| // Copyright 2013 The Chromium Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #ifndef NET_TOOLS_EPOLL_SERVER_EPOLL_SERVER_H_ |
| #define NET_TOOLS_EPOLL_SERVER_EPOLL_SERVER_H_ |
| |
| #include <fcntl.h> |
| #include <sys/queue.h> |
| |
| #include <map> |
| #include <memory> |
| #include <string> |
| #include <unordered_map> |
| #include <unordered_set> |
| #include <vector> |
| |
| // #define EPOLL_SERVER_EVENT_TRACING 1 |
| // |
| // Defining EPOLL_SERVER_EVENT_TRACING |
| // causes code to exist which didn't before. |
| // This code tracks each event generated by the epollserver, |
| // as well as providing a per-fd-registered summary of |
| // events. Note that enabling this code vastly slows |
| // down operations, and uses substantially more |
| // memory. For these reasons, it should only be enabled by developers doing |
| // development at their workstations. |
| // |
| // A structure called 'EventRecorder' will exist when |
| // the macro is defined. See the EventRecorder class interface |
| // within the EpollServer class for more details. |
| #ifdef EPOLL_SERVER_EVENT_TRACING |
| #include <ostream> |
| |
| #include "base/logging.h" |
| #include "starboard/types.h" |
| #endif |
| |
| #include "base/compiler_specific.h" |
| #include "base/macros.h" |
| #include <sys/epoll.h> |
| |
| namespace net { |
| |
| class EpollServer; |
| class EpollAlarmCallbackInterface; |
| class ReadPipeCallback; |
| |
| struct EpollEvent { |
| EpollEvent(int events) |
| : in_events(events), |
| out_ready_mask(0) { |
| } |
| |
| int in_events; // incoming events |
| int out_ready_mask; // the new event mask for ready list (0 means don't |
| // get on the ready list). This field is always |
| // initialized to 0 when the event is passed to |
| // OnEvent. |
| }; |
| |
| // Callbacks which go into EpollServers are expected to derive from this class. |
| class EpollCallbackInterface { |
| public: |
| // Summary: |
| // Called when the callback is registered into a EpollServer. |
| // Args: |
| // eps - the poll server into which this callback was registered |
| // fd - the file descriptor which was registered |
| // event_mask - the event mask (composed of EPOLLIN, EPOLLOUT, etc) |
| // which was registered (and will initially be used |
| // in the epoll() calls) |
| virtual void OnRegistration(EpollServer* eps, int fd, int event_mask) = 0; |
| |
| // Summary: |
| // Called when the event_mask is modified (for a file-descriptor) |
| // Args: |
| // fd - the file descriptor which was registered |
| // event_mask - the event mask (composed of EPOLLIN, EPOLLOUT, etc) |
| // which was is now curren (and will be used |
| // in subsequent epoll() calls) |
| virtual void OnModification(int fd, int event_mask) = 0; |
| |
| // Summary: |
| // Called whenever an event occurs on the file-descriptor. |
| // This is where the bulk of processing is expected to occur. |
| // Args: |
| // fd - the file descriptor which was registered |
| // event - a struct that contains the event mask (composed of EPOLLIN, |
| // EPOLLOUT, etc), a flag that indicates whether this is a true |
| // epoll_wait event vs one from the ready list, and an output |
| // parameter for OnEvent to inform the EpollServer whether to put |
| // this fd on the ready list. |
| virtual void OnEvent(int fd, EpollEvent* event) = 0; |
| |
| // Summary: |
| // Called when the file-descriptor is unregistered from the poll-server. |
| // Args: |
| // fd - the file descriptor which was registered, and of this call, is now |
| // unregistered. |
| // replaced - If true, this callback is being replaced by another, otherwise |
| // it is simply being removed. |
| virtual void OnUnregistration(int fd, bool replaced) = 0; |
| |
| // Summary: |
| // Called when the epoll server is shutting down. This is different from |
| // OnUnregistration because the subclass may want to clean up memory. |
| // This is called in leiu of OnUnregistration. |
| // Args: |
| // fd - the file descriptor which was registered. |
| virtual void OnShutdown(EpollServer* eps, int fd) = 0; |
| |
| // Summary: |
| // Returns a name describing the class for use in debug/error reporting. |
| virtual std::string Name() const = 0; |
| |
| virtual ~EpollCallbackInterface() {} |
| |
| protected: |
| EpollCallbackInterface() {} |
| }; |
| |
| //////////////////////////////////////////////////////////////////////////////// |
| //////////////////////////////////////////////////////////////////////////////// |
| |
| class EpollServer { |
| public: |
| typedef EpollAlarmCallbackInterface AlarmCB; |
| typedef EpollCallbackInterface CB; |
| |
| typedef std::multimap<int64_t, AlarmCB*> TimeToAlarmCBMap; |
| typedef TimeToAlarmCBMap::iterator AlarmRegToken; |
| |
| // Summary: |
| // Constructor: |
| // By default, we don't wait any amount of time for events, and |
