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- #ifndef DASYNQ_H_
- #define DASYNQ_H_
- #include "dasynq/config.h"
- #include "dasynq/flags.h"
- #include "dasynq/stableheap.h"
- #include "dasynq/interrupt.h"
- #include "dasynq/util.h"
- // Dasynq uses a "mix-in" pattern to produce an event loop implementation incorporating selectable
- // implementations of various components (main backend, timers, child process watch mechanism etc). In C++
- // this can be achieved by a template for some component which extends its own type parameter:
- //
- // template <typename Base> class X : public B { .... }
- //
- // (Note that in a sense this is actually the opposite of the so-called "Curiously Recurring Template"
- // pattern, which can be used to achieve a similar goal). We can chain several such components together to
- // "mix in" the functionality of each into the final class, eg:
- //
- // template <typename T> using loop_t =
- // epoll_loop<interrupt_channel<timer_fd_events<child_proc_events<T>>>>;
- //
- // (which defines an alias template "loop_t", whose implementation will use the epoll backend, a standard
- // interrupt channel implementation, a timerfd-based timer implementation, and the standard child process
- // watch implementation). We sometimes need the base class to be able to call derived-class members: to do
- // this we pass a reference to the derived instance into a template member function in the base, for example
- // the "init" function:
- //
- // template <typename T> void init(T *derived)
- // {
- // // can call method on derived:
- // derived->add_listener();
- // // chain to next class:
- // Base::init(derived);
- // }
- //
- // The 'loop_t' defined above is a template for a usable backend mechanism for the event_loop template
- // class. At the base all this is the event_dispatch class, defined below, which receives event
- // notifications and inserts them into a queue for processing. The event_loop class, also below, wraps this
- // (via composition) in an interface which can be used to register/de-register/enable/disable event
- // watchers, and which can process the queued events by calling the watcher callbacks. The event_loop class
- // also provides some synchronisation to ensure thread-safety, and abstracts away some differences between
- // backends.
- //
- // The differences are exposed as traits, partly via a separate traits class (loop_traits_t as defined
- // below, which contains the "main" traits, particularly the sigdata_t, fd_r and fd_s types). Note that the
- // event_dispatch class exposes the loop traits as traits_t, and these are then potentially augmented at
- // each stage of the mechanism inheritance chain (i.e. the final traits are exposed as
- // `loop_t<event_dispatch>::traits_t'.
- //
- // The trait members are:
- // sigdata_t - a wrapper for the siginfo_t type or equivalent used to pass signal parameters
- // fd_r - a file descriptor wrapper, if the backend is able to retrieve the file descriptor when
- // it receives an fd event. Not all backends can do this.
- // fd_s - a file descriptor storage wrapper. If the backend can retrieve file descriptors, this
- // will be empty (and ideally zero-size), otherwise it stores a file descriptor.
- // With an fd_r and fd_s instance you can always retrieve the file descriptor:
- // `fdr.get_fd(fds)' will return it.
- // has_bidi_fd_watch
- // - boolean indicating whether a single watch can support watching for both input and output
- // events simultaneously
- // has_separate_rw_fd_watches
- // - boolean indicating whether it is possible to add separate input and output watches for the
- // same fd. Either this or has_bidi_fd_watch must be true.
- // interrupt_after_fd_add
- // - boolean indicating if a loop interrupt must be forced after adding/enabling an fd watch.
- // interrupt_after_signal_add
- // - boolean indicating if a loop interrupt must be forced after adding or enabling a signal
- // watch.
- // supports_non_oneshot_fd
- // - boolean; if true, event_dispatch can arm an fd watch without ONESHOT and returning zero
- // events from receive_fd_event (the event notification function) will leave the descriptor
- // armed. If false, all fd watches are effectively ONESHOT (they can be re-armed immediately
- // after delivery by returning an appropriate event flag mask).
- // full_timer_support
- // - boolean indicating that the monotonic and system clocks are actually different clocks and
- // that timers against the system clock will work correctly if the system clock time is
- // adjusted. If false, the monotonic clock may not be present at all (monotonic clock will map
- // to system clock), and timers against either clock are not guaranteed to work correctly if
- // the system clock is adjusted.
- #if DASYNQ_HAVE_EPOLL <= 0
- #if _POSIX_TIMERS > 0
- #include "dasynq/posixtimer.h"
- namespace dasynq {
- template <typename T, bool provide_mono_timer = true> using timer_events = posix_timer_events<T, provide_mono_timer>;
- } // namespace dasynq
- #else
- #include "dasynq/itimer.h"
- namespace dasynq {
- template <typename T, bool provide_mono_timer = true> using timer_events = itimer_events<T, provide_mono_timer>;
- } // namespace dasynq
- #endif
- #endif
- #if DASYNQ_HAVE_KQUEUE
- #if DASYNQ_KQUEUE_MACOS_WORKAROUND
- #include "dasynq/kqueue-macos.h"
- #include "dasynq/childproc.h"
- namespace dasynq {
- template <typename T> using loop_t = macos_kqueue_loop<timer_events<child_proc_events<interrupt_channel<T>>, false>>;
- using loop_traits_t = macos_kqueue_traits;
- } // namespace dasynq
- #else
- #include "dasynq/kqueue.h"
- #include "dasynq/childproc.h"
- namespace dasynq {
- template <typename T> using loop_t = kqueue_loop<timer_events<child_proc_events<interrupt_channel<T>>, false>>;
- using loop_traits_t = kqueue_traits;
- } // namespace dasynq
- #endif
- #elif DASYNQ_HAVE_EPOLL
- #include "dasynq/epoll.h"
- #include "dasynq/timerfd.h"
- #include "dasynq/childproc.h"
- namespace dasynq {
- template <typename T> using loop_t = epoll_loop<interrupt_channel<timer_fd_events<child_proc_events<T>>>>;
- using loop_traits_t = epoll_traits;
- } // namespace dasynq
- #else
- #include "dasynq/childproc.h"
- #if DASYNQ_HAVE_PSELECT
- #include "dasynq/pselect.h"
- namespace dasynq {
- template <typename T> using loop_t = pselect_events<timer_events<interrupt_channel<child_proc_events<T>>, false>>;
- using loop_traits_t = select_traits;
- } // namespace dasynq
- #else
- #include "dasynq/select.h"
- namespace dasynq {
- template <typename T> using loop_t = select_events<timer_events<interrupt_channel<child_proc_events<T>>, false>>;
- using loop_traits_t = select_traits;
- } // namespace dasynq
- #endif
- #endif
- #include <atomic>
- #include <condition_variable>
- #include <cstdint>
- #include <cstddef>
- #include <system_error>
- #include <unistd.h>
- #include <fcntl.h>
- #include "dasynq/mutex.h"
- #include "dasynq/basewatchers.h"
- namespace dasynq {
- /**
- * Values for rearm/disarm return from event handlers
- */
- enum class rearm
- {
- /** Re-arm the event watcher so that it receives further events */
- REARM,
- /** Disarm the event watcher so that it receives no further events, until it is re-armed explicitly */
- DISARM,
- /** Leave in current armed/disarmed state */
- NOOP,
- /** Remove the event watcher (and call "removed" callback) */
- REMOVE,
- /** The watcher has been removed - don't touch it! */
- REMOVED,
- /** RE-queue the watcher to have its notification called again */
- REQUEUE
- };
- // Tag type to specify that initialisation should be delayed
- class delayed_init {
- DASYNQ_EMPTY_BODY
- };
- namespace dprivate {
- // Classes for implementing a fair(ish) wait queue.
- // A queue node can be signalled when it reaches the head of
- // the queue.
- template <typename T_Mutex> class waitqueue;
- template <typename T_Mutex> class waitqueue_node;
- // Select an appropriate condition variable type for a mutex:
- // condition_variable if mutex is std::mutex, or condition_variable_any
- // otherwise.
- template <class T_Mutex> class condvar_selector;
- template <> class condvar_selector<std::mutex>
- {
- public:
- typedef std::condition_variable condvar;
- };
- template <class T_Mutex> class condvar_selector
- {
- public:
- typedef std::condition_variable_any condvar;
- };
- // For a single-threaded loop, the waitqueue is a no-op:
- template <> class waitqueue_node<null_mutex>
- {
- // Specialised waitqueue_node for null_mutex.
