osquery-1/include/osquery/events.h
2015-02-01 04:32:18 -07:00

777 lines
28 KiB
C++

/*
* Copyright (c) 2014, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD-style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*
*/
#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/database.h>
#include <osquery/registry.h>
#include <osquery/status.h>
#include <osquery/tables.h>
namespace osquery {
struct Subscription;
template <class SC, class EC> class EventPublisher;
template <class PUB> class EventSubscriber;
class EventFactory;
typedef const std::string EventPublisherID;
typedef const std::string EventSubscriberID;
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 subscribe on
* networking protocols at various stacks. Process creation may subscribe 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 subscribing EventSubscriber
* would 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 EventPublisher<SubscriptionContext, EventContext> BaseEventPublisher;
typedef std::shared_ptr<BaseEventPublisher> EventPublisherRef;
typedef std::shared_ptr<SubscriptionContext> SubscriptionContextRef;
typedef std::shared_ptr<EventContext> EventContextRef;
typedef std::shared_ptr<EventSubscriber<BaseEventPublisher>> EventSubscriberRef;
/// Use a single placeholder for the EventContextRef passed to EventCallback.
using std::placeholders::_1;
typedef std::function<Status(const EventContextRef&)> EventCallback;
/// An EventPublisher must track every subscription added.
typedef std::vector<SubscriptionRef> SubscriptionVector;
/// The set of search-time binned lookup tables.
extern const std::vector<size_t> kEventTimeLists;
/**
* @brief DECLARE_PUBLISHER supplies needed boilerplate code that applies a
* string-type EventPublisherID to identify the publisher declaration.
*/
#define DECLARE_PUBLISHER(TYPE) \
public: \
EventPublisherID type() const { return TYPE; }
/**
* @brief DECLARE_SUBSCRIBER supplies needed boilerplate code that applies a
* string-type EventSubscriberID to identify the subscriber declaration.
*/
#define DECLARE_SUBSCRIBER(NAME) \
public: \
EventSubscriberID name() const { return NAME; }
/**
* @brief A Subscription is used to configure an EventPublisher and bind a
* callback to a SubscriptionContext.
*
* A Subscription is the input to an EventPublisher when the EventPublisher
* decides on the scope and details of the events it watches/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;
}
};
class EventPublisherPlugin : public Plugin {
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 Status setUp() { return Status(0, "Not used"); }
/**
* @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() { return Status(1, "No runloop required"); }
/**
* @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");
}
/**
* @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);
/// Number of Subscription%s watching this EventPublisher.
size_t numSubscriptions() const { return subscriptions_.size(); }
/**
* @brief The number of events fired by this EventPublisher.
*
* @return The number of events.
*/
size_t numEvents() const { return next_ec_id_; }
/// Overriding the EventPublisher constructor is not recommended.
EventPublisherPlugin() : next_ec_id_(0), ending_(false), started_(false) {};
virtual ~EventPublisherPlugin() {}
/// Return a string identifier associated with this EventPublisher.
virtual EventPublisherID type() const { return "publisher"; }
bool isEnding() const { return ending_; }
void isEnding(bool ending) { ending_ = ending; }
bool hasStarted() const { return started_; }
void hasStarted(bool started) { started_ = started; }
protected:
/// The internal fire method used by the typed EventPublisher.
virtual void fireCallback(const SubscriptionRef& sub,
const EventContextRef& ec) const = 0;
/// 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:
EventPublisherPlugin(EventPublisherPlugin const&);
void operator=(EventPublisherPlugin const&);
private:
/// Set ending to True to cause event type run loops to finish.
bool ending_;
/// Set to indicate whether the event run loop ever started.
bool started_;
/// A lock for incrementing the next EventContextID.
boost::mutex ec_id_lock_;
private:
FRIEND_TEST(EventsTests, test_event_pub);
FRIEND_TEST(EventsTests, test_fire_event);
};
/**
* @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. `run` 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 if the EventContext
* (thus event) matches.