| // we suggest to the epoll-system that we're going to use on-the-order |
| // of 1024 FDs. |
| EpollServer(); |
| |
| //////////////////////////////////////// |
| |
| // Destructor |
| virtual ~EpollServer(); |
| |
| //////////////////////////////////////// |
| |
| // Summary |
| // Register a callback to be called whenever an event contained |
| // in the set of events included in event_mask occurs on the |
| // file-descriptor 'fd' |
| // |
| // Note that only one callback is allowed to be registered for |
| // any specific file-decriptor. |
| // |
| // If a callback is registered for a file-descriptor which has already |
| // been registered, then the previous callback is unregistered with |
| // the 'replaced' flag set to true. I.e. the previous callback's |
| // OnUnregistration() function is called like so: |
| // OnUnregistration(fd, true); |
| // |
| // The epoll server does NOT take on ownership of the callback: the callback |
| // creator is responsible for managing that memory. |
| // |
| // Args: |
| // fd - a valid file-descriptor |
| // cb - an instance of a subclass of EpollCallbackInterface |
| // event_mask - a combination of (EPOLLOUT, EPOLLIN.. etc) indicating |
| // the events for which the callback would like to be |
| // called. |
| virtual void RegisterFD(int fd, CB* cb, int event_mask); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // A shortcut for RegisterFD which sets things up such that the |
| // callback is called when 'fd' is available for writing. |
| // Args: |
| // fd - a valid file-descriptor |
| // cb - an instance of a subclass of EpollCallbackInterface |
| virtual void RegisterFDForWrite(int fd, CB* cb); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // A shortcut for RegisterFD which sets things up such that the |
| // callback is called when 'fd' is available for reading or writing. |
| // Args: |
| // fd - a valid file-descriptor |
| // cb - an instance of a subclass of EpollCallbackInterface |
| virtual void RegisterFDForReadWrite(int fd, CB* cb); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // A shortcut for RegisterFD which sets things up such that the |
| // callback is called when 'fd' is available for reading. |
| // Args: |
| // fd - a valid file-descriptor |
| // cb - an instance of a subclass of EpollCallbackInterface |
| virtual void RegisterFDForRead(int fd, CB* cb); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Removes the FD and the associated callback from the pollserver. |
| // If the callback is registered with other FDs, they will continue |
| // to be processed using the callback without modification. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the file-descriptor which should no-longer be monitored. |
| virtual void UnregisterFD(int fd); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modifies the event mask for the file-descriptor, replacing |
| // the old event_mask with the new one specified here. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the fd whose event mask should be modified. |
| // event_mask - the new event mask. |
| virtual void ModifyCallback(int fd, int event_mask); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modifies the event mask for the file-descriptor such that we |
| // no longer request events when 'fd' is readable. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the fd whose event mask should be modified. |
| virtual void StopRead(int fd); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modifies the event mask for the file-descriptor such that we |
| // request events when 'fd' is readable. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the fd whose event mask should be modified. |
| virtual void StartRead(int fd); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modifies the event mask for the file-descriptor such that we |
| // no longer request events when 'fd' is writable. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the fd whose event mask should be modified. |
| virtual void StopWrite(int fd); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modifies the event mask for the file-descriptor such that we |
| // request events when 'fd' is writable. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the fd whose event mask should be modified. |
| virtual void StartWrite(int fd); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Looks up the callback associated with the file-desriptor 'fd'. |
| // If a callback is associated with this file-descriptor, then |
| // it's OnEvent() method is called with the file-descriptor 'fd', |
| // and event_mask 'event_mask' |
| // |
| // If no callback is registered for this file-descriptor, nothing |
| // will happen as a result of this call. |
| // |
| // This function is used internally by the EpollServer, but is |