- friend class waitqueue<null_mutex>;
-
- public:
- void wait(std::unique_lock<null_mutex> &ul) { }
- void signal() { }
-
- DASYNQ_EMPTY_BODY
- };
- template <typename T_Mutex> class waitqueue_node
- {
- typename condvar_selector<T_Mutex>::condvar condvar;
- friend class waitqueue<T_Mutex>;
- // ptr to next node in queue, set to null when added to queue tail:
- waitqueue_node * next;
-
- public:
- void signal()
- {
- condvar.notify_one();
- }
-
- void wait(std::unique_lock<T_Mutex> &mutex_lock)
- {
- condvar.wait(mutex_lock);
- }
- };
- template <> class waitqueue<null_mutex>
- {
- public:
- // remove current head of queue, return new head:
- waitqueue_node<null_mutex> * unqueue()
- {
- return nullptr;
- }
-
- waitqueue_node<null_mutex> * get_head()
- {
- return nullptr;
- }
-
- waitqueue_node<null_mutex> * get_second()
- {
- return nullptr;
- }
- bool check_head(waitqueue_node<null_mutex> &node)
- {
- return true;
- }
-
- bool is_empty()
- {
- return true;
- }
-
- void queue(waitqueue_node<null_mutex> *node)
- {
- }
- };
- template <typename T_Mutex> class waitqueue
- {
- waitqueue_node<T_Mutex> * tail = nullptr;
- waitqueue_node<T_Mutex> * head = nullptr;
- public:
- // remove current head of queue, return new head:
- waitqueue_node<T_Mutex> * unqueue()
- {
- head = head->next;
- if (head == nullptr) {
- tail = nullptr;
- }
- return head;
- }
-
- waitqueue_node<T_Mutex> * get_head()
- {
- return head;
- }
-
- waitqueue_node<T_Mutex> * get_second()
- {
- return head->next;
- }
- bool check_head(waitqueue_node<T_Mutex> &node)
- {
- return head == &node;
- }
-
- bool is_empty()
- {
- return head == nullptr;
- }
-
- void queue(waitqueue_node<T_Mutex> *node)
- {
- node->next = nullptr;
- if (tail) {
- tail->next = node;
- }
- else {
- head = node;
- }
- tail = node;
- }
- };
-
- // friend of event_loop for giving access to various private members
- class loop_access {
- public:
- template <typename Loop>
- static typename Loop::mutex_t &get_base_lock(Loop &loop) noexcept
- {
- return loop.get_base_lock();
- }
- template <typename Loop>
- static rearm process_fd_rearm(Loop &loop, typename Loop::base_fd_watcher *bfw,
- rearm rearm_type) noexcept
- {
- return loop.process_fd_rearm(bfw, rearm_type);
- }
- template <typename Loop>
- static rearm process_primary_rearm(Loop &loop, typename Loop::base_bidi_fd_watcher *bdfw,
- rearm rearm_type) noexcept
- {
- return loop.process_primary_rearm(bdfw, rearm_type);
- }
- template <typename Loop>
- static rearm process_secondary_rearm(Loop &loop, typename Loop::base_bidi_fd_watcher * bdfw,
- base_watcher * outw, rearm rearm_type) noexcept
- {
- return loop.process_secondary_rearm(bdfw, outw, rearm_type);
- }
- template <typename Loop>
- static void process_signal_rearm(Loop &loop, typename Loop::base_signal_watcher * bsw,
- rearm rearm_type) noexcept
- {
- loop.process_signal_rearm(bsw, rearm_type);
- }
- template <typename Loop>
- static void process_child_watch_rearm(Loop &loop, typename Loop::base_child_watcher *bcw,
- rearm rearm_type) noexcept
- {
- loop.process_child_watch_rearm(bcw, rearm_type);
- }
- template <typename Loop>
- static void process_timer_rearm(Loop &loop, typename Loop::base_timer_watcher *btw,
- rearm rearm_type) noexcept
- {
- loop.process_timer_rearm(btw, rearm_type);
- }
- template <typename Loop>
- static void requeue_watcher(Loop &loop, base_watcher *watcher) noexcept
- {
- loop.requeue_watcher(watcher);
- }
- template <typename Loop>
- static void release_watcher(Loop &loop, base_watcher *watcher) noexcept
- {
- loop.release_watcher(watcher);
- }
- };
- // Do standard post-dispatch processing for a watcher. This handles the case of removing or
- // re-queueing watchers depending on the rearm type. This is called from the individual
- // watcher dispatch functions to handle REMOVE or REQUEUE re-arm values.
- template <typename Loop> void post_dispatch(Loop &loop, base_watcher *watcher, rearm rearm_type)
- {
- if (rearm_type == rearm::REMOVE) {
- loop_access::get_base_lock(loop).unlock();
- loop_access::release_watcher(loop, watcher);
- watcher->watch_removed();
- loop_access::get_base_lock(loop).lock();
- }
- else if (rearm_type == rearm::REQUEUE) {
- loop_access::requeue_watcher(loop, watcher);
- }
- }
- // Post-dispatch handling for bidi fd watchers.
- template <typename Loop> void post_dispatch(Loop &loop, bidi_fd_watcher<Loop> *bdfd_watcher,
- base_watcher *out_watcher, rearm rearm_type)
- {
- base_watcher *watcher = (base_watcher *)bdfd_watcher;
- if (rearm_type == rearm::REMOVE) {
- loop_access::get_base_lock(loop).unlock();
- loop_access::release_watcher(loop, watcher);
- loop_access::release_watcher(loop, out_watcher);
- watcher->watch_removed();
- loop_access::get_base_lock(loop).lock();
- }
- else if (rearm_type == rearm::REQUEUE) {
- loop_access::requeue_watcher(loop, watcher);
- }
- }
- // The event_dispatch class serves as the base class (mixin) for the backend mechanism. It
- // mostly manages queing and dequeing of events and maintains/owns the relevant data
- // structures, including a mutex lock.
- //
- // The backend mechanism should call one of the receiveXXX functions to notify of an event
- // received. The watcher will then be queued.
- //
- // In general the functions should be called with lock held. In practice this means that the
- // event loop backend implementations (that deposit received events here) must obtain the
- // lock; they are also free to use it to protect their own internal data structures.
- template <typename Traits, typename LoopTraits> class event_dispatch
- {
- friend class dasynq::event_loop<typename LoopTraits::mutex_t, LoopTraits>;;
- public:
- using mutex_t = typename LoopTraits::mutex_t;
- using traits_t = Traits;
- using delayed_init = dasynq::delayed_init;
- private:
- // queue data structure/pointer
- prio_queue event_queue;
-
- using base_signal_watcher = dprivate::base_signal_watcher<typename traits_t::sigdata_t>;
- using base_child_watcher = dprivate::base_child_watcher;
- using base_timer_watcher = dprivate::base_timer_watcher;
-
- // Add a watcher into the queueing system (but don't queue it). Call with lock held.
- // may throw: std::bad_alloc
- void prepare_watcher(base_watcher *bwatcher)
- {
- allocate_handle(event_queue, bwatcher->heap_handle, bwatcher);
- }
-
- void queue_watcher(base_watcher *bwatcher) noexcept
- {
- event_queue.insert(bwatcher->heap_handle, bwatcher->priority);
- }
-
- void dequeue_watcher(base_watcher *bwatcher) noexcept
- {
- if (event_queue.is_queued(bwatcher->heap_handle)) {
- event_queue.remove(bwatcher->heap_handle);
- }
- }
- // Remove watcher from the queueing system
- void release_watcher(base_watcher *bwatcher) noexcept
- {
- event_queue.deallocate(bwatcher->heap_handle);
- }
-
- protected:
- mutex_t lock;
- template <typename T> void init(T *loop) noexcept { }
- void cleanup() noexcept { }
-
- void sigmaskf(int how, const sigset_t *set, sigset_t *oset)
- {
- LoopTraits::sigmaskf(how, set, oset);
- }
- // Receive a signal; return true to disable signal watch or false to leave enabled.
- // Called with lock held.
- template <typename T>
- bool receive_signal(T &loop_mech, typename Traits::sigdata_t & siginfo, void * userdata) noexcept
- {
- base_signal_watcher * bwatcher = static_cast<base_signal_watcher *>(userdata);
- bwatcher->siginfo = siginfo;
- queue_watcher(bwatcher);
- return true;
- }
-
- // Receive fd event delivered from backend mechansim. Returns the desired watch mask, as per
- // set_fd_enabled, which can be used to leave the watch disabled, re-enable it or re-enable
- // one direction of a bi-directional watcher.
- template <typename T>
- std::tuple<int, typename Traits::fd_s> receive_fd_event(T &loop_mech, typename Traits::fd_r fd_r,
- void * userdata, int flags) noexcept
- {
- base_fd_watcher * bfdw = static_cast<base_fd_watcher *>(userdata);
-
- bfdw->event_flags |= flags;
- typename Traits::fd_s watch_fd_s {bfdw->watch_fd};
-
- base_watcher * bwatcher = bfdw;
-
- bool is_multi_watch = bfdw->watch_flags & multi_watch;
- if (is_multi_watch) {
- base_bidi_fd_watcher *bbdw = static_cast<base_bidi_fd_watcher *>(bwatcher);
- bbdw->watch_flags &= ~flags;
- if ((flags & IN_EVENTS) && (flags & OUT_EVENTS)) {
- // Queue the secondary watcher first:
- queue_watcher(&bbdw->out_watcher);
- }
- else if (flags & OUT_EVENTS) {
- // Use the secondary watcher for queueing:
- bwatcher = &(bbdw->out_watcher);
- }
- }
- queue_watcher(bwatcher);
-
- if (is_multi_watch && ! traits_t::has_separate_rw_fd_watches) {
- // If this is a bidirectional fd-watch, it has been disabled in *both* directions
- // as the event was delivered. However, the other direction should not be disabled
- // yet, so we need to re-enable:
- int in_out_mask = IN_EVENTS | OUT_EVENTS;
- if ((bfdw->watch_flags & in_out_mask) != 0) {
- // We need to re-enable the other channel now:
- return std::make_tuple((bfdw->watch_flags & in_out_mask) | ONE_SHOT, watch_fd_s);
- // We are the polling thread: don't need to interrupt polling, even if it would
- // normally be required.
- }
- }
- return std::make_tuple(0, watch_fd_s);
- }
-
- // Child process terminated. Called with both the main lock and the reaper lock held.
- void receive_child_stat(pid_t child, int status, void * userdata) noexcept
- {
- base_child_watcher * watcher = static_cast<base_child_watcher *>(userdata);
- watcher->child_status = status;
- watcher->child_termd = true;
- queue_watcher(watcher);
- }
-
- void receive_timer_expiry(timer_handle_t & timer_handle, void * userdata, int intervals) noexcept
- {
- base_timer_watcher * watcher = static_cast<base_timer_watcher *>(userdata);
- watcher->intervals += intervals;
- queue_watcher(watcher);
- }
-
- // Pull a single event from the queue; returns nullptr if the queue is empty.
- // Call with lock held.
- base_watcher * pull_queued_event() noexcept
- {
- if (event_queue.empty()) {
- return nullptr;
- }
-
- auto & rhndl = event_queue.get_root();
- base_watcher *r = dprivate::get_watcher(event_queue, rhndl);
- event_queue.pull_root();
- return r;
- }
-
- size_t num_queued_events() noexcept
- {
- return event_queue.size();
- }
- // Queue a watcher for removal, or issue "removed" callback to it.
- // Call with lock free.
- void issue_delete(base_watcher *watcher) noexcept
- {
- // This is only called when the attention lock is held, so if the watcher is not
- // active/queued now, it cannot become active (and will not be reported with an event)
- // during execution of this function.
