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      1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
      2 // Use of this source code is governed by a BSD-style license that can be
      3 // found in the LICENSE file.
      4 
      5 #ifndef NET_TOOLS_FLIP_SERVER_EPOLL_SERVER_H_
      6 #define NET_TOOLS_FLIP_SERVER_EPOLL_SERVER_H_
      7 #pragma once
      8 
      9 #include <fcntl.h>
     10 #include <sys/queue.h>
     11 #include <ext/hash_map>  // it is annoying that gcc does this. oh well.
     12 #include <ext/hash_set>
     13 #include <map>
     14 #include <string>
     15 #include <utility>
     16 #include <set>
     17 #include <vector>
     18 
     19 // #define EPOLL_SERVER_EVENT_TRACING 1
     20 //
     21 // Defining EPOLL_SERVER_EVENT_TRACING
     22 // causes code to exist which didn't before.
     23 // This code tracks each event generated by the epollserver,
     24 // as well as providing a per-fd-registered summary of
     25 // events. Note that enabling this code vastly slows
     26 // down operations, and uses substantially more
     27 // memory. For these reasons, it should only be enabled when doing
     28 // developer debugging at his/her workstation.
     29 //
     30 // A structure called 'EventRecorder' will exist when
     31 // the macro is defined. See the EventRecorder class interface
     32 // within the EpollServer class for more details.
     33 #ifdef EPOLL_SERVER_EVENT_TRACING
     34 #include <iostream>
     35 #include "base/logging.h"
     36 #endif
     37 
     38 #include "base/basictypes.h"
     39 #include "base/memory/scoped_ptr.h"
     40 #include <sys/epoll.h>
     41 
     42 namespace net {
     43 
     44 class EpollServer;
     45 class EpollAlarmCallbackInterface;
     46 class ReadPipeCallback;
     47 
     48 struct EpollEvent {
     49   EpollEvent(int events, bool is_epoll_wait)
     50       : in_events(events),
     51         out_ready_mask(0) {
     52   }
     53 
     54   int in_events;            // incoming events
     55   int out_ready_mask;       // the new event mask for ready list (0 means don't
     56                             // get on the ready list). This field is always
     57                             // initialized to 0 when the event is passed to
     58                             // OnEvent.
     59 };
     60 
     61 // Callbacks which go into EpollServers are expected to derive from this class.
     62 class EpollCallbackInterface {
     63  public:
     64   // Summary:
     65   //   Called when the callback is registered into a EpollServer.
     66   // Args:
     67   //   eps - the poll server into which this callback was registered
     68   //   fd - the file descriptor which was registered
     69   //   event_mask - the event mask (composed of EPOLLIN, EPOLLOUT, etc)
     70   //                which was registered (and will initially be used
     71   //                in the epoll() calls)
     72   virtual void OnRegistration(EpollServer* eps, int fd, int event_mask) = 0;
     73 
     74   // Summary:
     75   //   Called when the event_mask is modified (for a file-descriptor)
     76   // Args:
     77   //   fd - the file descriptor which was registered
     78   //   event_mask - the event mask (composed of EPOLLIN, EPOLLOUT, etc)
     79   //                which was is now curren (and will be used
     80   //                in subsequent epoll() calls)
     81   virtual void OnModification(int fd, int event_mask) = 0;
     82 
     83   // Summary:
     84   //   Called whenever an event occurs on the file-descriptor.
     85   //   This is where the bulk of processing is expected to occur.
     86   // Args:
     87   //   fd - the file descriptor which was registered
     88   //   event - a struct that contains the event mask (composed of EPOLLIN,
     89   //           EPOLLOUT, etc), a flag that indicates whether this is a true
     90   //           epoll_wait event vs one from the ready list, and an output
     91   //           parameter for OnEvent to inform the EpollServer whether to put
     92   //           this fd on the ready list.
     93   virtual void OnEvent(int fd, EpollEvent* event) = 0;
     94 
     95   // Summary:
     96   //   Called when the file-descriptor is unregistered from the poll-server.
     97   // Args:
     98   //   fd - the file descriptor which was registered, and of this call, is now
     99   //        unregistered.
    100   //   replaced - If true, this callback is being replaced by another, otherwise
    101   //              it is simply being removed.
    102   virtual void OnUnregistration(int fd, bool replaced) = 0;
    103 
    104   // Summary:
    105   //   Called when the epoll server is shutting down.  This is different from
    106   //   OnUnregistration because the subclass may want to clean up memory.
    107   //   This is called in leiu of OnUnregistration.
    108   // Args:
    109   //  fd - the file descriptor which was registered.
    110   virtual void OnShutdown(EpollServer* eps, int fd) = 0;
    111 
    112   virtual ~EpollCallbackInterface() {}
    113 
    114  protected:
    115   EpollCallbackInterface() {}
    116 };
    117 
    118 ////////////////////////////////////////////////////////////////////////////////
    119 ////////////////////////////////////////////////////////////////////////////////
    120 
    121 class EpollServer {
    122  public:
    123   typedef EpollAlarmCallbackInterface AlarmCB;
    124   typedef EpollCallbackInterface CB;
    125 
    126   typedef std::multimap<int64, AlarmCB*> TimeToAlarmCBMap;
    127   typedef TimeToAlarmCBMap::iterator AlarmRegToken;
    128 
    129   // Summary:
    130   //   Constructor:
    131   //    By default, we don't wait any amount of time for events, and
    132   //    we suggest to the epoll-system that we're going to use on-the-order
    133   //    of 1024 FDs.