| // available publically so that events might be 'faked'. Calling |
| // this function with an fd and event_mask is equivalent (as far |
| // as the callback is concerned) to having a real event generated |
| // by epoll (except, of course, that read(), etc won't necessarily |
| // be able to read anything) |
| // Args: |
| // fd - the file-descriptor on which an event has occured. |
| // event_mask - a bitmask representing the events which have occured |
| // on/for this fd. This bitmask is composed of |
| // POLLIN, POLLOUT, etc. |
| // |
| void HandleEvent(int fd, int event_mask); |
| |
| // Summary: |
| // Call this when you want the pollserver to |
| // wait for events and execute the callbacks associated with |
| // the file-descriptors on which those events have occured. |
| // Depending on the value of timeout_in_us_, this may or may |
| // not return immediately. Please reference the set_timeout() |
| // function for the specific behaviour. |
| virtual void WaitForEventsAndExecuteCallbacks(); |
| |
| // Summary: |
| // When an fd is registered to use edge trigger notification, the ready |
| // list can be used to simulate level trigger semantics. Edge trigger |
| // registration doesn't send an initial event, and only rising edge (going |
| // from blocked to unblocked) events are sent. A callback can put itself on |
| // the ready list by calling SetFDReady() after calling RegisterFD(). The |
| // OnEvent method of all callbacks associated with the fds on the ready |
| // list will be called immediately after processing the events returned by |
| // epoll_wait(). The fd is removed from the ready list before the |
| // callback's OnEvent() method is invoked. To stay on the ready list, the |
| // OnEvent() (or some function in that call chain) must call SetFDReady |
| // again. When a fd is unregistered using UnregisterFD(), the fd is |
| // automatically removed from the ready list. |
| // |
| // When the callback for a edge triggered fd hits the falling edge (about |
| // to block, either because of it got an EAGAIN, or had a short read/write |
| // operation), it should remove itself from the ready list using |
| // SetFDNotReady() (since OnEvent cannot distinguish between invocation |
| // from the ready list vs from a normal epoll event). All four ready list |
| // methods are safe to be called within the context of the callbacks. |
| // |
| // Since the ready list invokes EpollCallbackInterface::OnEvent, only fds |
| // that are registered with the EpollServer will be put on the ready list. |
| // SetFDReady() and SetFDNotReady() will do nothing if the EpollServer |
| // doesn't know about the fd passed in. |
| // |
| // Since the ready list cannot reliably determine proper set of events |
| // which should be sent to the callback, SetFDReady() requests the caller |
| // to provide the ready list with the event mask, which will be used later |
| // when OnEvent() is invoked by the ready list. Hence, the event_mask |
| // passedto SetFDReady() does not affect the actual epoll registration of |
| // the fd with the kernel. If a fd is already put on the ready list, and |
| // SetFDReady() is called again for that fd with a different event_mask, |
| // the event_mask will be updated. |
| virtual void SetFDReady(int fd, int events_to_fake); |
| |
| virtual void SetFDNotReady(int fd); |
| |
| // Summary: |
| // IsFDReady(), ReadyListSize(), and VerifyReadyList are intended as |
| // debugging tools and for writing unit tests. |
| // ISFDReady() returns whether a fd is in the ready list. |
| // ReadyListSize() returns the number of fds on the ready list. |
| // VerifyReadyList() checks the consistency of internal data structure. It |
| // will CHECK if it finds an error. |
| virtual bool IsFDReady(int fd) const; |
| |
| size_t ReadyListSize() const { return ready_list_size_; } |
| |
| void VerifyReadyList() const; |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Registers an alarm 'ac' to go off at time 'timeout_time_in_us'. |
| // If the callback returns a positive number from its OnAlarm() function, |
| // then the callback will be re-registered at that time, else the alarm |
| // owner is responsible for freeing up memory. |
| // |
| // Important: A give AlarmCB* can not be registered again if it is already |
| // registered. If a user wants to register a callback again it should first |
| // unregister the previous callback before calling RegisterAlarm again. |
| // Args: |
| // timeout_time_in_us - the absolute time at which the alarm should go off |
| // ac - the alarm which will be called. |
| virtual void RegisterAlarm(int64_t timeout_time_in_us, AlarmCB* ac); |
| |
| // Summary: |
| // Registers an alarm 'ac' to go off at time: (ApproximateNowInUs() + |
| // delta_in_us). While this is somewhat less accurate (see the description |