-
- lock.lock();
-
- if (watcher->active) {
- // If the watcher is active, set deleteme true; the watcher will be removed
- // at the end of current processing (i.e. when active is set false).
- watcher->deleteme = true;
- lock.unlock();
- }
- else {
- // Actually do the delete.
- dequeue_watcher(watcher);
- release_watcher(watcher);
-
- lock.unlock();
- watcher->watch_removed();
- }
- }
-
- // Queue a watcher for removal, or issue "removed" callback to it.
- // Call with lock free.
- void issue_delete(base_bidi_fd_watcher *watcher) noexcept
- {
- lock.lock();
-
- if (watcher->active) {
- watcher->deleteme = true;
- release_watcher(watcher);
- }
- else {
- dequeue_watcher(watcher);
- release_watcher(watcher);
- watcher->read_removed = true;
- }
-
- base_watcher *secondary = &(watcher->out_watcher);
- if (secondary->active) {
- secondary->deleteme = true;
- release_watcher(watcher);
- }
- else {
- dequeue_watcher(secondary);
- release_watcher(watcher);
- watcher->write_removed = true;
- }
-
- if (watcher->read_removed && watcher->write_removed) {
- lock.unlock();
- watcher->watch_removed();
- }
- else {
- lock.unlock();
- }
- }
- event_dispatch() { }
- event_dispatch(const event_dispatch &) = delete;
- };
- } // namespace dasynq
- // This is the main event_loop implementation. It serves as an interface to the event loop backend (of which
- // it maintains an internal instance). It also serialises polling the backend and provides safe deletion of
- // watchers (see comments inline).
- //
- // The T_Mutex type parameter specifies the mutex type. A null_mutex can be used for a single-threaded event
- // loop; std::mutex, or any mutex providing a compatible interface, can be used for a thread-safe event
- // loop.
- //
- // The Traits type parameter specifies any required traits for the event loop. This specifies the back-end
- // to use (backend_t, a template) and the basic back-end traits (backend_traits_t).
- // The default is `default_traits<T_Mutex>'.
- //
- template <typename T_Mutex, typename Traits>
- class event_loop
- {
- using my_event_loop_t = event_loop<T_Mutex, Traits>;
- friend class dprivate::fd_watcher<my_event_loop_t>;
- friend class dprivate::bidi_fd_watcher<my_event_loop_t>;
- friend class dprivate::signal_watcher<my_event_loop_t>;
- friend class dprivate::child_proc_watcher<my_event_loop_t>;
- friend class dprivate::timer<my_event_loop_t>;
-
- friend class dprivate::loop_access;
- using backend_traits_t = typename Traits::backend_traits_t;
- template <typename T> using event_dispatch = dprivate::event_dispatch<T,Traits>;
- using dispatch_t = event_dispatch<backend_traits_t>;
- using loop_mech_t = typename Traits::template backend_t<dispatch_t>;
- using reaper_mutex_t = typename loop_mech_t::reaper_mutex_t;
- public:
- using traits_t = Traits;
- using loop_traits_t = typename loop_mech_t::traits_t;
- using mutex_t = T_Mutex;
-
- private:
- template <typename T> using waitqueue = dprivate::waitqueue<T>;
- template <typename T> using waitqueue_node = dprivate::waitqueue_node<T>;
- using base_watcher = dprivate::base_watcher;
- using base_signal_watcher = dprivate::base_signal_watcher<typename loop_traits_t::sigdata_t>;
- using base_fd_watcher = dprivate::base_fd_watcher;
- using base_bidi_fd_watcher = dprivate::base_bidi_fd_watcher;
- using base_child_watcher = dprivate::base_child_watcher;
- using base_timer_watcher = dprivate::base_timer_watcher;
- using watch_type_t = dprivate::watch_type_t;
- loop_mech_t loop_mech;
- // There is a complex problem with most asynchronous event notification mechanisms
- // when used in a multi-threaded environment. Generally, a file descriptor or other
- // event type that we are watching will be associated with some data used to manage
- // that event source. For example a web server needs to maintain information about
- // each client connection, such as the state of the connection (what protocol version
- // has been negotiated, etc; if a transfer is taking place, what file is being
- // transferred etc).
- //
- // However, sometimes we want to remove an event source (eg webserver wants to drop
- // a connection) and delete the associated data. The problem here is that it is
- // difficult to be sure when it is ok to actually remove the data, since when
- // requesting to unwatch the source in one thread it is still possible that an
- // event from that source is just being reported to another thread (in which case
- // the data will be needed).
- //
- // To solve that, we:
- // - allow only one thread to poll for events at a time, using a lock
- // - use the same lock to prevent polling, if we want to unwatch an event source
- // - generate an event to interrupt any polling that may already be occurring in
- // another thread
- // - mark handlers as active if they are currently executing, and
- // - when removing an active handler, simply set a flag which causes it to be
- // removed once the current processing is finished, rather than removing it
- // immediately.
- //
- // In particular the lock mechanism for preventing multiple threads polling and
- // for allowing polling to be interrupted is tricky. We can't use a simple mutex
- // since there is significant chance that it will be highly contended and there
- // are no guarantees that its acquisition will be fair. In particular, we don't
- // want a thread that is trying to unwatch a source being starved while another
- // thread polls the event source.
- //
- // So, we use two wait queues protected by a single mutex. The "attn_waitqueue"
- // (attention queue) is the high-priority queue, used for threads wanting to
- // unwatch event sources. The "wait_waitquueue" is the queue used by threads
- // that wish to actually poll for events, while they are waiting for the main
- // queue to become quiet.
- // - The head of the "attn_waitqueue" is always the holder of the lock
- // - Therefore, a poll-waiter must be moved from the wait_waitqueue to the
- // attn_waitqueue to actually gain the lock. This is only done if the
- // attn_waitqueue is otherwise empty.
- // - The mutex only protects manipulation of the wait queues, and so should not
- // be highly contended.
- //
- // To claim the lock for a poll-wait, the procedure is:
- // - check if the attn_waitqueue is empty;
- // - if it is, insert node at the head, thus claiming the lock, and return
- // - otherwise, insert node in the wait_waitqueue, and wait
- // To claim the lock for an unwatch, the procedure is:
- // - insert node in the attn_waitqueue
- // - if the node is at the head of the queue, lock is claimed; return
- // - otherwise, if a poll is in progress, interrupt it
- // - wait until our node is at the head of the attn_waitqueue
-
- mutex_t wait_lock; // protects the wait/attention queues
- bool long_poll_running = false; // whether any thread is polling the backend (with non-zero timeout)
- waitqueue<mutex_t> attn_waitqueue;
- waitqueue<mutex_t> wait_waitqueue;
-
- mutex_t &get_base_lock() noexcept
- {
- return loop_mech.lock;
- }
-
- reaper_mutex_t &get_reaper_lock() noexcept
- {
- return loop_mech.get_reaper_lock();
- }
- void register_signal(base_signal_watcher *callBack, int signo)
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
- loop_mech.prepare_watcher(callBack);
- try {
- loop_mech.add_signal_watch_nolock(signo, callBack);
- if (backend_traits_t::interrupt_after_signal_add) {
- interrupt_if_necessary();
- }
- }
- catch (...) {
- loop_mech.release_watcher(callBack);
- throw;
- }
- }
-
- void deregister(base_signal_watcher *callBack, int signo) noexcept
- {
- loop_mech.remove_signal_watch(signo);
-
- waitqueue_node<T_Mutex> qnode;
- get_attn_lock(qnode);
-
- loop_mech.issue_delete(callBack);
-
- release_lock(qnode);
- }
- void register_fd(base_fd_watcher *callback, int fd, int eventmask, bool enabled, bool emulate = false)
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
- loop_mech.prepare_watcher(callback);
- try {
- if (! loop_mech.add_fd_watch(fd, callback, eventmask | ONE_SHOT, enabled, emulate)) {
- callback->emulatefd = true;
- callback->emulate_enabled = enabled;
- if (enabled) {
- callback->event_flags = eventmask & IO_EVENTS;
- if (eventmask & IO_EVENTS) {
- requeue_watcher(callback);
- }
- }
- }
- else if (enabled && backend_traits_t::interrupt_after_fd_add) {
- interrupt_if_necessary();
- }
- }
- catch (...) {
- loop_mech.release_watcher(callback);
- throw;
- }
- }
-
- // Register a bidi fd watcher. The watch_flags should already be set to the eventmask to watch
- // (i.e. eventmask == callback->watch_flags is a pre-condition).