    134   EpollServer();
    135 
    136   ////////////////////////////////////////
    137 
    138   // Destructor
    139   virtual ~EpollServer();
    140 
    141   ////////////////////////////////////////
    142 
    143   // Summary
    144   //   Register a callback to be called whenever an event contained
    145   //   in the set of events included in event_mask occurs on the
    146   //   file-descriptor 'fd'
    147   //
    148   //   Note that only one callback is allowed to be registered for
    149   //   any specific file-decriptor.
    150   //
    151   //   If a callback is registered for a file-descriptor which has already
    152   //   been registered, then the previous callback is unregistered with
    153   //   the 'replaced' flag set to true. I.e. the previous callback's
    154   //   OnUnregistration() function is called like so:
    155   //      OnUnregistration(fd, true);
    156   //
    157   //  The epoll server does NOT take on ownership of the callback: the callback
    158   //  creator is responsible for managing that memory.
    159   //
    160   // Args:
    161   //   fd - a valid file-descriptor
    162   //   cb - an instance of a subclass of EpollCallbackInterface
    163   //   event_mask - a combination of (EPOLLOUT, EPOLLIN.. etc) indicating
    164   //                the events for which the callback would like to be
    165   //                called.
    166   virtual void RegisterFD(int fd, CB* cb, int event_mask);
    167 
    168   ////////////////////////////////////////
    169 
    170   // Summary:
    171   //   A shortcut for RegisterFD which sets things up such that the
    172   //   callback is called when 'fd' is available for writing.
    173   // Args:
    174   //   fd - a valid file-descriptor
    175   //   cb - an instance of a subclass of EpollCallbackInterface
    176   virtual void RegisterFDForWrite(int fd, CB* cb);
    177 
    178   ////////////////////////////////////////
    179 
    180   // Summary:
    181   //   A shortcut for RegisterFD which sets things up such that the
    182   //   callback is called when 'fd' is available for reading or writing.
    183   // Args:
    184   //   fd - a valid file-descriptor
    185   //   cb - an instance of a subclass of EpollCallbackInterface
    186   virtual void RegisterFDForReadWrite(int fd, CB* cb);
    187 
    188   ////////////////////////////////////////
    189 
    190   // Summary:
    191   //   A shortcut for RegisterFD which sets things up such that the
    192   //   callback is called when 'fd' is available for reading.
    193   // Args:
    194   //   fd - a valid file-descriptor
    195   //   cb - an instance of a subclass of EpollCallbackInterface
    196   virtual void RegisterFDForRead(int fd, CB* cb);
    197 
    198   ////////////////////////////////////////
    199 
    200   // Summary:
    201   //   Removes the FD and the associated callback from the pollserver.
    202   //   If the callback is registered with other FDs, they will continue
    203   //   to be processed using the callback without modification.
    204   //   If the file-descriptor specified is not registered in the
    205   //   epoll_server, then nothing happens as a result of this call.
    206   // Args:
    207   //   fd - the file-descriptor which should no-longer be monitored.
    208   virtual void UnregisterFD(int fd);
    209 
    210   ////////////////////////////////////////
    211 
    212   // Summary:
    213   //   Modifies the event mask for the file-descriptor, replacing
    214   //   the old event_mask with the new one specified here.
    215   //   If the file-descriptor specified is not registered in the
    216   //   epoll_server, then nothing happens as a result of this call.
    217   // Args:
    218   //   fd - the fd whose event mask should be modified.
    219   //   event_mask - the new event mask.
    220   virtual void ModifyCallback(int fd, int event_mask);
    221 
    222   ////////////////////////////////////////
    223 
    224   // Summary:
    225   //   Modifies the event mask for the file-descriptor such that we
    226   //   no longer request events when 'fd' is readable.
    227   //   If the file-descriptor specified is not registered in the
    228   //   epoll_server, then nothing happens as a result of this call.
    229   // Args:
    230   //   fd - the fd whose event mask should be modified.
    231   virtual void StopRead(int fd);
    232 
    233   ////////////////////////////////////////
    234 
    235   // Summary:
    236   //   Modifies the event mask for the file-descriptor such that we
    237   //   request events when 'fd' is readable.
    238   //   If the file-descriptor specified is not registered in the
    239   //   epoll_server, then nothing happens as a result of this call.
    240   // Args:
    241   //   fd - the fd whose event mask should be modified.
    242   virtual void StartRead(int fd);
    243 
    244   ////////////////////////////////////////
    245 
    246   // Summary:
    247   //   Modifies the event mask for the file-descriptor such that we
    248   //   no longer request events when 'fd' is writable.
    249   //   If the file-descriptor specified is not registered in the
    250   //   epoll_server, then nothing happens as a result of this call.
    251   // Args:
    252   //   fd - the fd whose event mask should be modified.
    253   virtual void StopWrite(int fd);
    254 
    255   ////////////////////////////////////////
    256 
    257   // Summary:
    258   //   Modifies the event mask for the file-descriptor such that we
    259   //   request events when 'fd' is writable.
    260   //   If the file-descriptor specified is not registered in the
    261   //   epoll_server, then nothing happens as a result of this call.
    262   // Args:
    263   //   fd - the fd whose event mask should be modified.
    264   virtual void StartWrite(int fd);
    265 
    266   ////////////////////////////////////////
    267 
    268   // Summary:
    269   //   Looks up the callback associated with the file-desriptor 'fd'.
    270   //   If a callback is associated with this file-descriptor, then
    271   //   it's OnEvent() method is called with the file-descriptor 'fd',
    272   //   and event_mask 'event_mask'
    273   //
    274   //   If no callback is registered for this file-descriptor, nothing
    275   //   will happen as a result of this call.
    276   //
    277   //   This function is used internally by the EpollServer, but is
    278   //   available publically so that events might be 'faked'. Calling
    279   //   this function with an fd and event_mask is equivalent (as far
    280   //   as the callback is concerned) to having a real event generated
    281   //   by epoll (except, of course, that read(), etc won't necessarily
    282   //   be able to read anything)
    283   // Args:
    284   //   fd - the file-descriptor on which an event has occured.