| // for ApproximateNowInUs() to see how 'approximate'), the error is never |
| // worse than the amount of time it takes to process all events in one |
| // WaitForEvents. As with 'RegisterAlarm()', if the callback returns a |
| // positive number from its OnAlarm() function, then the callback will be |
| // re-registered at that time, else the alarm owner is responsible for |
| // freeing up memory. |
| // Note that this function is purely a convienence. The |
| // same thing may be accomplished by using RegisterAlarm with |
| // ApproximateNowInUs() directly. |
| // |
| // Important: A give AlarmCB* can not be registered again if it is already |
| // registered. If a user wants to register a callback again it should first |
| // unregister the previous callback before calling RegisterAlarm again. |
| // Args: |
| // delta_in_us - the delta in microseconds from the ApproximateTimeInUs() at |
| // which point the alarm should go off. |
| // ac - the alarm which will be called. |
| void RegisterAlarmApproximateDelta(int64_t delta_in_us, AlarmCB* ac) { |
| RegisterAlarm(ApproximateNowInUsec() + delta_in_us, ac); |
| } |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Unregister the alarm referred to by iterator_token; Callers should |
| // be warned that a token may have become already invalid when OnAlarm() |
| // is called, was unregistered, or OnShutdown was called on that alarm. |
| // Args: |
| // iterator_token - iterator to the alarm callback to unregister. |
| virtual void UnregisterAlarm( |
| const EpollServer::AlarmRegToken& iterator_token); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // returns the number of file-descriptors registered in this EpollServer. |
| // Returns: |
| // number of FDs registered (discounting the internal pipe used for Wake) |
| virtual int NumFDsRegistered() const; |
| |
| // Summary: |
| // Force the epoll server to wake up (by writing to an internal pipe). |
| virtual void Wake(); |
| |
| // Summary: |
| // Wrapper around WallTimer's NowInUsec. We do this so that we can test |
| // EpollServer without using the system clock (and can avoid the flakiness |
| // that would ensue) |
| // Returns: |
| // the current time as number of microseconds since the Unix epoch. |
| virtual int64_t NowInUsec() const; |
| |
| // Summary: |
| // Since calling NowInUsec() many thousands of times per |
| // WaitForEventsAndExecuteCallbacks function call is, to say the least, |
| // inefficient, we allow users to use an approximate time instead. The |
| // time returned from this function is as accurate as NowInUsec() when |
| // WaitForEventsAndExecuteCallbacks is not an ancestor of the caller's |
| // callstack. |
| // However, when WaitForEventsAndExecuteCallbacks -is- an ancestor, then |
| // this function returns the time at which the |
| // WaitForEventsAndExecuteCallbacks function started to process events or |
| // alarms. |
| // |
| // Essentially, this function makes available a fast and mostly accurate |
| // mechanism for getting the time for any function handling an event or |
| // alarm. When functions which are not handling callbacks or alarms call |
| // this function, they get the slow and "absolutely" accurate time. |
| // |
| // Users should be encouraged to use this function. |
| // Returns: |
| // the "approximate" current time as number of microseconds since the Unix |
| // epoch. |
| virtual int64_t ApproximateNowInUsec() const; |
| |
| static std::string EventMaskToString(int event_mask); |
| |
| // Summary: |
| // Logs the state of the epoll server with LOG(ERROR). |
| void LogStateOnCrash(); |
| |
| // Summary: |
| // Set the timeout to the value specified. |
| // If the timeout is set to a negative number, |
| // WaitForEventsAndExecuteCallbacks() will only return when an event has |
| // occured |
| // If the timeout is set to zero, |
| // WaitForEventsAndExecuteCallbacks() will return immediately |
| // If the timeout is set to a positive number, |
| // WaitForEventsAndExecuteCallbacks() will return when an event has |
| // occured, or when timeout_in_us microseconds has elapsed, whichever |
| // is first. |
| // Args: |
| // timeout_in_us - value specified depending on behaviour desired. |
| // See above. |
| void set_timeout_in_us(int64_t timeout_in_us) { |
| timeout_in_us_ = timeout_in_us; |
| } |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Accessor for the current value of timeout_in_us. |
| int timeout_in_us() const { return timeout_in_us_; } |
| |
| // Summary: |
| // Returns true when the EpollServer() is being destroyed. |
| bool in_shutdown() const { return in_shutdown_; } |
| |
| protected: |
| virtual void SetNonblocking(int fd); |
| |
| // This exists here so that we can override this function in unittests |
| // in order to make effective mock EpollServer objects. |