- void register_fd(base_bidi_fd_watcher *callback, int fd, int eventmask, bool emulate = false)
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
- loop_mech.prepare_watcher(callback);
- try {
- loop_mech.prepare_watcher(&callback->out_watcher);
- try {
- bool do_interrupt = false;
- if (backend_traits_t::has_separate_rw_fd_watches) {
- int r = loop_mech.add_bidi_fd_watch(fd, callback, eventmask | ONE_SHOT, emulate);
- if (r & IN_EVENTS) {
- callback->emulatefd = true;
- if (eventmask & IN_EVENTS) {
- callback->watch_flags &= ~IN_EVENTS;
- requeue_watcher(callback);
- }
- }
- else if ((eventmask & IN_EVENTS) && backend_traits_t::interrupt_after_fd_add) {
- do_interrupt = true;
- }
- if (r & OUT_EVENTS) {
- callback->out_watcher.emulatefd = true;
- if (eventmask & OUT_EVENTS) {
- callback->watch_flags &= ~OUT_EVENTS;
- requeue_watcher(&callback->out_watcher);
- }
- }
- else if ((eventmask & OUT_EVENTS) && backend_traits_t::interrupt_after_fd_add) {
- do_interrupt = true;
- }
- }
- else {
- if (! loop_mech.add_fd_watch(fd, callback, eventmask | ONE_SHOT, true, emulate)) {
- callback->emulatefd = true;
- callback->out_watcher.emulatefd = true;
- if (eventmask & IN_EVENTS) {
- callback->watch_flags &= ~IN_EVENTS;
- requeue_watcher(callback);
- }
- if (eventmask & OUT_EVENTS) {
- callback->watch_flags &= ~OUT_EVENTS;
- requeue_watcher(&callback->out_watcher);
- }
- }
- else if (backend_traits_t::interrupt_after_fd_add) {
- do_interrupt = true;
- }
- }
- if (do_interrupt) {
- interrupt_if_necessary();
- }
- }
- catch (...) {
- loop_mech.release_watcher(&callback->out_watcher);
- throw;
- }
- }
- catch (...) {
- loop_mech.release_watcher(callback);
- throw;
- }
- }
-
- void set_fd_enabled(base_watcher *watcher, int fd, int watch_flags, bool enabled) noexcept
- {
- if (enabled) {
- loop_mech.enable_fd_watch(fd, watcher, watch_flags | ONE_SHOT);
- if (backend_traits_t::interrupt_after_fd_add) {
- interrupt_if_necessary();
- }
- }
- else {
- loop_mech.disable_fd_watch(fd, watch_flags);
- }
- }
- void set_fd_enabled_nolock(base_watcher *watcher, int fd, int watch_flags, bool enabled) noexcept
- {
- if (enabled) {
- loop_mech.enable_fd_watch_nolock(fd, watcher, watch_flags | ONE_SHOT);
- if (backend_traits_t::interrupt_after_fd_add) {
- interrupt_if_necessary();
- }
- }
- else {
- loop_mech.disable_fd_watch_nolock(fd, watch_flags);
- }
- }
-
- void deregister(base_fd_watcher *callback, int fd) noexcept
- {
- if (callback->emulatefd) {
- auto & ed = (dispatch_t &) loop_mech;
- ed.issue_delete(callback);
- return;
- }
-
- loop_mech.remove_fd_watch(fd, callback->watch_flags);
- waitqueue_node<T_Mutex> qnode;
- get_attn_lock(qnode);
-
- auto & ed = (dispatch_t &) loop_mech;
- ed.issue_delete(callback);
-
- release_lock(qnode);
- }
-
- void deregister(base_bidi_fd_watcher *callback, int fd) noexcept
- {
- if (backend_traits_t::has_separate_rw_fd_watches) {
- loop_mech.remove_bidi_fd_watch(fd);
- }
- else {
- loop_mech.remove_fd_watch(fd, callback->watch_flags);
- }
-
- waitqueue_node<T_Mutex> qnode;
- get_attn_lock(qnode);
-
- dispatch_t & ed = (dispatch_t &) loop_mech;
- ed.issue_delete(callback);
-
- release_lock(qnode);
- }
-
- void reserve_child_watch(base_child_watcher *callback)
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
- loop_mech.prepare_watcher(callback);
- try {
- loop_mech.reserve_child_watch_nolock(callback->watch_handle);
- }
- catch (...) {
- loop_mech.release_watcher(callback);
- throw;
- }
- }
-
- void unreserve(base_child_watcher *callback) noexcept
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
- loop_mech.unreserve_child_watch(callback->watch_handle);
- loop_mech.release_watcher(callback);
- }
-
- void register_child(base_child_watcher *callback, pid_t child)
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
-
- loop_mech.prepare_watcher(callback);
- try {
- loop_mech.add_child_watch_nolock(callback->watch_handle, child, callback);
- }
- catch (...) {
- loop_mech.release_watcher(callback);
- throw;
- }
- }
-
- void register_reserved_child(base_child_watcher *callback, pid_t child) noexcept
- {
- loop_mech.add_reserved_child_watch(callback->watch_handle, child, callback);
- }
- void register_reserved_child_nolock(base_child_watcher *callback, pid_t child) noexcept
- {
- loop_mech.add_reserved_child_watch_nolock(callback->watch_handle, child, callback);
- }
-
- void deregister(base_child_watcher *callback, pid_t child) noexcept
- {
- loop_mech.remove_child_watch(callback->watch_handle);
- waitqueue_node<T_Mutex> qnode;
- get_attn_lock(qnode);
-
- loop_mech.issue_delete(callback);
-
- release_lock(qnode);
- }
-
- // Stop watching a child process, but retain watch reservation so that another child can be
- // watched without running into resource allocation issues.
- void stop_watch(base_child_watcher *callback) noexcept
- {
- loop_mech.stop_child_watch(callback->watch_handle);
- }
- void register_timer(base_timer_watcher *callback, clock_type clock)
- {
- std::lock_guard<mutex_t> guard(loop_mech.lock);
-
- loop_mech.prepare_watcher(callback);
- try {
- loop_mech.add_timer_nolock(callback->timer_handle, callback, clock);
- }
- catch (...) {
- loop_mech.release_watcher(callback);
- }
- }
-
- void set_timer(base_timer_watcher *callBack, const timespec &timeout, clock_type clock) noexcept
- {
- struct timespec interval {0, 0};
- loop_mech.set_timer(callBack->timer_handle, timeout, interval, true, clock);
- }
-
- void set_timer(base_timer_watcher *callBack, const timespec &timeout, const timespec &interval,
- clock_type clock) noexcept
- {
- loop_mech.set_timer(callBack->timer_handle, timeout, interval, true, clock);
- }
- void set_timer_rel(base_timer_watcher *callBack, const timespec &timeout, clock_type clock) noexcept
- {
- struct timespec interval {0, 0};
- loop_mech.set_timer_rel(callBack->timer_handle, timeout, interval, true, clock);
- }
-
- void set_timer_rel(base_timer_watcher *callBack, const timespec &timeout,
- const timespec &interval, clock_type clock) noexcept
- {
- loop_mech.set_timer_rel(callBack->timer_handle, timeout, interval, true, clock);
- }
- void set_timer_enabled(base_timer_watcher *callback, clock_type clock, bool enabled) noexcept
- {
- loop_mech.enable_timer(callback->timer_handle, enabled, clock);
- }
- void set_timer_enabled_nolock(base_timer_watcher *callback, clock_type clock, bool enabled) noexcept
- {
- loop_mech.enable_timer_nolock(callback->timer_handle, enabled, clock);
- }
- void stop_timer(base_timer_watcher *callback, clock_type clock) noexcept
- {
- loop_mech.stop_timer(callback->timer_handle, clock);
- }
- void deregister(base_timer_watcher *callback, clock_type clock) noexcept
- {
- loop_mech.remove_timer(callback->timer_handle, clock);
-
- waitqueue_node<T_Mutex> qnode;
- get_attn_lock(qnode);
-
- loop_mech.issue_delete(callback);
-
- release_lock(qnode);
- }
-
- void dequeue_watcher(base_watcher *watcher) noexcept
- {
- loop_mech.dequeue_watcher(watcher);
- }
- void requeue_watcher(base_watcher *watcher) noexcept
- {
- loop_mech.queue_watcher(watcher);
- interrupt_if_necessary();
- }
- void release_watcher(base_watcher *watcher) noexcept
- {
- loop_mech.release_watcher(watcher);
- }
- // Interrupt the current poll-waiter, if necessary - that is, if the loop is multi-thread safe, and if
- // there is currently another thread polling the backend event mechanism.
- void interrupt_if_necessary()
- {
- wait_lock.lock();
- bool attn_q_empty = attn_waitqueue.is_empty(); // (always false for single-threaded loops)
- wait_lock.unlock();
- if (! attn_q_empty) {
- loop_mech.interrupt_wait();
- }
- }
- // Acquire the attention lock (when held, ensures that no thread is polling the AEN
- // mechanism). This can be used to safely remove watches, since it is certain that
- // notification callbacks won't be run while the attention lock is held. Any in-progress
- // poll will be interrupted so that the lock should be acquired quickly.
- void get_attn_lock(waitqueue_node<T_Mutex> &qnode) noexcept
- {
- std::unique_lock<T_Mutex> ulock(wait_lock);
- attn_waitqueue.queue(&qnode);
- if (! attn_waitqueue.check_head(qnode)) {
- if (long_poll_running) {
- // We want to interrupt any in-progress poll so that the attn queue will progress
- // but we don't want to do that unnecessarily. If we are 2nd in the queue then the
- // head must be doing the poll; interrupt it. Otherwise, we assume the 2nd has
- // already interrupted it.
- if (attn_waitqueue.get_second() == &qnode) {
- loop_mech.interrupt_wait();
- }
- }
- while (! attn_waitqueue.check_head(qnode)) {
- qnode.wait(ulock);
- }
- }
- }
-
- // Acquire the attention lock, but without interrupting any poll that's in progress
- // (prefer to fail in that case).
- bool poll_attn_lock(waitqueue_node<T_Mutex> &qnode) noexcept
- {
- std::unique_lock<T_Mutex> ulock(wait_lock);
- if (long_poll_running) {
- // There are poll-waiters, bail out
- return false;
- }
- // Nobody's doing a long poll, wait until we're at the head of the attn queue and return
- // success:
- attn_waitqueue.queue(&qnode);
- while (! attn_waitqueue.check_head(qnode)) {
- qnode.wait(ulock);
- }
- return true;
- }
- // Acquire the poll-wait lock (to be held when polling the AEN mechanism; lower priority than
- // the attention lock). The poll-wait lock is used to prevent more than a single thread from
- // polling the event loop mechanism at a time; if this is not done, it is basically
- // impossible to safely deregister watches.
- void get_pollwait_lock(waitqueue_node<T_Mutex> &qnode) noexcept
- {
- std::unique_lock<T_Mutex> ulock(wait_lock);
- if (attn_waitqueue.is_empty()) {
- // Queue is completely empty:
- attn_waitqueue.queue(&qnode);
- }
- else {
- wait_waitqueue.queue(&qnode);
- }
-
- while (! attn_waitqueue.check_head(qnode)) {
- qnode.wait(ulock);
- }
- long_poll_running = true;
- }
-
- // Release the poll-wait/attention lock.