    285   //   event_mask - a bitmask representing the events which have occured
    286   //                on/for this fd. This bitmask is composed of
    287   //                POLLIN, POLLOUT, etc.
    288   //
    289   void HandleEvent(int fd, int event_mask);
    290 
    291   // Summary:
    292   //   Call this when you want the pollserver to
    293   //   wait for events and execute the callbacks associated with
    294   //   the file-descriptors on which those events have occured.
    295   //   Depending on the value of timeout_in_us_, this may or may
    296   //   not return immediately. Please reference the set_timeout()
    297   //   function for the specific behaviour.
    298   virtual void WaitForEventsAndExecuteCallbacks();
    299 
    300   // Summary:
    301   //   When an fd is registered to use edge trigger notification, the ready
    302   //   list can be used to simulate level trigger semantics. Edge trigger
    303   //   registration doesn't send an initial event, and only rising edge (going
    304   //   from blocked to unblocked) events are sent. A callback can put itself on
    305   //   the ready list by calling SetFDReady() after calling RegisterFD(). The
    306   //   OnEvent method of all callbacks associated with the fds on the ready
    307   //   list will be called immediately after processing the events returned by
    308   //   epoll_wait(). The fd is removed from the ready list before the
    309   //   callback's OnEvent() method is invoked. To stay on the ready list, the
    310   //   OnEvent() (or some function in that call chain) must call SetFDReady
    311   //   again. When a fd is unregistered using UnregisterFD(), the fd is
    312   //   automatically removed from the ready list.
    313   //
    314   //   When the callback for a edge triggered fd hits the falling edge (about
    315   //   to block, either because of it got an EAGAIN, or had a short read/write
    316   //   operation), it should remove itself from the ready list using
    317   //   SetFDNotReady() (since OnEvent cannot distinguish between invocation
    318   //   from the ready list vs from a normal epoll event). All four ready list
    319   //   methods are safe to be called  within the context of the callbacks.
    320   //
    321   //   Since the ready list invokes EpollCallbackInterface::OnEvent, only fds
    322   //   that are registered with the EpollServer will be put on the ready list.
    323   //   SetFDReady() and SetFDNotReady() will do nothing if the EpollServer
    324   //   doesn't know about the fd passed in.
    325   //
    326   //   Since the ready list cannot reliably determine proper set of events
    327   //   which should be sent to the callback, SetFDReady() requests the caller
    328   //   to provide the ready list with the event mask, which will be used later
    329   //   when OnEvent() is invoked by the ready list. Hence, the event_mask
    330   //   passedto SetFDReady() does not affect the actual epoll registration of
    331   //   the fd with the kernel. If a fd is already put on the ready list, and
    332   //   SetFDReady() is called again for that fd with a different event_mask,
    333   //   the event_mask will be updated.
    334   virtual void SetFDReady(int fd, int events_to_fake);
    335 
    336   virtual void SetFDNotReady(int fd);
    337 
    338   // Summary:
    339   //   IsFDReady(), ReadyListSize(), and VerifyReadyList are intended as
    340   //   debugging tools and for writing unit tests.
    341   //   ISFDReady() returns whether a fd is in the ready list.
    342   //   ReadyListSize() returns the number of fds on the ready list.
    343   //   VerifyReadyList() checks the consistency of internal data structure. It
    344   //   will CHECK if it finds an error.
    345   virtual bool IsFDReady(int fd) const;
    346 
    347   size_t ReadyListSize() const { return ready_list_size_; }
    348 
    349   void VerifyReadyList() const;
    350 
    351   ////////////////////////////////////////
    352 
    353   // Summary:
    354   //   Registers an alarm 'ac' to go off at time 'timeout_time_in_us'.
    355   //   If the callback returns a positive number from its OnAlarm() function,
    356   //   then the callback will be re-registered at that time, else the alarm
    357   //   owner is responsible for freeing up memory.
    358   //
    359   //   Important: A give AlarmCB* can not be registered again if it is already
    360   //    registered. If a user wants to register a callback again it should first
    361   //    unregister the previous callback before calling RegisterAlarm again.
    362   // Args:
    363   //   timeout_time_in_us - the absolute time at which the alarm should go off
    364   //   ac - the alarm which will be called.
    365   virtual void RegisterAlarm(int64 timeout_time_in_us, AlarmCB* ac);
    366 
    367   // Summary:
    368   //   Registers an alarm 'ac' to go off at time: (ApproximateNowInUs() +
    369   //   delta_in_us). While this is somewhat less accurate (see the description
    370   //   for ApproximateNowInUs() to see how 'approximate'), the error is never
    371   //   worse than the amount of time it takes to process all events in one
    372   //   WaitForEvents.  As with 'RegisterAlarm()', if the callback returns a
    373   //   positive number from its OnAlarm() function, then the callback will be
    374   //   re-registered at that time, else the alarm owner is responsible for
    375   //   freeing up memory.
    376   //   Note that this function is purely a convienence. The
    377   //   same thing may be accomplished by using RegisterAlarm with
    378   //   ApproximateNowInUs() directly.
    379   //
    380   //   Important: A give AlarmCB* can not be registered again if it is already
    381   //    registered. If a user wants to register a callback again it should first
    382   //    unregister the previous callback before calling RegisterAlarm again.
    383   // Args:
    384   //   delta_in_us - the delta in microseconds from the ApproximateTimeInUs() at
    385   //                 which point the alarm should go off.
    386   //   ac - the alarm which will be called.