| virtual int epoll_wait_impl(int epfd, |
| struct epoll_event* events, |
| int max_events, |
| int timeout_in_ms); |
| |
| // this struct is used internally, and is never used by anything external |
| // to this class. Some of its members are declared mutable to get around the |
| // restriction imposed by hash_set. Since hash_set knows nothing about the |
| // objects it stores, it has to assume that every bit of the object is used |
| // in the hash function and equal_to comparison. Thus hash_set::iterator is a |
| // const iterator. In this case, the only thing that must stay constant is |
| // fd. Everything else are just along for the ride and changing them doesn't |
| // compromise the hash_set integrity. |
| struct CBAndEventMask { |
| CBAndEventMask() |
| : cb(NULL), |
| fd(-1), |
| event_mask(0), |
| events_asserted(0), |
| events_to_fake(0), |
| in_use(false) { |
| entry.le_next = NULL; |
| entry.le_prev = NULL; |
| } |
| |
| CBAndEventMask(EpollCallbackInterface* cb, |
| int event_mask, |
| int fd) |
| : cb(cb), fd(fd), event_mask(event_mask), events_asserted(0), |
| events_to_fake(0), in_use(false) { |
| entry.le_next = NULL; |
| entry.le_prev = NULL; |
| } |
| |
| // Required operator for hash_set. Normally operator== should be a free |
| // standing function. However, since CBAndEventMask is a protected type and |
| // it will never be a base class, it makes no difference. |
| bool operator==(const CBAndEventMask& cb_and_mask) const { |
| return fd == cb_and_mask.fd; |
| } |
| // A callback. If the fd is unregistered inside the callchain of OnEvent, |
| // the cb will be set to NULL. |
| mutable EpollCallbackInterface* cb; |
| |
| mutable LIST_ENTRY(CBAndEventMask) entry; |
| // file descriptor registered with the epoll server. |
| int fd; |
| // the current event_mask registered for this callback. |
| mutable int event_mask; |
| // the event_mask that was returned by epoll |
| mutable int events_asserted; |
| // the event_mask for the ready list to use to call OnEvent. |
| mutable int events_to_fake; |
| // toggle around calls to OnEvent to tell UnregisterFD to not erase the |
| // iterator because HandleEvent is using it. |
| mutable bool in_use; |
| }; |
| |
| // Custom hash function to be used by hash_set. |
| struct CBAndEventMaskHash { |
| size_t operator()(const CBAndEventMask& cb_and_eventmask) const { |
| return static_cast<size_t>(cb_and_eventmask.fd); |
| } |
| }; |
| |
| using FDToCBMap = std::unordered_set<CBAndEventMask, CBAndEventMaskHash>; |
| |
| // the following four functions are OS-specific, and are likely |
| // to be changed in a subclass if the poll/select method is changed |
| // from epoll. |
| |
| // Summary: |
| // Deletes a file-descriptor from the set of FDs that should be |
| // monitored with epoll. |
| // Note that this only deals with modifying data relating -directly- |
| // with the epoll call-- it does not modify any data within the |
| // epoll_server. |
| // Args: |
| // fd - the file descriptor to-be-removed from the monitoring set |
| virtual void DelFD(int fd) const; |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Adds a file-descriptor to the set of FDs that should be |
| // monitored with epoll. |
| // Note that this only deals with modifying data relating -directly- |
| // with the epoll call. |
| // Args: |
| // fd - the file descriptor to-be-added to the monitoring set |
| // event_mask - the event mask (consisting of EPOLLIN, EPOLLOUT, etc |
| // OR'd together) which will be associated with this |
| // FD initially. |
| virtual void AddFD(int fd, int event_mask) const; |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modifies a file-descriptor in the set of FDs that should be |
| // monitored with epoll. |
| // Note that this only deals with modifying data relating -directly- |
| // with the epoll call. |
| // Args: |
| // fd - the file descriptor to-be-added to the monitoring set |
| // event_mask - the event mask (consisting of EPOLLIN, EPOLLOUT, etc |
| // OR'd together) which will be associated with this |
| // FD after this call. |
| virtual void ModFD(int fd, int event_mask) const; |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Modified the event mask associated with an FD in the set of |
| // data needed by epoll. |
| // Events are removed before they are added, thus, if ~0 is put |
| // in 'remove_event', whatever is put in 'add_event' will be |
| // the new event mask. |
| // If the file-descriptor specified is not registered in the |
| // epoll_server, then nothing happens as a result of this call. |
| // Args: |
| // fd - the file descriptor whose event mask is to be modified |
| // remove_event - the events which are to be removed from the current |
| // event_mask |
| // add_event - the events which are to be added to the current event_mask |
| // |
