventSubscriber Subscription sets (with callbacks and
  /// state).
  std::vector<EventSubscriberRef> event_modules_;
};
}

/// Expose a Plugin-like Registry for EventPublisher instances.
DECLARE_REGISTRY(EventPublishers, std::string, EventPublisherRef);
#define REGISTERED_EVENTPUBLISHERS REGISTRY(EventPublishers)
#define REGISTER_EVENTPUBLISHER(decorator) \
  REGISTER(EventPublishers, #decorator, std::make_shared<decorator>());

/**
 * @brief Expose a Plugin-link Registry for EventSubscriber instances.
 *
 * In most cases the EventSubscriber class will organize itself to include
 * an generator entry point for query-time table generation too.
 */
DECLARE_REGISTRY(EventSubscribers, std::string, EventSubscriberRef);
#define REGISTERED_EVENTSUBSCRIBERS REGISTRY(EventSubscribers)
#define REGISTER_EVENTSUBSCRIBER(decorator) \
  REGISTER(EventSubscribers, #decorator, decorator::getInstance());

namespace osquery {
namespace registries {
/**
 * @brief A utility method for moving EventPublisher%s and EventSubscriber%s
 * (plugins) into the EventFactory.
 *
 * To handle run-time and compile-time EventPublisher and EventSubscriber
 * additions as plugins or extensions, the osquery Registry workflow is used.
 * During application launch (or within plugin load) the EventFactory faucet
 * moves managed instances of these types to the EventFactory. The
 * EventPublisher and EventSubscriber lifecycle/developer workflow is unknown
 * to the Registry.
 */
void faucet(EventPublishers ets, EventSubscribers ems);
}
}