    387   void RegisterAlarmApproximateDelta(int64 delta_in_us, AlarmCB* ac) {
    388     RegisterAlarm(ApproximateNowInUsec() + delta_in_us, ac);
    389   }
    390 
    391   ////////////////////////////////////////
    392 
    393   // Summary:
    394   //   Unregister  the alarm referred to by iterator_token; Callers should
    395   //   be warned that a token may have become already invalid when OnAlarm()
    396   //   is called, was unregistered, or OnShutdown was called on that alarm.
    397   // Args:
    398   //    iterator_token - iterator to the alarm callback to unregister.
    399   virtual void UnregisterAlarm(
    400       const EpollServer::AlarmRegToken& iterator_token);
    401 
    402   ////////////////////////////////////////
    403 
    404   // Summary:
    405   //   returns the number of file-descriptors registered in this EpollServer.
    406   // Returns:
    407   //   number of FDs registered (discounting the internal pipe used for Wake)
    408   virtual int NumFDsRegistered() const;
    409 
    410   // Summary:
    411   //   Force the epoll server to wake up (by writing to an internal pipe).
    412   virtual void Wake();
    413 
    414   // Summary:
    415   //   Wrapper around WallTimer's NowInUsec.  We do this so that we can test
    416   //   EpollServer without using the system clock (and can avoid the flakiness
    417   //   that would ensue)
    418   // Returns:
    419   //   the current time as number of microseconds since the Unix epoch.
    420   virtual int64 NowInUsec() const;
    421 
    422   // Summary:
    423   //   Since calling NowInUsec() many thousands of times per
    424   //   WaitForEventsAndExecuteCallbacks function call is, to say the least,
    425   //   inefficient, we allow users to use an approximate time instead. The
    426   //   time returned from this function is as accurate as NowInUsec() when
    427   //   WaitForEventsAndExecuteCallbacks is not an ancestor of the caller's
    428   //   callstack.
    429   //   However, when WaitForEventsAndExecuteCallbacks -is- an ancestor, then
    430   //   this function returns the time at which the
    431   //   WaitForEventsAndExecuteCallbacks function started to process events or
    432   //   alarms.
    433   //
    434   //   Essentially, this function makes available a fast and mostly accurate
    435   //   mechanism for getting the time for any function handling an event or
    436   //   alarm. When functions which are not handling callbacks or alarms call
    437   //   this function, they get the slow and "absolutely" accurate time.
    438   //
    439   //   Users should be encouraged to use this function.
    440   // Returns:
    441   //   the "approximate" current time as number of microseconds since the Unix
    442   //   epoch.
    443   virtual int64 ApproximateNowInUsec() const;
    444 
    445   static std::string EventMaskToString(int event_mask);
    446 
    447   // Summary:
    448   //   Logs the state of the epoll server with LOG(ERROR).
    449   void LogStateOnCrash();
    450 
    451   // Summary:
    452   //   Set the timeout to the value specified.
    453   //   If the timeout is set to a negative number,
    454   //      WaitForEventsAndExecuteCallbacks() will only return when an event has
    455   //      occured
    456   //   If the timeout is set to zero,
    457   //      WaitForEventsAndExecuteCallbacks() will return immediately
    458   //   If the timeout is set to a positive number,
    459   //      WaitForEventsAndExecuteCallbacks() will return when an event has
    460   //      occured, or when timeout_in_us microseconds has elapsed, whichever
    461   //      is first.
    462   //  Args:
    463   //    timeout_in_us - value specified depending on behaviour desired.
    464   //                    See above.
    465   void set_timeout_in_us(int64 timeout_in_us) {
    466     timeout_in_us_ = timeout_in_us;
    467   }
    468 
    469   ////////////////////////////////////////
    470 
    471   // Summary:
    472   //   Accessor for the current value of timeout_in_us.
    473   int timeout_in_us() const { return timeout_in_us_; }
    474 
    475   // Summary:
    476   // Returns true when the EpollServer() is being destroyed.
    477   bool in_shutdown() const { return in_shutdown_; }
    478 
    479   bool ContainsAlarm(EpollAlarmCallbackInterface* alarm) const {
    480     return all_alarms_.find(alarm) != all_alarms_.end();
    481   }
    482 
    483   // Summary:
    484   //   A function for implementing the ready list. It invokes OnEvent for each
    485   //   of the fd in the ready list, and takes care of adding them back to the
    486   //   ready list if the callback requests it (by checking that out_ready_mask
    487   //   is non-zero).
    488   void CallReadyListCallbacks();
    489 
    490   // Granularity at which time moves when considering what alarms are on.
    491   // See function: DoRoundingOnNow() on exact usage.
    492   static const int kMinimumEffectiveAlarmQuantum;
    493  protected:
    494 
    495   virtual int GetFlags(int fd);
    496   inline int SetFlags(int fd, int flags) {
    497     return fcntl(fd, F_SETFL, flags | O_NONBLOCK);
    498   }
    499 
    500   virtual void SetNonblocking(int fd);
    501 
    502   // This exists here so that we can override this function in unittests
    503   // in order to make effective mock EpollServer objects.
    504   virtual int epoll_wait_impl(int epfd,
    505                               struct epoll_event* events,
    506                               int max_events,
    507                               int timeout_in_ms);
    508 
    509   // this struct is used internally, and is never used by anything external
    510   // to this class. Some of its members are declared mutable to get around the
    511   // restriction imposed by hash_set. Since hash_set knows nothing about the
    512   // objects it stores, it has to assume that every bit of the object is used
    513   // in the hash function and equal_to comparison. Thus hash_set::iterator is a
    514   // const iterator. In this case, the only thing that must stay constant is
    515   // fd. Everything else are just along for the ride and changing them doesn't
    516   // compromise the hash_set integrity.