| // |
| virtual void ModifyFD(int fd, int remove_event, int add_event); |
| |
| //////////////////////////////////////// |
| |
| // Summary: |
| // Waits for events, and calls HandleEvents() for each |
| // fd, event pair discovered to possibly have an event. |
| // Note that a callback (B) may get a spurious event if |
| // another callback (A) has closed a file-descriptor N, and |
| // the callback (B) has a newly opened file-descriptor, which |
| // also happens to be N. |
| virtual void WaitForEventsAndCallHandleEvents(int64_t timeout_in_us, |
| struct epoll_event events[], |
| int events_size); |
| |
| // Summary: |
| // A function for implementing the ready list. It invokes OnEvent for each |
| // of the fd in the ready list, and takes care of adding them back to the |
| // ready list if the callback requests it (by checking that out_ready_mask |
| // is non-zero). |
| void CallReadyListCallbacks(); |
| |
| // Summary: |
| // An internal function for implementing the ready list. It adds a fd's |
| // CBAndEventMask to the ready list. If the fd is already on the ready |
| // list, it is a no-op. |
| void AddToReadyList(CBAndEventMask* cb_and_mask); |
| |
| // Summary: |
| // An internal function for implementing the ready list. It remove a fd's |
| // CBAndEventMask from the ready list. If the fd is not on the ready list, |
| // it is a no-op. |
| void RemoveFromReadyList(const CBAndEventMask& cb_and_mask); |
| |
| // Summary: |
| // Calls any pending alarms that should go off and reregisters them if they |
| // were recurring. |
| virtual void CallAndReregisterAlarmEvents(); |
| |
| // The file-descriptor created for epolling |
| int epoll_fd_; |
| |
| // The mapping of file-descriptor to CBAndEventMasks |
| FDToCBMap cb_map_; |
| |
| // Custom hash function to be used by hash_set. |
| struct AlarmCBHash { |
| size_t operator()(AlarmCB*const& p) const { |
| return reinterpret_cast<size_t>(p); |
| } |
| }; |
| |
| |
| // TODO(sushantj): Having this hash_set is avoidable. We currently have it |
| // only so that we can enforce stringent checks that a caller can not register |
| // the same alarm twice. One option is to have an implementation in which |
| // this hash_set is used only in the debug mode. |
| using AlarmCBMap = std::unordered_set<AlarmCB*, AlarmCBHash>; |
| AlarmCBMap all_alarms_; |
| |
| TimeToAlarmCBMap alarm_map_; |
| |
| // The amount of time in microseconds that we'll wait before returning |
| // from the WaitForEventsAndExecuteCallbacks() function. |
| // If this is positive, wait that many microseconds. |
| // If this is negative, wait forever, or for the first event that occurs |
| // If this is zero, never wait for an event. |
| int64_t timeout_in_us_; |
| |
| // This is nonzero only after the invocation of epoll_wait_impl within |
| // WaitForEventsAndCallHandleEvents and before the function |
| // WaitForEventsAndExecuteCallbacks returns. At all other times, this is |
| // zero. This enables us to have relatively accurate time returned from the |
| // ApproximateNowInUs() function. See that function for more details. |
| int64_t recorded_now_in_us_; |
| |
| // This is used to implement CallAndReregisterAlarmEvents. This stores |
| // all alarms that were reregistered because OnAlarm() returned a |
| // value > 0 and the time at which they should be executed is less that |
| // the current time. By storing such alarms in this map we ensure |
| // that while calling CallAndReregisterAlarmEvents we do not call |
| // OnAlarm on any alarm in this set. This ensures that we do not |
| // go in an infinite loop. |
| AlarmCBMap alarms_reregistered_and_should_be_skipped_; |
| |
| LIST_HEAD(ReadyList, CBAndEventMask) ready_list_; |
| LIST_HEAD(TmpList, CBAndEventMask) tmp_list_; |
| int ready_list_size_; |
| // TODO(alyssar): make this into something that scales up. |
| static const int events_size_ = 256; |
| struct epoll_event events_[256]; |
| |
| #ifdef EPOLL_SERVER_EVENT_TRACING |
| struct EventRecorder { |
| public: |
| EventRecorder() : num_records_(0), record_threshold_(10000) {} |
| |
| ~EventRecorder() { |
| Clear(); |
| } |
| |
| // When a number of events equals the record threshold, |
| // the collected data summary for all FDs will be written |
| // to LOG(INFO). Note that this does not include the |
| // individual events (if you'reinterested in those, you'll |
| // have to get at them programmatically). |
| // After any such flushing to LOG(INFO) all events will |
| // be cleared. |
| // Note that the definition of an 'event' is a bit 'hazy', |
| // as it includes the 'Unregistration' event, and perhaps |
| // others. |
| void set_record_threshold(int64_t new_threshold) { |
| record_threshold_ = new_threshold; |
| } |
| |
| void Clear() { |
| for (int i = 0; i < debug_events_.size(); ++i) { |