- void release_lock(waitqueue_node<T_Mutex> &qnode) noexcept
- {
- std::unique_lock<T_Mutex> ulock(wait_lock);
- long_poll_running = false;
- waitqueue_node<T_Mutex> * nhead = attn_waitqueue.unqueue();
- if (nhead != nullptr) {
- // Someone else now owns the lock, signal them to wake them up
- nhead->signal();
- }
- else {
- // Nobody is waiting in attn_waitqueue (the high-priority queue) so check in
- // wait_waitqueue (the low-priority queue)
- if (! wait_waitqueue.is_empty()) {
- auto nhead = wait_waitqueue.get_head();
- wait_waitqueue.unqueue();
- attn_waitqueue.queue(nhead);
- long_poll_running = true;
- nhead->signal();
- }
- }
- }
-
- void process_signal_rearm(base_signal_watcher * bsw, rearm rearm_type) noexcept
- {
- // Called with lock held
- if (rearm_type == rearm::REARM) {
- loop_mech.rearm_signal_watch_nolock(bsw->siginfo.get_signo(), bsw);
- if (backend_traits_t::interrupt_after_signal_add) {
- interrupt_if_necessary();
- }
- }
- else if (rearm_type == rearm::REMOVE) {
- loop_mech.remove_signal_watch_nolock(bsw->siginfo.get_signo());
- }
- // Note that signal watchers cannot (currently) be disarmed
- }
- // Process rearm return from an fd_watcher, including the primary watcher of a bidi_fd_watcher.
- // Depending on the rearm value, we re-arm, remove, or disarm the watcher, etc.
- rearm process_fd_rearm(base_fd_watcher * bfw, rearm rearm_type) noexcept
- {
- bool emulatedfd = static_cast<base_watcher *>(bfw)->emulatefd;
- if (emulatedfd) {
- if (rearm_type == rearm::REARM) {
- bfw->emulate_enabled = true;
- rearm_type = rearm::REQUEUE;
- }
- else if (rearm_type == rearm::DISARM) {
- bfw->emulate_enabled = false;
- }
- else if (rearm_type == rearm::NOOP) {
- if (bfw->emulate_enabled) {
- rearm_type = rearm::REQUEUE;
- }
- }
- }
- else if (rearm_type == rearm::REARM) {
- set_fd_enabled_nolock(bfw, bfw->watch_fd,
- bfw->watch_flags & (IN_EVENTS | OUT_EVENTS), true);
- }
- else if (rearm_type == rearm::DISARM) {
- loop_mech.disable_fd_watch_nolock(bfw->watch_fd, bfw->watch_flags);
- }
- else if (rearm_type == rearm::REMOVE) {
- loop_mech.remove_fd_watch_nolock(bfw->watch_fd, bfw->watch_flags);
- }
- return rearm_type;
- }
- // Process rearm option from the primary watcher in bidi_fd_watcher
- rearm process_primary_rearm(base_bidi_fd_watcher * bdfw, rearm rearm_type) noexcept
- {
- bool emulatedfd = static_cast<base_watcher *>(bdfw)->emulatefd;
- // Called with lock held
- if (rearm_type == rearm::REMOVE) {
- bdfw->read_removed = 1;
- if (backend_traits_t::has_separate_rw_fd_watches) {
- bdfw->watch_flags &= ~IN_EVENTS;
- if (! emulatedfd) {
- loop_mech.remove_fd_watch_nolock(bdfw->watch_fd, IN_EVENTS);
- }
- return bdfw->write_removed ? rearm::REMOVE : rearm::NOOP;
- }
- else {
- if (! bdfw->write_removed) {
- if (bdfw->watch_flags & IN_EVENTS) {
- bdfw->watch_flags &= ~IN_EVENTS;
- if (! emulatedfd) {
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, bdfw->watch_flags,
- bdfw->watch_flags != 0);
- }
- }
- return rearm::NOOP;
- }
- else {
- // both removed: actually remove
- if (! emulatedfd) {
- loop_mech.remove_fd_watch_nolock(bdfw->watch_fd, 0 /* not used */);
- }
- return rearm::REMOVE;
- }
- }
- }
- else if (rearm_type == rearm::DISARM) {
- bdfw->watch_flags &= ~IN_EVENTS;
- if (! emulatedfd) {
- if (! backend_traits_t::has_separate_rw_fd_watches) {
- int watch_flags = bdfw->watch_flags & (IN_EVENTS | OUT_EVENTS);
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, watch_flags, watch_flags != 0);
- }
- else {
- loop_mech.disable_fd_watch_nolock(bdfw->watch_fd, IN_EVENTS);
- }
- }
- }
- else if (rearm_type == rearm::REARM) {
- if (! emulatedfd) {
- bdfw->watch_flags |= IN_EVENTS;
- if (! backend_traits_t::has_separate_rw_fd_watches) {
- int watch_flags = bdfw->watch_flags;
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd,
- watch_flags & (IN_EVENTS | OUT_EVENTS), true);
- }
- else {
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, IN_EVENTS, true);
- }
- }
- else {
- bdfw->watch_flags &= ~IN_EVENTS;
- rearm_type = rearm::REQUEUE;
- }
- }
- else if (rearm_type == rearm::NOOP) {
- if (bdfw->emulatefd) {
- if (bdfw->watch_flags & IN_EVENTS) {
- bdfw->watch_flags &= ~IN_EVENTS;
- rearm_type = rearm::REQUEUE;
- }
- }
- }
- return rearm_type;
- }
- // Process re-arm for the secondary (output) watcher in a Bi-direction Fd watcher.
- rearm process_secondary_rearm(base_bidi_fd_watcher * bdfw, base_watcher * outw, rearm rearm_type) noexcept
- {
- bool emulatedfd = outw->emulatefd;
- // Called with lock held
- if (emulatedfd) {
- if (rearm_type == rearm::REMOVE) {
- bdfw->write_removed = 1;
- bdfw->watch_flags &= ~OUT_EVENTS;
- rearm_type = bdfw->read_removed ? rearm::REMOVE : rearm::NOOP;
- }
- else if (rearm_type == rearm::DISARM) {
- bdfw->watch_flags &= ~OUT_EVENTS;
- }
- else if (rearm_type == rearm::REARM) {
- bdfw->watch_flags &= ~OUT_EVENTS;
- rearm_type = rearm::REQUEUE;
- }
- else if (rearm_type == rearm::NOOP) {
- if (bdfw->watch_flags & OUT_EVENTS) {
- bdfw->watch_flags &= ~OUT_EVENTS;
- rearm_type = rearm::REQUEUE;
- }
- }
- return rearm_type;
- }
- else if (rearm_type == rearm::REMOVE) {
- bdfw->write_removed = 1;
- if (backend_traits_t::has_separate_rw_fd_watches) {
- bdfw->watch_flags &= ~OUT_EVENTS;
- loop_mech.remove_fd_watch_nolock(bdfw->watch_fd, OUT_EVENTS);
- return bdfw->read_removed ? rearm::REMOVE : rearm::NOOP;
- }
- else {
- if (! bdfw->read_removed) {
- if (bdfw->watch_flags & OUT_EVENTS) {
- bdfw->watch_flags &= ~OUT_EVENTS;
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, bdfw->watch_flags, true);
- }
- return rearm::NOOP;
- }
- else {
- // both removed: actually remove
- loop_mech.remove_fd_watch_nolock(bdfw->watch_fd, 0 /* not used */);
- return rearm::REMOVE;
- }
- }
- }
- else if (rearm_type == rearm::DISARM) {
- bdfw->watch_flags &= ~OUT_EVENTS;
- if (! backend_traits_t::has_separate_rw_fd_watches) {
- int watch_flags = bdfw->watch_flags;
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, watch_flags & (IN_EVENTS | OUT_EVENTS), true);
- }
- else {
- loop_mech.disable_fd_watch_nolock(bdfw->watch_fd, OUT_EVENTS);
- }
- }
- else if (rearm_type == rearm::REARM) {
- bdfw->watch_flags |= OUT_EVENTS;
-
- if (! backend_traits_t::has_separate_rw_fd_watches) {
- int watch_flags = bdfw->watch_flags;
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, watch_flags & (IN_EVENTS | OUT_EVENTS), true);
- }
- else {
- set_fd_enabled_nolock(bdfw, bdfw->watch_fd, OUT_EVENTS | ONE_SHOT, true);
- }
- }
- return rearm_type;
- }
-
- void process_child_watch_rearm(base_child_watcher *bcw, rearm rearm_type) noexcept
- {
- if (rearm_type == rearm::REMOVE || rearm_type == rearm::DISARM) {
- loop_mech.unreserve_child_watch_nolock(bcw->watch_handle);
- }
- }
- void process_timer_rearm(base_timer_watcher *btw, rearm rearm_type) noexcept
- {
- // Called with lock held
- if (rearm_type == rearm::REARM) {
- loop_mech.enable_timer_nolock(btw->timer_handle, true, btw->clock);
- }
- else if (rearm_type == rearm::REMOVE) {
- loop_mech.remove_timer_nolock(btw->timer_handle, btw->clock);
- }
- else if (rearm_type == rearm::DISARM) {
- loop_mech.enable_timer_nolock(btw->timer_handle, false, btw->clock);
- }
- }
- // Process queued events; returns true if any events were processed.
- // limit - maximum number of events to process before returning; -1 for
- // no limit.
- bool process_events(int limit) noexcept
- {
- loop_mech.lock.lock();
-
- if (limit == 0) {
- return false;
- }
-
- // limit processing to the number of events currently queued, to avoid prolonged processing
- // of watchers which requeueu themselves immediately (including file watchers which are using
- // emulation for watching regular files)
- //
- // If limit is -1 (no limit) we rely on this being always larger than/equal to the number of
- // queued events when cast to size_t (which is unsigned).
- limit = std::min(size_t(limit), loop_mech.num_queued_events());
- base_watcher * pqueue = loop_mech.pull_queued_event();
- bool active = false;
-
- while (pqueue != nullptr) {
-
- pqueue->active = true;
- active = true;
-
- base_bidi_fd_watcher *bbfw = nullptr;
-
- // (Above variables are initialised only to silence compiler warnings).