    517   struct CBAndEventMask {
    518     CBAndEventMask()
    519         : cb(NULL),
    520           fd(-1),
    521           event_mask(0),
    522           events_asserted(0),
    523           events_to_fake(0),
    524           in_use(false) {
    525       entry.le_next = NULL;
    526       entry.le_prev = NULL;
    527     }
    528 
    529     CBAndEventMask(EpollCallbackInterface* cb,
    530                    int event_mask,
    531                    int fd)
    532         : cb(cb), fd(fd), event_mask(event_mask), events_asserted(0),
    533           events_to_fake(0), in_use(false) {
    534       entry.le_next = NULL;
    535       entry.le_prev = NULL;
    536     }
    537 
    538     // Required operator for hash_set. Normally operator== should be a free
    539     // standing function. However, since CBAndEventMask is a protected type and
    540     // it will never be a base class, it makes no difference.
    541     bool operator==(const CBAndEventMask& cb_and_mask) const {
    542       return fd == cb_and_mask.fd;
    543     }
    544     // A callback. If the fd is unregistered inside the callchain of OnEvent,
    545     // the cb will be set to NULL.
    546     mutable EpollCallbackInterface* cb;
    547 
    548     mutable LIST_ENTRY(CBAndEventMask) entry;
    549     // file descriptor registered with the epoll server.
    550     int fd;
    551     // the current event_mask registered for this callback.
    552     mutable int event_mask;
    553     // the event_mask that was returned by epoll
    554     mutable int events_asserted;
    555     // the event_mask for the ready list to use to call OnEvent.
    556     mutable int events_to_fake;
    557     // toggle around calls to OnEvent to tell UnregisterFD to not erase the
    558     // iterator because HandleEvent is using it.
    559     mutable bool in_use;
    560   };
    561 
    562   // Custom hash function to be used by hash_set.
    563   struct CBAndEventMaskHash {
    564     size_t operator()(const CBAndEventMask& cb_and_eventmask) const {
    565       return static_cast<size_t>(cb_and_eventmask.fd);
    566     }
    567   };
    568 
    569   typedef __gnu_cxx::hash_set<CBAndEventMask, CBAndEventMaskHash> FDToCBMap;
    570 
    571   // the following four functions are OS-specific, and are likely
    572   // to be changed in a subclass if the poll/select method is changed
    573   // from epoll.
    574 
    575   // Summary:
    576   //   Deletes a file-descriptor from the set of FDs that should be
    577   //   monitored with epoll.
    578   //   Note that this only deals with modifying data relating -directly-
    579   //   with the epoll call-- it does not modify any data within the
    580   //   epoll_server.
    581   // Args:
    582   //   fd - the file descriptor to-be-removed from the monitoring set
    583   virtual void DelFD(int fd) const;
    584 
    585   ////////////////////////////////////////
    586 
    587   // Summary:
    588   //   Adds a file-descriptor to the set of FDs that should be
    589   //   monitored with epoll.
    590   //   Note that this only deals with modifying data relating -directly-
    591   //   with the epoll call.
    592   // Args:
    593   //   fd - the file descriptor to-be-added to the monitoring set
    594   //   event_mask - the event mask (consisting of EPOLLIN, EPOLLOUT, etc
    595   //                 OR'd together) which will be associated with this
    596   //                 FD initially.
    597   virtual void AddFD(int fd, int event_mask) const;
    598 
    599   ////////////////////////////////////////
    600 
    601   // Summary:
    602   //   Modifies a file-descriptor in the set of FDs that should be
    603   //   monitored with epoll.
    604   //   Note that this only deals with modifying data relating -directly-
    605   //   with the epoll call.
    606   // Args:
    607   //   fd - the file descriptor to-be-added to the monitoring set
    608   //   event_mask - the event mask (consisting of EPOLLIN, EPOLLOUT, etc
    609   //                 OR'd together) which will be associated with this
    610   //                 FD after this call.
    611   virtual void ModFD(int fd, int event_mask) const;
    612 
    613   ////////////////////////////////////////
    614 
    615   // Summary:
    616   //   Modified the event mask associated with an FD in the set of
    617   //   data needed by epoll.
    618   //   Events are removed before they are added, thus, if ~0 is put
    619   //   in 'remove_event', whatever is put in 'add_event' will be
    620   //   the new event mask.
    621   //   If the file-descriptor specified is not registered in the
    622   //   epoll_server, then nothing happens as a result of this call.
    623   // Args:
    624   //   fd - the file descriptor whose event mask is to be modified
    625   //   remove_event - the events which are to be removed from the current
    626   //                  event_mask
    627   //   add_event - the events which are to be added to the current event_mask
    628   //
    629   //
    630   virtual void ModifyFD(int fd, int remove_event, int add_event);
    631 
    632   ////////////////////////////////////////
    633 
    634   // Summary:
    635   //   Waits for events, and calls HandleEvents() for each
    636   //   fd, event pair discovered to possibly have an event.
    637   //   Note that a callback (B) may get a spurious event if
    638   //   another callback (A) has closed a file-descriptor N, and
    639   //   the callback (B) has a newly opened file-descriptor, which
    640   //   also happens to be N.
    641   virtual void WaitForEventsAndCallHandleEvents(int64 timeout_in_us,
    642                                                 struct epoll_event events[],
    643                                                 int events_size);
    644 
    645 
    646 
    647   // Summary:
    648   //   An internal function for implementing the ready list. It adds a fd's
    649   //   CBAndEventMask to the ready list. If the fd is already on the ready
    650   //   list, it is a no-op.
    651   void AddToReadyList(CBAndEventMask* cb_and_mask);
    652 
    653   // Summary:
    654   //   An internal function for implementing the ready list. It remove a fd's
    655   //   CBAndEventMask from the ready list. If the fd is not on the ready list,
    656   //   it is a no-op.