| delete debug_events_[i]; |
| } |
| debug_events_.clear(); |
| unregistered_fds_.clear(); |
| event_counts_.clear(); |
| } |
| |
| void MaybeRecordAndClear() { |
| ++num_records_; |
| if ((num_records_ > record_threshold_) && |
| (record_threshold_ > 0)) { |
| LOG(INFO) << "\n" << *this; |
| num_records_ = 0; |
| Clear(); |
| } |
| } |
| |
| void RecordFDMaskEvent(int fd, int mask, const char* function) { |
| FDMaskOutput* fdmo = new FDMaskOutput(fd, mask, function); |
| debug_events_.push_back(fdmo); |
| MaybeRecordAndClear(); |
| } |
| |
| void RecordEpollWaitEvent(int timeout_in_ms, |
| int num_events_generated) { |
| EpollWaitOutput* ewo = new EpollWaitOutput(timeout_in_ms, |
| num_events_generated); |
| debug_events_.push_back(ewo); |
| MaybeRecordAndClear(); |
| } |
| |
| void RecordEpollEvent(int fd, int event_mask) { |
| Events& events_for_fd = event_counts_[fd]; |
| events_for_fd.AssignFromMask(event_mask); |
| MaybeRecordAndClear(); |
| } |
| |
| friend ostream& operator<<(ostream& os, const EventRecorder& er) { |
| for (int i = 0; i < er.unregistered_fds_.size(); ++i) { |
| os << "fd: " << er.unregistered_fds_[i] << "\n"; |
| os << er.unregistered_fds_[i]; |
| } |
| for (EventCountsMap::const_iterator i = er.event_counts_.begin(); |
| i != er.event_counts_.end(); |
| ++i) { |
| os << "fd: " << i->first << "\n"; |
| os << i->second; |
| } |
| for (int i = 0; i < er.debug_events_.size(); ++i) { |
| os << *(er.debug_events_[i]) << "\n"; |
| } |
| return os; |
| } |
| |
| void RecordUnregistration(int fd) { |
| EventCountsMap::iterator i = event_counts_.find(fd); |
| if (i != event_counts_.end()) { |
| unregistered_fds_.push_back(i->second); |
| event_counts_.erase(i); |
| } |
| MaybeRecordAndClear(); |
| } |
| |
| protected: |
| class DebugOutput { |
| public: |
| friend ostream& operator<<(ostream& os, const DebugOutput& debug_output) { |
| debug_output.OutputToStream(os); |
| return os; |
| } |
| virtual void OutputToStream(ostream* os) const = 0; |
| virtual ~DebugOutput() {} |
| }; |
| |
| class FDMaskOutput : public DebugOutput { |
| public: |
| FDMaskOutput(int fd, int mask, const char* function) : |
| fd_(fd), mask_(mask), function_(function) {} |
| virtual void OutputToStream(ostream* os) const { |
| (*os) << "func: " << function_ |
| << "\tfd: " << fd_; |
| if (mask_ != 0) { |
| (*os) << "\tmask: " << EventMaskToString(mask_); |
| } |
| } |
| int fd_; |
| int mask_; |
| const char* function_; |
| }; |
| |
| class EpollWaitOutput : public DebugOutput { |
| public: |
| EpollWaitOutput(int timeout_in_ms, |
| int num_events_generated) : |
| timeout_in_ms_(timeout_in_ms), |
| num_events_generated_(num_events_generated) {} |
| virtual void OutputToStream(ostream* os) const { |
| (*os) << "timeout_in_ms: " << timeout_in_ms_ |
| << "\tnum_events_generated: " << num_events_generated_; |
| } |
| protected: |
| int timeout_in_ms_; |
| int num_events_generated_; |
| }; |
| |
| struct Events { |
| Events() : |
| epoll_in(0), |
| epoll_pri(0), |
| epoll_out(0), |
| epoll_rdnorm(0), |
| epoll_rdband(0), |
| epoll_wrnorm(0), |
| epoll_wrband(0), |
| epoll_msg(0), |
| epoll_err(0), |
| epoll_hup(0), |
| epoll_oneshot(0), |
| epoll_et(0) {} |
| |
| void AssignFromMask(int event_mask) { |
| if (event_mask & EPOLLIN) ++epoll_in; |
| if (event_mask & EPOLLPRI) ++epoll_pri; |
| if (event_mask & EPOLLOUT) ++epoll_out; |
| if (event_mask & EPOLLRDNORM) ++epoll_rdnorm; |
| if (event_mask & EPOLLRDBAND) ++epoll_rdband; |
| if (event_mask & EPOLLWRNORM) ++epoll_wrnorm; |
| if (event_mask & EPOLLWRBAND) ++epoll_wrband; |
| if (event_mask & EPOLLMSG) ++epoll_msg; |
| if (event_mask & EPOLLERR) ++epoll_err; |
| if (event_mask & EPOLLHUP) ++epoll_hup; |
| if (event_mask & EPOLLONESHOT) ++epoll_oneshot; |
| if (event_mask & EPOLLET) ++epoll_et; |
| }; |
| |
| friend ostream& operator<<(ostream& os, const Events& ev) { |
| if (ev.epoll_in) { |
| os << "\t EPOLLIN: " << ev.epoll_in << "\n"; |
| } |
| if (ev.epoll_pri) { |
| os << "\t EPOLLPRI: " << ev.epoll_pri << "\n"; |
| } |
| if (ev.epoll_out) { |
| os << "\t EPOLLOUT: " << ev.epoll_out << "\n"; |
| } |
| if (ev.epoll_rdnorm) { |
| os << "\t EPOLLRDNORM: " << ev.epoll_rdnorm << "\n"; |
| } |
| if (ev.epoll_rdband) { |
| os << "\t EPOLLRDBAND: " << ev.epoll_rdband << "\n"; |
| } |
| if (ev.epoll_wrnorm) { |
| os << "\t EPOLLWRNORM: " << ev.epoll_wrnorm << "\n"; |
| } |
| if (ev.epoll_wrband) { |
| os << "\t EPOLLWRBAND: " << ev.epoll_wrband << "\n"; |
| } |
| if (ev.epoll_msg) { |
| os << "\t EPOLLMSG: " << ev.epoll_msg << "\n"; |
| } |
| if (ev.epoll_err) { |
| os << "\t EPOLLERR: " << ev.epoll_err << "\n"; |
| } |
| if (ev.epoll_hup) { |
| os << "\t EPOLLHUP: " << ev.epoll_hup << "\n"; |
| } |
| if (ev.epoll_oneshot) { |
| os << "\t EPOLLONESHOT: " << ev.epoll_oneshot << "\n"; |
| } |
| if (ev.epoll_et) { |