-
- if (pqueue->watchType == watch_type_t::SECONDARYFD) {
- // construct a pointer to the main watcher, using integer arithmetic to avoid undefined
- // pointer arithmetic:
- uintptr_t rp = (uintptr_t)pqueue;
- // Here we take the offset of a member from a non-standard-layout class, which is
- // specified to have undefined result by the C++ language standard, but which
- // in practice works fine:
- _Pragma ("GCC diagnostic push")
- _Pragma ("GCC diagnostic ignored \"-Winvalid-offsetof\"")
- rp -= offsetof(base_bidi_fd_watcher, out_watcher);
- _Pragma ("GCC diagnostic pop")
- bbfw = (base_bidi_fd_watcher *)rp;
- // issue a secondary dispatch:
- bbfw->dispatch_second(this);
- }
- else {
- pqueue->dispatch(this);
- }
- if (limit > 0) {
- limit--;
- if (limit == 0) break;
- }
- pqueue = loop_mech.pull_queued_event();
- }
-
- loop_mech.lock.unlock();
- return active;
- }
- public:
-
- using fd_watcher = dprivate::fd_watcher<my_event_loop_t>;
- using bidi_fd_watcher = dprivate::bidi_fd_watcher<my_event_loop_t>;
- using signal_watcher = dprivate::signal_watcher<my_event_loop_t>;
- using child_proc_watcher = dprivate::child_proc_watcher<my_event_loop_t>;
- using timer = dprivate::timer<my_event_loop_t>;
-
- template <typename D> using fd_watcher_impl = dprivate::fd_watcher_impl<my_event_loop_t, D>;
- template <typename D> using bidi_fd_watcher_impl = dprivate::bidi_fd_watcher_impl<my_event_loop_t, D>;
- template <typename D> using signal_watcher_impl = dprivate::signal_watcher_impl<my_event_loop_t, D>;
- template <typename D> using child_proc_watcher_impl = dprivate::child_proc_watcher_impl<my_event_loop_t, D>;
- template <typename D> using timer_impl = dprivate::timer_impl<my_event_loop_t, D>;
- // Poll the event loop and process any pending events (up to a limit). If no events are pending, wait
- // for and process at least one event.
- void run(int limit = -1) noexcept
- {
- // Poll the mechanism first, in case high-priority events are pending:
- waitqueue_node<T_Mutex> qnode;
- get_pollwait_lock(qnode);
- loop_mech.pull_events(false);
- release_lock(qnode);
- while (! process_events(limit)) {
- // Pull events from the AEN mechanism and insert them in our internal queue:
- get_pollwait_lock(qnode);
- loop_mech.pull_events(true);
- release_lock(qnode);
- }
- }
- // Poll the event loop and process any pending events (up to a limit).
- void poll(int limit = -1) noexcept
- {
- waitqueue_node<T_Mutex> qnode;
- if (poll_attn_lock(qnode)) {
- loop_mech.pull_events(false);
- release_lock(qnode);
- }
- process_events(limit);
- }
- // Get the current time corresponding to a specific clock.
- // ts - the timespec variable to receive the time
- // clock - specifies the clock
- // force_update (default = false) - if true, the time returned will be updated from
- // the system rather than being a previously cached result. It may be more
- // accurate, but note that reading from a system clock may be relatively expensive.
- void get_time(timespec &ts, clock_type clock, bool force_update = false) noexcept
- {
- loop_mech.get_time(ts, clock, force_update);
- }
- void get_time(time_val &tv, clock_type clock, bool force_update = false) noexcept
- {
- loop_mech.get_time(tv, clock, force_update);
- }
- event_loop() { }
- event_loop(delayed_init d) noexcept : loop_mech(d) { }
- event_loop(const event_loop &other) = delete;
- // Perform delayed initialisation, if constructed with delayed_init
- void init()
- {
- loop_mech.init();
- }
- };
- typedef event_loop<null_mutex> event_loop_n;
- typedef event_loop<std::mutex> event_loop_th;
- namespace dprivate {
- // Posix signal event watcher
- template <typename EventLoop>
- class signal_watcher : private dprivate::base_signal_watcher<typename EventLoop::loop_traits_t::sigdata_t>
- {
- template <typename, typename> friend class signal_watcher_impl;
- using base_watcher = dprivate::base_watcher;
- using T_Mutex = typename EventLoop::mutex_t;
-
- public:
- using event_loop_t = EventLoop;
- using siginfo_p = typename signal_watcher::siginfo_p;
- // Register this watcher to watch the specified signal.
- // If an attempt is made to register with more than one event loop at
- // a time, behaviour is undefined. The signal should be masked before
- // call.
- inline void add_watch(event_loop_t &eloop, int signo, int prio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->priority = prio;
- this->siginfo.set_signo(signo);
- eloop.register_signal(this, signo);
- }
-
- inline void deregister(event_loop_t &eloop) noexcept
- {
- eloop.deregister(this, this->siginfo.get_signo());
- }
-
- template <typename T>
- static signal_watcher<event_loop_t> *add_watch(event_loop_t &eloop, int signo, T watch_hndlr)
- {
- class lambda_sig_watcher : public signal_watcher_impl<event_loop_t, lambda_sig_watcher>
- {
- private:
- T watch_hndlr;
- public:
- lambda_sig_watcher(T watch_handlr_a) : watch_hndlr(watch_handlr_a)
- {
- //
- }
- rearm received(event_loop_t &eloop, int signo, siginfo_p siginfo)
- {
- return watch_hndlr(eloop, signo, siginfo);
- }
- void watch_removed() noexcept override
- {
- delete this;
- }
- };
- lambda_sig_watcher * lsw = new lambda_sig_watcher(watch_hndlr);
- lsw->add_watch(eloop, signo);
- return lsw;
- }
- // virtual rearm received(EventLoop &eloop, int signo, siginfo_p siginfo) = 0;
- };
- template <typename EventLoop, typename Derived>
- class signal_watcher_impl : public signal_watcher<EventLoop>
- {
- void dispatch(void *loop_ptr) noexcept override
- {
- EventLoop &loop = *static_cast<EventLoop *>(loop_ptr);
- loop_access::get_base_lock(loop).unlock();
- auto rearm_type = static_cast<Derived *>(this)->received(loop, this->siginfo.get_signo(), this->siginfo);
- loop_access::get_base_lock(loop).lock();
- if (rearm_type != rearm::REMOVED) {
- this->active = false;
- if (this->deleteme) {
- // We don't want a watch that is marked "deleteme" to re-arm itself.
- rearm_type = rearm::REMOVE;
- }
- loop_access::process_signal_rearm(loop, this, rearm_type);
- post_dispatch(loop, this, rearm_type);
- }
- }
- };
- // Posix file descriptor event watcher
- template <typename EventLoop>
- class fd_watcher : private dprivate::base_fd_watcher
- {
- template <typename, typename> friend class fd_watcher_impl;
- using base_watcher = dprivate::base_watcher;
- using mutex_t = typename EventLoop::mutex_t;
- protected:
-
- // Set the types of event to watch. Only supported if loop_traits_t_t::has_bidi_fd_watch
- // is true; otherwise has unspecified behavior.
- // Only safe to call from within the callback handler (fdEvent). Might not take
- // effect until the current callback handler returns with REARM.
- void set_watch_flags(int newFlags)
- {
- this->watch_flags = newFlags;
- }
-
- public:
-
- using event_loop_t = EventLoop;
- // Register a file descriptor watcher with an event loop. Flags
- // can be any combination of dasynq::IN_EVENTS / dasynq::OUT_EVENTS.
- // Exactly one of IN_EVENTS/OUT_EVENTS must be specified if the event
- // loop does not support bi-directional fd watchers (i.e. if
- // ! loop_traits_t::has_bidi_fd_watch).
- //
- // Mechanisms supporting dual watchers allow for two watchers for a
- // single file descriptor (one watching read status and the other
- // write status). Others mechanisms support only a single watcher
- // per file descriptor. Adding a watcher beyond what is supported
- // causes undefined behavior.
- //
- // Can fail with std::bad_alloc or std::system_error.
- void add_watch(event_loop_t &eloop, int fd, int flags, bool enabled = true, int prio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->priority = prio;
- this->watch_fd = fd;
- this->watch_flags = flags;
- eloop.register_fd(this, fd, flags, enabled, true);
- }
- void add_watch_noemu(event_loop_t &eloop, int fd, int flags, bool enabled = true, int prio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->priority = prio;
- this->watch_fd = fd;
- this->watch_flags = flags;
- eloop.register_fd(this, fd, flags, enabled, false);
- }
-
- int get_watched_fd()
- {
- return this->watch_fd;
- }
-
- // Deregister a file descriptor watcher.
- //
- // If other threads may be polling the event loop, it is not safe to assume
- // the watcher is unregistered until the watch_removed() callback is issued
- // (which will not occur until the event handler returns, if it is active).
- // In a single threaded environment, it is safe to delete the watcher after
- // calling this method as long as the handler (if it is active) accesses no
- // internal state and returns rearm::REMOVED.
- void deregister(event_loop_t &eloop) noexcept
- {
- eloop.deregister(this, this->watch_fd);
- }
-
- void set_enabled(event_loop_t &eloop, bool enable) noexcept
- {
- std::lock_guard<mutex_t> guard(eloop.get_base_lock());
- if (this->emulatefd) {
- if (enable && ! this->emulate_enabled) {
- loop_access::requeue_watcher(eloop, this);
- }
- this->emulate_enabled = enable;
- }
- else {
- eloop.set_fd_enabled_nolock(this, this->watch_fd, this->watch_flags, enable);
- }
- if (! enable) {
- eloop.dequeue_watcher(this);
- }
- }
-
- // Add an Fd watch via a lambda. The watch is allocated dynamically and destroys
- // itself when removed from the event loop.