    657   void RemoveFromReadyList(const CBAndEventMask& cb_and_mask);
    658 
    659   // Summary:
    660   // Calls any pending alarms that should go off and reregisters them if they
    661   // were recurring.
    662   virtual void CallAndReregisterAlarmEvents();
    663 
    664   // The file-descriptor created for epolling
    665   int epoll_fd_;
    666 
    667   // The mapping of file-descriptor to CBAndEventMasks
    668   FDToCBMap cb_map_;
    669 
    670   // Custom hash function to be used by hash_set.
    671   struct AlarmCBHash {
    672     size_t operator()(AlarmCB*const& p) const {
    673       return reinterpret_cast<size_t>(p);
    674     }
    675   };
    676 
    677 
    678   // TOOD(sushantj): Having this hash_set is avoidable. We currently have it
    679   // only so that we can enforce stringent checks that a caller can not register
    680   // the same alarm twice. One option is to have an implementation in which
    681   // this hash_set is used only in the debug mode.
    682   typedef __gnu_cxx::hash_set<AlarmCB*, AlarmCBHash> AlarmCBMap;
    683   AlarmCBMap all_alarms_;
    684 
    685   TimeToAlarmCBMap alarm_map_;
    686 
    687   // The amount of time in microseconds that we'll wait before returning
    688   // from the WaitForEventsAndExecuteCallbacks() function.
    689   // If this is positive, wait that many microseconds.
    690   // If this is negative, wait forever, or for the first event that occurs
    691   // If this is zero, never wait for an event.
    692   int64 timeout_in_us_;
    693 
    694   // This is nonzero only after the invocation of epoll_wait_impl within
    695   // WaitForEventsAndCallHandleEvents and before the function
    696   // WaitForEventsAndExecuteCallbacks returns.  At all other times, this is
    697   // zero. This enables us to have relatively accurate time returned from the
    698   // ApproximateNowInUs() function. See that function for more details.
    699   int64 recorded_now_in_us_;
    700 
    701   // This is used to implement CallAndReregisterAlarmEvents. This stores
    702   // all alarms that were reregistered because OnAlarm() returned a
    703   // value > 0 and the time at which they should be executed is less that
    704   // the current time.  By storing such alarms in this map we ensure
    705   // that while calling CallAndReregisterAlarmEvents we do not call
    706   // OnAlarm on any alarm in this set. This ensures that we do not
    707   // go in an infinite loop.
    708   AlarmCBMap alarms_reregistered_and_should_be_skipped_;
    709 
    710   LIST_HEAD(ReadyList, CBAndEventMask) ready_list_;
    711   LIST_HEAD(TmpList, CBAndEventMask) tmp_list_;
    712   int ready_list_size_;
    713   // TODO(alyssar): make this into something that scales up.
    714   static const int events_size_ = 256;
    715   struct epoll_event events_[256];
    716 
    717   // These controls the granularity for alarms
    718   // See function CallAndReregisterAlarmEvents()
    719   // TODO(sushantj): Add test for this.
    720   int64 DoRoundingOnNow(int64 now_in_us) const;
    721 
    722 #ifdef EPOLL_SERVER_EVENT_TRACING
    723   struct EventRecorder {
    724    public:
    725     EventRecorder() : num_records_(0), record_threshold_(10000) {}
    726 
    727     ~EventRecorder() {
    728       Clear();
    729     }
    730 
    731     // When a number of events equals the record threshold,
    732     // the collected data summary for all FDs will be written
    733     // to LOG(INFO). Note that this does not include the
    734     // individual events (if you'reinterested in those, you'll
    735     // have to get at them programmatically).
    736     // After any such flushing to LOG(INFO) all events will
    737     // be cleared.
    738     // Note that the definition of an 'event' is a bit 'hazy',
    739     // as it includes the 'Unregistration' event, and perhaps
    740     // others.
    741     void set_record_threshold(int64 new_threshold) {
    742       record_threshold_ = new_threshold;
    743     }
    744 
    745     void Clear() {
    746       for (int i = 0; i < debug_events_.size(); ++i) {
    747         delete debug_events_[i];
    748       }
    749       debug_events_.clear();
    750       unregistered_fds_.clear();
    751       event_counts_.clear();
    752     }
    753 
    754     void MaybeRecordAndClear() {
    755       ++num_records_;
    756       if ((num_records_ > record_threshold_) &&
    757           (record_threshold_ > 0)) {
    758         LOG(INFO) << "\n" << *this;
    759         num_records_ = 0;
    760         Clear();
    761       }
    762     }
    763 
    764     void RecordFDMaskEvent(int fd, int mask, const char* function) {
    765       FDMaskOutput* fdmo = new FDMaskOutput(fd, mask, function);
    766       debug_events_.push_back(fdmo);
    767       MaybeRecordAndClear();
    768     }
    769 
    770     void RecordEpollWaitEvent(int timeout_in_ms,
    771                               int num_events_generated) {
    772       EpollWaitOutput* ewo = new EpollWaitOutput(timeout_in_ms,
    773                                                   num_events_generated);
    774       debug_events_.push_back(ewo);
    775       MaybeRecordAndClear();
    776     }
    777 
    778     void RecordEpollEvent(int fd, int event_mask) {
    779       Events& events_for_fd = event_counts_[fd];
    780       events_for_fd.AssignFromMask(event_mask);
    781       MaybeRecordAndClear();
    782     }
    783 
    784     friend ostream& operator<<(ostream& os, const EventRecorder& er) {
    785       for (int i = 0; i < er.unregistered_fds_.size(); ++i) {
    786         os << "fd: " << er.unregistered_fds_[i] << "\n";
    787         os << er.unregistered_fds_[i];
    788       }
    789       for (EventCountsMap::const_iterator i = er.event_counts_.begin();
    790            i != er.event_counts_.end();
    791            ++i) {
    792         os << "fd: " << i->first << "\n";
    793         os << i->second;
    794       }