| os << "\t EPOLLET: " << ev.epoll_et << "\n"; |
| } |
| return os; |
| } |
| |
| unsigned int epoll_in; |
| unsigned int epoll_pri; |
| unsigned int epoll_out; |
| unsigned int epoll_rdnorm; |
| unsigned int epoll_rdband; |
| unsigned int epoll_wrnorm; |
| unsigned int epoll_wrband; |
| unsigned int epoll_msg; |
| unsigned int epoll_err; |
| unsigned int epoll_hup; |
| unsigned int epoll_oneshot; |
| unsigned int epoll_et; |
| }; |
| |
| std::vector<DebugOutput*> debug_events_; |
| std::vector<Events> unregistered_fds_; |
| using EventCountsMap = std::unordered_map<int, Events>; |
| EventCountsMap event_counts_; |
| int64_t num_records_; |
| int64_t record_threshold_; |
| }; |
| |
| void ClearEventRecords() { |
| event_recorder_.Clear(); |
| } |
| void WriteEventRecords(ostream* os) const { |
| (*os) << event_recorder_; |
| } |
| |
| mutable EventRecorder event_recorder_; |
| |
| #endif |
| |
| private: |
| // Helper functions used in the destructor. |
| void CleanupFDToCBMap(); |
| void CleanupTimeToAlarmCBMap(); |
| |
| // The callback registered to the fds below. As the purpose of their |
| // registration is to wake the epoll server it just clears the pipe and |
| // returns. |
| std::unique_ptr<ReadPipeCallback> wake_cb_; |
| |
| // A pipe owned by the epoll server. The server will be registered to listen |
| // on read_fd_ and can be woken by Wake() which writes to write_fd_. |
| int read_fd_; |
| int write_fd_; |
| |
| // This boolean is checked to see if it is false at the top of the |
| // WaitForEventsAndExecuteCallbacks function. If not, then it either returns |
| // without doing work, and logs to ERROR, or aborts the program (in |
| // DEBUG mode). If so, then it sets the bool to true, does work, and |
| // sets it back to false when done. This catches unwanted recursion. |
| bool in_wait_for_events_and_execute_callbacks_; |
| |
| // Returns true when the EpollServer() is being destroyed. |
| bool in_shutdown_; |
| |
| DISALLOW_COPY_AND_ASSIGN(EpollServer); |
| }; |
| |
| class EpollAlarmCallbackInterface { |
| public: |
| // Summary: |
| // Called when an alarm times out. Invalidates an AlarmRegToken. |
| // WARNING: If a token was saved to refer to an alarm callback, OnAlarm must |
| // delete it, as the reference is no longer valid. |
| // Returns: |
| // the unix time (in microseconds) at which this alarm should be signaled |
| // again, or 0 if the alarm should be removed. |
| virtual int64_t OnAlarm() = 0; |
| |
| // Summary: |
| // Called when the an alarm is registered. Invalidates an AlarmRegToken. |
| // Args: |
| // token: the iterator to the the alarm registered in the alarm map. |
| // WARNING: this token becomes invalid when the alarm fires, is |
| // unregistered, or OnShutdown is called on that alarm. |
| // eps: the epoll server the alarm is registered with. |
| virtual void OnRegistration(const EpollServer::AlarmRegToken& token, |
| EpollServer* eps) = 0; |
| |
| // Summary: |
| // Called when the an alarm is unregistered. |
| // WARNING: It is not valid to unregister a callback and then use the token |
| // that was saved to refer to the callback. |
| virtual void OnUnregistration() = 0; |
| |
| // Summary: |
| // Called when the epoll server is shutting down. |
| // Invalidates the AlarmRegToken that was given when this alarm was |
| // registered. |
| virtual void OnShutdown(EpollServer* eps) = 0; |
| |
| virtual ~EpollAlarmCallbackInterface() {} |
| |
| protected: |
| EpollAlarmCallbackInterface() {} |
| }; |
| |
| // A simple alarm which unregisters itself on destruction. |
| // |
| // PLEASE NOTE: |
| // Any classes overriding these functions must either call the implementation |
| // of the parent class, or is must otherwise make sure that the 'registered_' |
| // boolean and the token, 'token_', are updated appropriately. |
| class EpollAlarm : public EpollAlarmCallbackInterface { |
| public: |
| EpollAlarm(); |
| |
| ~EpollAlarm() override; |
| |
| // Marks the alarm as unregistered and returns 0. The return value may be |
| // safely ignored by subclasses. |
| int64_t OnAlarm() override; |
| |
| // Marks the alarm as registered, and stores the token. |
| void OnRegistration(const EpollServer::AlarmRegToken& token, |
| EpollServer* eps) override; |
| |
| // Marks the alarm as unregistered. |
| void OnUnregistration() override; |
| |
| // Marks the alarm as unregistered. |
| void OnShutdown(EpollServer* eps) override; |
| |
| // If the alarm was registered, unregister it. |
| void UnregisterIfRegistered(); |
| |
| bool registered() const { return registered_; } |
| |
| const EpollServer* eps() const { return eps_; } |
| |
| private: |
| EpollServer::AlarmRegToken token_; |
| EpollServer* eps_; |
| bool registered_; |
| }; |
| |
| } // namespace net |
| |
| #endif // NET_TOOLS_EPOLL_SERVER_EPOLL_SERVER_H_ |