- template <typename T>
- static fd_watcher<EventLoop> *add_watch(event_loop_t &eloop, int fd, int flags, T watchHndlr)
- {
- class lambda_fd_watcher : public fd_watcher_impl<event_loop_t, lambda_fd_watcher>
- {
- private:
- T watchHndlr;
- public:
- lambda_fd_watcher(T watchHandlr_a) : watchHndlr(watchHandlr_a)
- {
- //
- }
- rearm fd_event(event_loop_t &eloop, int fd, int flags)
- {
- return watchHndlr(eloop, fd, flags);
- }
- void watch_removed() noexcept override
- {
- delete this;
- }
- };
-
- lambda_fd_watcher * lfd = new lambda_fd_watcher(watchHndlr);
- lfd->add_watch(eloop, fd, flags);
- return lfd;
- }
-
- // virtual rearm fd_event(EventLoop &eloop, int fd, int flags) = 0;
- };
- template <typename EventLoop, typename Derived>
- class fd_watcher_impl : public fd_watcher<EventLoop>
- {
- void dispatch(void *loop_ptr) noexcept override
- {
- EventLoop &loop = *static_cast<EventLoop *>(loop_ptr);
- // In case emulating, clear enabled here; REARM or explicit set_enabled will re-enable.
- this->emulate_enabled = false;
- loop_access::get_base_lock(loop).unlock();
- auto rearm_type = static_cast<Derived *>(this)->fd_event(loop, this->watch_fd, this->event_flags);
- loop_access::get_base_lock(loop).lock();
- if (rearm_type != rearm::REMOVED) {
- this->event_flags = 0;
- this->active = false;
- if (this->deleteme) {
- // We don't want a watch that is marked "deleteme" to re-arm itself.
- rearm_type = rearm::REMOVE;
- }
- rearm_type = loop_access::process_fd_rearm(loop, this, rearm_type);
- post_dispatch(loop, this, rearm_type);
- }
- }
- };
- // A Bi-directional file descriptor watcher with independent read- and write- channels.
- // This watcher type has two event notification methods which can both potentially be
- // active at the same time.
- template <typename EventLoop>
- class bidi_fd_watcher : private dprivate::base_bidi_fd_watcher
- {
- template <typename, typename> friend class bidi_fd_watcher_impl;
- using base_watcher = dprivate::base_watcher;
- using mutex_t = typename EventLoop::mutex_t;
-
- void set_watch_enabled(EventLoop &eloop, bool in, bool b)
- {
- int events = in ? IN_EVENTS : OUT_EVENTS;
- auto orig_flags = this->watch_flags;
-
- if (b) {
- this->watch_flags |= events;
- }
- else {
- this->watch_flags &= ~events;
- }
- dprivate::base_watcher * watcher = in ? this : &this->out_watcher;
- if (! watcher->emulatefd) {
- if (EventLoop::loop_traits_t::has_separate_rw_fd_watches) {
- eloop.set_fd_enabled_nolock(this, this->watch_fd, events | ONE_SHOT, b);
- }
- else {
- eloop.set_fd_enabled_nolock(this, this->watch_fd,
- (this->watch_flags & IO_EVENTS) | ONE_SHOT,
- (this->watch_flags & IO_EVENTS) != 0);
- }
- }
- else {
- // emulation: if enabling a previously disabled watcher, must queue now:
- if (b && (orig_flags != this->watch_flags)) {
- this->watch_flags = orig_flags;
- loop_access::requeue_watcher(eloop, watcher);
- }
- }
- if (! b) {
- eloop.dequeue_watcher(watcher);
- }
- }
-
- public:
- using event_loop_t = EventLoop;
- void set_in_watch_enabled(event_loop_t &eloop, bool b) noexcept
- {
- eloop.get_base_lock().lock();
- set_watch_enabled(eloop, true, b);
- eloop.get_base_lock().unlock();
- }
-
- void set_out_watch_enabled(event_loop_t &eloop, bool b) noexcept
- {
- eloop.get_base_lock().lock();
- set_watch_enabled(eloop, false, b);
- eloop.get_base_lock().unlock();
- }
-
- // Set the watch flags, which enables/disables both the in-watch and the out-watch accordingly.
- //
- // Concurrency: this method can only be called if
- // - it does not enable a watcher that might currently be active
- /// - unless the event loop will not be polled while the watcher is active.
- // (i.e. it is ok to call setWatchFlags from within the readReady/writeReady handlers if no other
- // thread will poll the event loop; it is always ok to *dis*able a watcher that might be active,
- // though the re-arm action returned by the callback may undo the effect).
- void set_watches(event_loop_t &eloop, int new_flags) noexcept
- {
- std::lock_guard<mutex_t> guard(eloop.get_base_lock());
- bool use_emulation = this->emulatefd || this->out_watcher.emulatefd;
- if (use_emulation || EventLoop::loop_traits_t::has_separate_rw_fd_watches) {
- set_watch_enabled(eloop, true, (new_flags & IN_EVENTS) != 0);
- set_watch_enabled(eloop, false, (new_flags & OUT_EVENTS) != 0);
- }
- else {
- this->watch_flags = (this->watch_flags & ~IO_EVENTS) | new_flags;
- eloop.set_fd_enabled_nolock((dprivate::base_watcher *) this, this->watch_fd, this->watch_flags & IO_EVENTS, true);
- }
- }
-
- // Register a bi-direction file descriptor watcher with an event loop. Flags
- // can be any combination of dasynq::IN_EVENTS / dasynq::OUT_EVENTS.
- //
- // Can fail with std::bad_alloc or std::system_error.
- void add_watch(event_loop_t &eloop, int fd, int flags, int inprio = DEFAULT_PRIORITY, int outprio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->out_watcher.base_watcher::init();
- this->watch_fd = fd;
- this->watch_flags = flags | dprivate::multi_watch;
- this->read_removed = false;
- this->write_removed = false;
- this->priority = inprio;
- this->set_priority(this->out_watcher, outprio);
- eloop.register_fd(this, fd, flags, true);
- }
- void add_watch_noemu(event_loop_t &eloop, int fd, int flags, int inprio = DEFAULT_PRIORITY, int outprio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->out_watcher.base_watcher::init();
- this->watch_fd = fd;
- this->watch_flags = flags | dprivate::multi_watch;
- this->read_removed = false;
- this->write_removed = false;
- this->priority = inprio;
- this->set_priority(this->out_watcher, outprio);
- eloop.register_fd(this, fd, flags, false);
- }
- int get_watched_fd()
- {
- return this->watch_fd;
- }
-
- // Deregister a bi-direction file descriptor watcher.
- //
- // If other threads may be polling the event loop, it is not safe to assume
- // the watcher is unregistered until the watch_removed() callback is issued
- // (which will not occur until the event handler returns, if it is active).
- // In a single threaded environment, it is safe to delete the watcher after
- // calling this method as long as the handler (if it is active) accesses no
- // internal state and returns rearm::REMOVED.
- void deregister(event_loop_t &eloop) noexcept
- {
- eloop.deregister(this, this->watch_fd);
- }
-
- template <typename T>
- static bidi_fd_watcher<event_loop_t> *add_watch(event_loop_t &eloop, int fd, int flags, T watch_hndlr)
- {
- class lambda_bidi_watcher : public bidi_fd_watcher_impl<event_loop_t, lambda_bidi_watcher>
- {
- private:
- T watch_hndlr;
- public:
- lambda_bidi_watcher(T watch_handlr_a) : watch_hndlr(watch_handlr_a)
- {
- //
- }
- rearm read_ready(event_loop_t &eloop, int fd)
- {
- return watch_hndlr(eloop, fd, IN_EVENTS);
- }
- rearm write_ready(event_loop_t &eloop, int fd)
- {
- return watch_hndlr(eloop, fd, OUT_EVENTS);
- }
- void watch_removed() noexcept override
- {
- delete this;
- }
- };
- lambda_bidi_watcher * lfd = new lambda_bidi_watcher(watch_hndlr);
- lfd->add_watch(eloop, fd, flags);
- return lfd;
- }
- // virtual rearm read_ready(EventLoop &eloop, int fd) noexcept = 0;
- // virtual rearm write_ready(EventLoop &eloop, int fd) noexcept = 0;
- };
- template <typename EventLoop, typename Derived>
- class bidi_fd_watcher_impl : public bidi_fd_watcher<EventLoop>
- {
- void dispatch(void *loop_ptr) noexcept override
- {
- EventLoop &loop = *static_cast<EventLoop *>(loop_ptr);
- this->emulate_enabled = false;
- loop_access::get_base_lock(loop).unlock();
- auto rearm_type = static_cast<Derived *>(this)->read_ready(loop, this->watch_fd);
- loop_access::get_base_lock(loop).lock();
- if (rearm_type != rearm::REMOVED) {
- this->event_flags &= ~IN_EVENTS;
- this->active = false;
- if (this->deleteme) {
- // We don't want a watch that is marked "deleteme" to re-arm itself.
- rearm_type = rearm::REMOVE;
- }
- rearm_type = loop_access::process_primary_rearm(loop, this, rearm_type);
- auto &outwatcher = bidi_fd_watcher<EventLoop>::out_watcher;
- post_dispatch(loop, this, &outwatcher, rearm_type);
- }
- }
- void dispatch_second(void *loop_ptr) noexcept override
- {
- auto &outwatcher = bidi_fd_watcher<EventLoop>::out_watcher;
- EventLoop &loop = *static_cast<EventLoop *>(loop_ptr);
- loop_access::get_base_lock(loop).unlock();
- auto rearm_type = static_cast<Derived *>(this)->write_ready(loop, this->watch_fd);
- loop_access::get_base_lock(loop).lock();
- if (rearm_type != rearm::REMOVED) {
- this->event_flags &= ~OUT_EVENTS;
- outwatcher.active = false;
- if (outwatcher.deleteme) {
- // We don't want a watch that is marked "deleteme" to re-arm itself.