    795       for (int i = 0; i < er.debug_events_.size(); ++i) {
    796         os << *(er.debug_events_[i]) << "\n";
    797       }
    798       return os;
    799     }
    800 
    801     void RecordUnregistration(int fd) {
    802       EventCountsMap::iterator i = event_counts_.find(fd);
    803       if (i != event_counts_.end()) {
    804         unregistered_fds_.push_back(i->second);
    805         event_counts_.erase(i);
    806       }
    807       MaybeRecordAndClear();
    808     }
    809 
    810    protected:
    811     class DebugOutput {
    812      public:
    813       friend ostream& operator<<(ostream& os, const DebugOutput& debug_output) {
    814         debug_output.OutputToStream(os);
    815         return os;
    816       }
    817       virtual void OutputToStream(ostream* os) const = 0;
    818       virtual ~DebugOutput() {}
    819     };
    820 
    821     class FDMaskOutput : public DebugOutput {
    822      public:
    823       FDMaskOutput(int fd, int mask, const char* function) :
    824           fd_(fd), mask_(mask), function_(function) {}
    825       virtual void OutputToStream(ostream* os) const {
    826         (*os) << "func: " << function_
    827               << "\tfd: " << fd_;
    828         if (mask_ != 0) {
    829            (*os) << "\tmask: " << EventMaskToString(mask_);
    830         }
    831       }
    832       int fd_;
    833       int mask_;
    834       const char* function_;
    835     };
    836 
    837     class EpollWaitOutput : public DebugOutput {
    838      public:
    839       EpollWaitOutput(int timeout_in_ms,
    840                       int num_events_generated) :
    841           timeout_in_ms_(timeout_in_ms),
    842           num_events_generated_(num_events_generated) {}
    843       virtual void OutputToStream(ostream* os) const {
    844         (*os) << "timeout_in_ms: " << timeout_in_ms_
    845               << "\tnum_events_generated: " << num_events_generated_;
    846       }
    847      protected:
    848       int timeout_in_ms_;
    849       int num_events_generated_;
    850     };
    851 
    852     struct Events {
    853       Events() :
    854           epoll_in(0),
    855           epoll_pri(0),
    856           epoll_out(0),
    857           epoll_rdnorm(0),
    858           epoll_rdband(0),
    859           epoll_wrnorm(0),
    860           epoll_wrband(0),
    861           epoll_msg(0),
    862           epoll_err(0),
    863           epoll_hup(0),
    864           epoll_oneshot(0),
    865           epoll_et(0) {}
    866 
    867       void AssignFromMask(int event_mask) {
    868         if (event_mask & EPOLLIN) ++epoll_in;
    869         if (event_mask & EPOLLPRI) ++epoll_pri;
    870         if (event_mask & EPOLLOUT) ++epoll_out;
    871         if (event_mask & EPOLLRDNORM) ++epoll_rdnorm;
    872         if (event_mask & EPOLLRDBAND) ++epoll_rdband;
    873         if (event_mask & EPOLLWRNORM) ++epoll_wrnorm;
    874         if (event_mask & EPOLLWRBAND) ++epoll_wrband;
    875         if (event_mask & EPOLLMSG) ++epoll_msg;
    876         if (event_mask & EPOLLERR) ++epoll_err;
    877         if (event_mask & EPOLLHUP) ++epoll_hup;
    878         if (event_mask & EPOLLONESHOT) ++epoll_oneshot;
    879         if (event_mask & EPOLLET) ++epoll_et;
    880       };
    881 
    882       friend ostream& operator<<(ostream& os, const Events& ev) {
    883         if (ev.epoll_in) {
    884           os << "\t      EPOLLIN: " << ev.epoll_in << "\n";
    885         }
    886         if (ev.epoll_pri) {
    887           os << "\t     EPOLLPRI: " << ev.epoll_pri << "\n";
    888         }
    889         if (ev.epoll_out) {
    890           os << "\t     EPOLLOUT: " << ev.epoll_out << "\n";
    891         }
    892         if (ev.epoll_rdnorm) {
    893           os << "\t  EPOLLRDNORM: " << ev.epoll_rdnorm << "\n";
    894         }
    895         if (ev.epoll_rdband) {
    896           os << "\t  EPOLLRDBAND: " << ev.epoll_rdband << "\n";
    897         }
    898         if (ev.epoll_wrnorm) {
    899           os << "\t  EPOLLWRNORM: " << ev.epoll_wrnorm << "\n";
    900         }
    901         if (ev.epoll_wrband) {
    902           os << "\t  EPOLLWRBAND: " << ev.epoll_wrband << "\n";
    903         }
    904         if (ev.epoll_msg) {
    905           os << "\t     EPOLLMSG: " << ev.epoll_msg << "\n";
    906         }
    907         if (ev.epoll_err) {
    908           os << "\t     EPOLLERR: " << ev.epoll_err << "\n";
    909         }
    910         if (ev.epoll_hup) {
    911           os << "\t     EPOLLHUP: " << ev.epoll_hup << "\n";
    912         }
    913         if (ev.epoll_oneshot) {
    914           os << "\t EPOLLONESHOT: " << ev.epoll_oneshot << "\n";
    915         }
    916         if (ev.epoll_et) {
    917           os << "\t      EPOLLET: " << ev.epoll_et << "\n";
    918         }
    919         return os;
    920       }
    921 
    922       unsigned int epoll_in;
    923       unsigned int epoll_pri;
    924       unsigned int epoll_out;
    925       unsigned int epoll_rdnorm;
    926       unsigned int epoll_rdband;
    927       unsigned int epoll_wrnorm;
    928       unsigned int epoll_wrband;
    929       unsigned int epoll_msg;
    930       unsigned int epoll_err;
    931       unsigned int epoll_hup;
    932       unsigned int epoll_oneshot;
    933       unsigned int epoll_et;
    934     };
    935 
    936     std::vector<DebugOutput*> debug_events_;
    937     std::vector<Events> unregistered_fds_;
    938     typedef __gnu_cxx::hash_map<int, Events> EventCountsMap;
    939     EventCountsMap event_counts_;
    940     int64 num_records_;
    941     int64 record_threshold_;
    942   };
    943 
    944   void ClearEventRecords() {
    945     event_recorder_.Clear();
    946   }
    947   void WriteEventRecords(ostream* os) const {
    948     (*os) << event_recorder_;
    949   }
    950 
    951   mutable EventRecorder event_recorder_;
    952 
    953 #endif
    954 
    955  private:
    956   // Helper functions used in the destructor.