*/
template <typename SC, typename EC>
class EventPublisher : public EventPublisherPlugin {
public:
/// A nested helper typename for the templated SubscriptionContextRef.
typedef typename std::shared_ptr<SC> SCRef;
/// A nested helper typename for the templated EventContextRef.
typedef typename std::shared_ptr<EC> ECRef;
public:
/// Up-cast a base EventContext reference to the templated ECRef.
static ECRef getEventContext(const EventContextRef& ec) {
return std::static_pointer_cast<EC>(ec);
}
/// Up-cast a base SubscriptionContext reference to the templated SCRef.
static SCRef getSubscriptionContext(const SubscriptionContextRef& sc) {
return std::static_pointer_cast<SC>(sc);
}
/// Create a EventContext based on the templated type.
static ECRef createEventContext() { return std::make_shared<EC>(); }
/// Create a SubscriptionContext based on the templated type.
static SCRef createSubscriptionContext() { return std::make_shared<SC>(); }
/// A simple EventPublisher type accessor.
template <class PUB>
static EventPublisherID getType() {
auto pub = std::make_shared<PUB>();
return pub->type();
}
protected:
/**
* @brief The internal `fire` phase of publishing.
*
* This is a template-generated method that up-casts the generic fired
* event/subscription contexts, and calls the callback if the event should
* fire given a scription.
*
* @param sub The SubscriptionContext and optional EventCallback.
* @param ec The event that was fired.
*/
void fireCallback(const SubscriptionRef& sub,
const EventContextRef& ec) const {
auto pub_sc = getSubscriptionContext(sub->context);
auto pub_ec = getEventContext(ec);
if (shouldFire(pub_sc, pub_ec) && sub->callback != nullptr) {
sub->callback(pub_ec);
}
}
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 SCRef& sc, const ECRef& ec) const {
return true;
}
private:
FRIEND_TEST(EventsTests, test_event_sub_subscribe);
FRIEND_TEST(EventsTests, test_event_sub_context);
FRIEND_TEST(EventsTests, test_fire_event);
};
/**
* @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.
*
* @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.
*/
template <class T>
static Status registerEventPublisher(const std::shared_ptr<T>& pub) {
auto base_pub = reinterpret_cast<const EventPublisherRef&>(pub);
return registerEventPublisher(base_pub);
}
/// Once the event publisher has been down-casted, call it's API.
static Status registerEventPublisher(const EventPublisherRef& pub);
/**
* @brief Add an EventSubscriber to the factory.
*
* The registration is mostly abstracted using osquery's registery.
*/
template <class T>
static Status registerEventSubscriber() {
auto sub = std::make_shared<T>();
return registerEventSubscriber(sub);
}
/**
* @brief Add an EventSubscriber to the factory.
*
* The registration is mostly abstracted using osquery's registery.
*
* @param sub 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.
*/
template <class T>
static Status registerEventSubscriber(std::shared_ptr<T> sub) {
auto base_sub = reinterpret_cast<EventSubscriberRef&>(sub);
return registerEventSubscriber(base_sub);
}
/// Once the event subscriber has been down-casted, call it's API.
static Status registerEventSubscriber(const EventSubscriberRef& sub);
/**
* @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 by templating the EventPublisher, using a
/// SubscriptionContext.
template <typename PUB>
static Status addSubscription(const SubscriptionContextRef& mc,
EventCallback cb = 0) {
return addSubscription(BaseEventPublisher::getType<PUB>(), mc, cb);
}
/// Add a Subscription using a caller Subscription instance.
static Status addSubscription(EventPublisherID& type_id,
const SubscriptionRef& 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& pub);
/// Deregister an EventPublisher by EventPublisherID.
static Status deregisterEventPublisher(EventPublisherID& type_id);
/// Return an instance to a registered EventPublisher.
static EventPublisherRef getEventPublisher(EventPublisherID& pub);
/// Return an instance to a registered EventSubscriber.
static EventSubscriberRef getEventSubscriber(EventSubscriberID& pub);
static std::vector<std::string> publisherTypes();
static std::vector<std::string> subscriberNames();
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();
/// If a static EventPublisher callback wants to fire
template <typename PUB>
static void fire(const EventContextRef& ec) {
auto event_pub = getEventPublisher(BaseEventPublisher::getType<PUB>());
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 join = false);
private:
/// An EventFactory will exist for the lifetime of the application.