- rearm_type = rearm::REMOVE;
- }
- rearm_type = loop_access::process_secondary_rearm(loop, this, &outwatcher, rearm_type);
- if (rearm_type == rearm::REQUEUE) {
- post_dispatch(loop, &outwatcher, rearm_type);
- }
- else {
- post_dispatch(loop, this, &outwatcher, rearm_type);
- }
- }
- }
- };
- // Child process event watcher
- template <typename EventLoop>
- class child_proc_watcher : private dprivate::base_child_watcher
- {
- template <typename, typename> friend class child_proc_watcher_impl;
- using base_watcher = dprivate::base_watcher;
- using mutex_t = typename EventLoop::mutex_t;
- public:
- using event_loop_t = EventLoop;
- // send a signal to this process, if it is still running, in a race-free manner.
- // return is as for POSIX kill(); return is -1 with errno=ESRCH if process has
- // already terminated.
- int send_signal(event_loop_t &loop, int signo) noexcept
- {
- auto reaper_mutex = loop.get_reaper_mutex();
- std::lock_guard<decltype(reaper_mutex)> guard(reaper_mutex);
- if (this->child_termd) {
- errno = ESRCH;
- return -1;
- }
- return kill(this->watch_pid, signo);
- }
- // Reserve resources for a child watcher with the given event loop.
- // Reservation can fail with std::bad_alloc. Some backends do not support
- // reservation (it will always fail) - check loop_traits_t::supports_childwatch_reservation.
- void reserve_watch(event_loop_t &eloop)
- {
- eloop.reserve_child_watch(this);
- }
-
- void unreserve(event_loop_t &eloop)
- {
- eloop.unreserve(this);
- }
-
- // Register a watcher for the given child process with an event loop.
- // Registration can fail with std::bad_alloc.
- // Note that in multi-threaded programs, use of this function may be prone to a
- // race condition such that the child terminates before the watcher is registered.
- void add_watch(event_loop_t &eloop, pid_t child, int prio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->watch_pid = child;
- this->priority = prio;
- eloop.register_child(this, child);
- }
-
- // Register a watcher for the given child process with an event loop,
- // after having reserved resources previously (using reserveWith).
- // Registration cannot fail.
- // Note that in multi-threaded programs, use of this function may be prone to a
- // race condition such that the child terminates before the watcher is registered;
- // use the "fork" member function to avoid this.
- void add_reserved(event_loop_t &eloop, pid_t child, int prio = DEFAULT_PRIORITY) noexcept
- {
- base_watcher::init();
- this->watch_pid = child;
- this->priority = prio;
- eloop.register_reserved_child(this, child);
- }
-
- void deregister(event_loop_t &eloop, pid_t child) noexcept
- {
- eloop.deregister(this, child);
- }
-
- // Stop watching the currently watched child, but retain watch reservation.
- void stop_watch(event_loop_t &eloop) noexcept
- {
- eloop.stop_watch(this);
- }
- // Fork and watch the child with this watcher on the given event loop.
- // If resource limitations prevent the child process from being watched, it is
- // terminated immediately (or if the implementation allows, never started),
- // and a suitable std::system_error or std::bad_alloc exception is thrown.
- // Returns:
- // - the child pid in the parent
- // - 0 in the child
- pid_t fork(event_loop_t &eloop, bool from_reserved = false, int prio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->priority = prio;
- if (EventLoop::loop_traits_t::supports_childwatch_reservation) {
- // Reserve a watch, fork, then claim reservation
- if (! from_reserved) {
- reserve_watch(eloop);
- }
-
- auto &lock = eloop.get_base_lock();
- lock.lock();
-
- pid_t child = ::fork();
- if (child == -1) {
- // Unreserve watch.
- lock.unlock();
- unreserve(eloop);
- throw std::system_error(errno, std::system_category());
- }
-
- if (child == 0) {
- // I am the child
- lock.unlock(); // may not really be necessary
- return 0;
- }
-
- // Register this watcher.
- this->watch_pid = child;
- eloop.register_reserved_child_nolock(this, child);
- lock.unlock();
- return child;
- }
- else {
- int pipefds[2];
- if (pipe2(pipefds, O_CLOEXEC) == -1) {
- throw std::system_error(errno, std::system_category());
- }
-
- std::lock_guard<mutex_t> guard(eloop.get_base_lock());
-
- pid_t child = ::fork();
- if (child == -1) {
- throw std::system_error(errno, std::system_category());
- }
-
- if (child == 0) {
- // I am the child
- close(pipefds[1]);
-
- // Wait for message from parent before continuing:
- int rr;
- int r = read(pipefds[0], &rr, sizeof(rr));
- while (r == -1 && errno == EINTR) {
- r = read(pipefds[0], &rr, sizeof(rr));
- }
-
- if (r <= 0) _exit(0);
-
- close(pipefds[0]);
- return 0;
- }
-
- close(pipefds[0]); // close read end
-
- // Register this watcher.
- try {
- this->watch_pid = child;
- eloop.register_child(this, child);
-
- // Continue in child (it doesn't matter what is written):
- write(pipefds[1], &pipefds, sizeof(int));
- close(pipefds[1]);
-
- return child;
- }
- catch (...) {
- close(pipefds[1]);
- throw;
- }
- }
- }
-
- // virtual rearm child_status(EventLoop &eloop, pid_t child, int status) = 0;
- };
- template <typename EventLoop, typename Derived>
- class child_proc_watcher_impl : public child_proc_watcher<EventLoop>
- {
- void dispatch(void *loop_ptr) noexcept override
- {
- EventLoop &loop = *static_cast<EventLoop *>(loop_ptr);
- loop_access::get_base_lock(loop).unlock();
- auto rearm_type = static_cast<Derived *>(this)->status_change(loop, this->watch_pid, this->child_status);
- loop_access::get_base_lock(loop).lock();
- if (rearm_type != rearm::REMOVED) {
- this->active = false;
- if (this->deleteme) {
- // We don't want a watch that is marked "deleteme" to re-arm itself.
- rearm_type = rearm::REMOVE;
- }
- loop_access::process_child_watch_rearm(loop, this, rearm_type);
- // rearm_type = loop.process??;
- post_dispatch(loop, this, rearm_type);
- }
- }
- };
- template <typename EventLoop>
- class timer : private base_timer_watcher
- {
- template <typename, typename> friend class timer_impl;
- using base_t = base_timer_watcher;
- using mutex_t = typename EventLoop::mutex_t;
- public:
- using event_loop_t = EventLoop;
-
- void add_timer(event_loop_t &eloop, clock_type clock = clock_type::MONOTONIC, int prio = DEFAULT_PRIORITY)
- {
- base_watcher::init();
- this->priority = prio;
- this->clock = clock;
- this->intervals = 0;
- eloop.register_timer(this, clock);
- }
-
- void arm_timer(event_loop_t &eloop, const timespec &timeout) noexcept
- {
- eloop.set_timer(this, timeout, base_t::clock);
- }
-
- void arm_timer(event_loop_t &eloop, const timespec &timeout, const timespec &interval) noexcept
- {
- eloop.set_timer(this, timeout, interval, base_t::clock);
- }
- // Arm timer, relative to now:
- void arm_timer_rel(event_loop_t &eloop, const timespec &timeout) noexcept
- {
- eloop.set_timer_rel(this, timeout, base_t::clock);
- }
-
- void arm_timer_rel(event_loop_t &eloop, const timespec &timeout,
- const timespec &interval) noexcept
- {
- eloop.set_timer_rel(this, timeout, interval, base_t::clock);
- }
-
- void stop_timer(event_loop_t &eloop) noexcept
- {
- eloop.stop_timer(this, base_t::clock);
- }
- void set_enabled(event_loop_t &eloop, clock_type clock, bool enabled) noexcept
- {
- std::lock_guard<mutex_t> guard(eloop.get_base_lock());
- eloop.set_timer_enabled_nolock(this, clock, enabled);
- if (! enabled) {
- eloop.dequeue_watcher(this);
- }
- }
- void deregister(event_loop_t &eloop) noexcept
- {
- eloop.deregister(this, this->clock);
- }
- template <typename T>
- static timer<EventLoop> *add_timer(EventLoop &eloop, clock_type clock, bool relative,
- const timespec &timeout, const timespec &interval, T watch_hndlr)
- {
- class lambda_timer : public timer_impl<event_loop_t, lambda_timer>
- {
- private:
- T watch_hndlr;
- public:
- lambda_timer(T watch_handlr_a) : watch_hndlr(watch_handlr_a)
- {
- //
- }
- rearm timer_expiry(event_loop_t &eloop, int intervals)
- {
- return watch_hndlr(eloop, intervals);
- }
- void watch_removed() noexcept override
- {
- delete this;
- }
- };
- lambda_timer * lt = new lambda_timer(watch_hndlr);
- lt->add_timer(eloop, clock);
- if (relative) {
- lt->arm_timer_rel(eloop, timeout, interval);
- }
- else {
- lt->arm_timer(eloop, timeout, interval);
- }
- return lt;
- }
- // Timer expired, and the given number of intervals have elapsed before
- // expiry event was queued. Normally intervals == 1 to indicate no
- // overrun.
- // virtual rearm timer_expiry(event_loop_t &eloop, int intervals) = 0;
- };
- template <typename EventLoop, typename Derived>
- class timer_impl : public timer<EventLoop>
- {
- void dispatch(void *loop_ptr) noexcept override
- {
- EventLoop &loop = *static_cast<EventLoop *>(loop_ptr);
- loop_access::get_base_lock(loop).unlock();
- auto intervals_report = this->intervals;
- this->intervals = 0;
- auto rearm_type = static_cast<Derived *>(this)->timer_expiry(loop, intervals_report);
- loop_access::get_base_lock(loop).lock();
- if (rearm_type != rearm::REMOVED) {
- this->active = false;
- if (this->deleteme) {
- // We don't want a watch that is marked "deleteme" to re-arm itself.
- rearm_type = rearm::REMOVE;
- }
- loop_access::process_timer_rearm(loop, this, rearm_type);
- post_dispatch(loop, this, rearm_type);
- }
- }
- };
- } // namespace dprivate
- } // namespace dasynq
- #endif /* DASYNQ_H_ */
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