    957   void CleanupFDToCBMap();
    958   void CleanupTimeToAlarmCBMap();
    959 
    960   // The callback registered to the fds below.  As the purpose of their
    961   // registration is to wake the epoll server it just clears the pipe and
    962   // returns.
    963   scoped_ptr<ReadPipeCallback> wake_cb_;
    964 
    965   // A pipe owned by the epoll server.  The server will be registered to listen
    966   // on read_fd_ and can be woken by Wake() which writes to write_fd_.
    967   int read_fd_;
    968   int write_fd_;
    969 
    970   // This boolean is checked to see if it is false at the top of the
    971   // WaitForEventsAndExecuteCallbacks function. If not, then it either returns
    972   // without doing work, and logs to ERROR, or aborts the program (in
    973   // DEBUG mode). If so, then it sets the bool to true, does work, and
    974   // sets it back to false when done. This catches unwanted recursion.
    975   bool in_wait_for_events_and_execute_callbacks_;
    976 
    977   // Returns true when the EpollServer() is being destroyed.
    978   bool in_shutdown_;
    979 
    980   DISALLOW_COPY_AND_ASSIGN(EpollServer);
    981 };
    982 
    983 class EpollAlarmCallbackInterface {
    984  public:
    985   // Summary:
    986   //   Called when an alarm times out. Invalidates an AlarmRegToken.
    987   //   WARNING: If a token was saved to refer to an alarm callback, OnAlarm must
    988   //   delete it, as the reference is no longer valid.
    989   // Returns:
    990   //   the unix time (in microseconds) at which this alarm should be signaled
    991   //   again, or 0 if the alarm should be removed.
    992   virtual int64 OnAlarm() = 0;
    993 
    994   // Summary:
    995   //   Called when the an alarm is registered. Invalidates an AlarmRegToken.
    996   // Args:
    997   //   token: the iterator to the the alarm registered in the alarm map.
    998   //   WARNING: this token becomes invalid when the alarm fires, is
    999   //   unregistered, or OnShutdown is called on that alarm.
   1000   //   eps: the epoll server the alarm is registered with.
   1001   virtual void OnRegistration(const EpollServer::AlarmRegToken& token,
   1002                               EpollServer* eps) = 0;
   1003 
   1004   // Summary:
   1005   //   Called when the an alarm is unregistered.
   1006   //   WARNING: It is not valid to unregister a callback and then use the token
   1007   //   that was saved to refer to the callback.
   1008   virtual void OnUnregistration() = 0;
   1009 
   1010   // Summary:
   1011   //   Called when the epoll server is shutting down.
   1012   //   Invalidates the AlarmRegToken that was given when this alarm was
   1013   //   registered.
   1014   virtual void OnShutdown(EpollServer* eps) = 0;
   1015 
   1016   virtual ~EpollAlarmCallbackInterface() {}
   1017 
   1018  protected:
   1019   EpollAlarmCallbackInterface() {}
   1020 };
   1021 
   1022 // A simple alarm which unregisters itself on destruction.
   1023 //
   1024 // PLEASE NOTE:
   1025 // Any classes overriding these functions must either call the implementation
   1026 // of the parent class, or is must otherwise make sure that the 'registered_'
   1027 // boolean and the token, 'token_', are updated appropriately.
   1028 class EpollAlarm : public EpollAlarmCallbackInterface {
   1029  public:
   1030   EpollAlarm();
   1031 
   1032   virtual ~EpollAlarm();
   1033 
   1034   // Marks the alarm as unregistered and returns 0.  The return value may be
   1035   // safely ignored by subclasses.
   1036   virtual int64 OnAlarm();
   1037 
   1038   // Marks the alarm as registered, and stores the token.
   1039   virtual void OnRegistration(const EpollServer::AlarmRegToken& token,
   1040                               EpollServer* eps);
   1041 
   1042   // Marks the alarm as unregistered.
   1043   virtual void OnUnregistration();
   1044 
   1045   // Marks the alarm as unregistered.
   1046   virtual void OnShutdown(EpollServer* eps);
   1047 
   1048   // If the alarm was registered, unregister it.
   1049   void UnregisterIfRegistered();
   1050 
   1051   bool registered() const { return registered_; }
   1052 
   1053   const EpollServer* eps() const { return eps_; }
   1054 
   1055  private:
   1056   EpollServer::AlarmRegToken token_;
   1057   EpollServer* eps_;
   1058   bool registered_;
   1059 };
   1060 
   1061 }  // namespace net
   1062 
   1063 #endif  // NET_TOOLS_FLIP_SERVER_EPOLL_SERVER_H_
   1064 
   1065