EventFactory() {}
EventFactory(EventFactory const&);
void operator=(EventFactory const&);
~EventFactory() {}
private:
/// Set of registered EventPublisher instances.
std::map<EventPublisherID, EventPublisherRef> event_pubs_;
/// Set of instanciated EventSubscriber subscriptions.
std::map<EventSubscriberID, EventSubscriberRef> event_subs_;
/// Set of running EventPublisher run loop threads.
std::vector<std::shared_ptr<boost::thread> > threads_;
};
class EventSubscriberPlugin : public Plugin {
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);
private:
/*
* @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(const std::vector<std::string>& indexes);
/**
* @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 Plan the best set of indexes for event record access.
*
* @param start an inclusive time to begin searching.
* @param stop an inclusive time to end searching.
* @param list_key optional key to bind to a specific index binning.
*
* @return List of 'index.step' index strings.
*/
std::vector<std::string> getIndexes(EventTime start,
EventTime stop,
int list_key = 0);
/**
* @brief Expire indexes and eventually records.
*
* @param list_type the string representation of list binning type.
* @param indexes complete set of 'index.step' indexes for the list_type.
* @param expirations of the indexes, the set to expire.
*
* @return status if the indexes and records were removed.
*/
Status expireIndexes(const std::string& list_type,
const std::vector<std::string>& indexes,
const std::vector<std::string>& expirations);
/**
* @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);
public:
/**
* @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.
*/
EventSubscriberPlugin() {
expire_events_ = true;
expire_time_ = 0;
}
virtual ~EventSubscriberPlugin() {}
/**
* @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.
*/
virtual QueryData genTable(tables::QueryContext& context)
__attribute__((used)) {
return get(0, 0);
}
/// The string name identifying this EventSubscriber.
virtual EventSubscriberID name() const { return "subscriber"; }
protected:
/// Backing storage indexing namespace definition methods.
EventPublisherID dbNamespace() const { return type() + "." + name(); }
/// The string EventPublisher identifying this EventSubscriber.
virtual EventPublisherID type() const = 0;
/// Disable event expiration for this subscriber.
void doNotExpire() { expire_events_ = false; }
private:
EventSubscriberPlugin(EventSubscriberPlugin const&);
void operator=(EventSubscriberPlugin const&);
private:
/// Do not respond to periodic/scheduled/triggered event expiration requests.
bool expire_events_;
/// Events before the expire_time_ are invalid and will be purged.
EventTime expire_time_;
/// 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_record_indexing);
FRIEND_TEST(EventsDatabaseTests, test_record_range);
FRIEND_TEST(EventsDatabaseTests, test_record_expiration);
};
/**
* @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.
*/
template <class PUB>
class EventSubscriber : public EventSubscriberPlugin {
protected:
typedef typename PUB::SCRef SCRef;
typedef typename PUB::ECRef ECRef;
public:
/**
* @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() {}
/// Helper function to call the publisher's templated subscription generator.
SCRef createSubscriptionContext() const {
return PUB::createSubscriptionContext();
}
/**
* @brief Bind a registered EventSubscriber member function to a Subscription.
*
* @param entry A templated EventSubscriber member function.
* @param sc The subscription context.
*/
template <class T, typename C>
void subscribe(Status (T::*entry)(const std::shared_ptr<C>&),
const SubscriptionContextRef& sc) {
// Up-cast the CRTP-style EventSubscriber to the caller.
auto self = dynamic_cast<T*>(this);
// Down-cast the pointer to the member function.
auto base_entry =
reinterpret_cast<Status (T::*)(const EventContextRef&)>(entry);
// Create a callable theo the member function using the instance of the
// EventSubscriber and a single parameter placeholder (the EventContext).
auto cb = std::bind(base_entry, self, _1);
// Add a subscription using the callable and SubscriptionContext.
EventFactory::addSubscription(type(), sc, cb);
}
/// Helper EventPublisher string type accessor.
EventPublisherID type() const { return BaseEventPublisher::getType<PUB>(); }
private:
FRIEND_TEST(EventsTests, test_event_sub);
FRIEND_TEST(EventsTests, test_event_sub_subscribe);
FRIEND_TEST(EventsTests, test_event_sub_context);
};
/// Iterate the event publisher registry and create run loops for each using
/// the event factory.
void attachEvents();
CREATE_LAZY_REGISTRY(EventPublisherPlugin, "event_publisher");
CREATE_REGISTRY(EventSubscriberPlugin, "event_subscriber");
}