mirror of https://github.com/LeOS-GSI/LeOS-Genesis
573 lines
18 KiB
C
573 lines
18 KiB
C
/**
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* @file BReactor_badvpn.h
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* @author Ambroz Bizjak <ambrop7@gmail.com>
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*
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* @section LICENSE
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the author nor the
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* names of its contributors may be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
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* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* @section DESCRIPTION
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*
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* Event loop that supports file desciptor (Linux) or HANDLE (Windows) events
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* and timers.
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*/
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#ifndef BADVPN_SYSTEM_BREACTOR_H
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#define BADVPN_SYSTEM_BREACTOR_H
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#if (defined(BADVPN_USE_WINAPI) + defined(BADVPN_USE_EPOLL) + defined(BADVPN_USE_KEVENT) + defined(BADVPN_USE_POLL)) != 1
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#error Unknown event backend or too many event backends
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#endif
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#ifdef BADVPN_USE_WINAPI
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#include <windows.h>
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#endif
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#ifdef BADVPN_USE_EPOLL
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#include <sys/epoll.h>
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#endif
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#ifdef BADVPN_USE_KEVENT
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#include <sys/types.h>
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#include <sys/event.h>
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#include <sys/time.h>
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#endif
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#ifdef BADVPN_USE_POLL
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#include <poll.h>
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#endif
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#include <stdint.h>
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#include <misc/debug.h>
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#include <misc/debugcounter.h>
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#include <base/DebugObject.h>
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#include <structure/LinkedList1.h>
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#include <structure/CAvl.h>
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#include <system/BTime.h>
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#include <base/BPending.h>
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struct BSmallTimer_t;
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typedef struct BSmallTimer_t *BReactor_timerstree_link;
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#include "BReactor_badvpn_timerstree.h"
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#include <structure/CAvl_decl.h>
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#define BTIMER_SET_ABSOLUTE 1
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#define BTIMER_SET_RELATIVE 2
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/**
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* Handler function invoked when the timer expires.
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* The timer was in running state.
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* The timer enters not running state before this function is invoked.
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* This function is being called from within the timer's previosly
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* associated reactor.
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*
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* @param timer pointer to the timer. Use the {@link UPPER_OBJECT} macro
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* to obtain the pointer to the containing structure.
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*/
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typedef void (*BSmallTimer_handler) (struct BSmallTimer_t *timer);
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/**
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* Handler function invoked when the timer expires.
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* The timer was in running state.
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* The timer enters not running state before this function is invoked.
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* This function is being called from within the timer's previosly
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* associated reactor.
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*
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* @param user value passed to {@link BTimer_Init}
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*/
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typedef void (*BTimer_handler) (void *user);
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/**
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* Timer object used with {@link BReactor}.
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*/
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typedef struct BSmallTimer_t {
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union {
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BSmallTimer_handler smalll; // MSVC doesn't like "small"
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BTimer_handler heavy;
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} handler;
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union {
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LinkedList1Node list_node;
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struct BSmallTimer_t *tree_child[2];
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} u;
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struct BSmallTimer_t *tree_parent;
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btime_t absTime;
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int8_t tree_balance;
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uint8_t state;
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uint8_t is_small;
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} BSmallTimer;
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/**
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* Initializes the timer object.
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* The timer object is initialized in not running state.
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*
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* @param bt the object
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* @param handler handler function invoked when the timer expires
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*/
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void BSmallTimer_Init (BSmallTimer *bt, BSmallTimer_handler handler);
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/**
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* Checks if the timer is running.
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*
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* @param bt the object
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* @return 1 if running, 0 if not running
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*/
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int BSmallTimer_IsRunning (BSmallTimer *bt);
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/**
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* Timer object used with {@link BReactor}. This is a legacy wrapper
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* around {@link BSmallTimer} with an extra field for the default time.
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*/
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typedef struct {
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BSmallTimer base;
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void *user;
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btime_t msTime;
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} BTimer;
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/**
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* Initializes the timer object.
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* The timer object is initialized in not running state.
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*
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* @param bt the object
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* @param msTime default timeout in milliseconds
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* @param handler handler function invoked when the timer expires
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* @param user value to pass to the handler function
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*/
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void BTimer_Init (BTimer *bt, btime_t msTime, BTimer_handler handler, void *user);
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/**
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* Checks if the timer is running.
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*
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* @param bt the object
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* @return 1 if running, 0 if not running
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*/
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int BTimer_IsRunning (BTimer *bt);
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#ifndef BADVPN_USE_WINAPI
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struct BFileDescriptor_t;
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#define BREACTOR_READ (1 << 0)
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#define BREACTOR_WRITE (1 << 1)
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#define BREACTOR_ERROR (1 << 2)
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#define BREACTOR_HUP (1 << 3)
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/**
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* Handler function invoked by the reactor when one or more events are detected.
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* The events argument will contain a subset of the monitored events (BREACTOR_READ, BREACTOR_WRITE),
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* plus possibly the error event (BREACTOR_ERROR).
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* The file descriptor object is in active state, being called from within
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* the associated reactor.
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*
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* @param user value passed to {@link BFileDescriptor_Init}
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* @param events bitmask composed of a subset of monitored events (BREACTOR_READ, BREACTOR_WRITE),
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* and possibly the error event BREACTOR_ERROR and the hang-up event BREACTOR_HUP.
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* Will be nonzero.
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*/
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typedef void (*BFileDescriptor_handler) (void *user, int events);
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/**
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* File descriptor object used with {@link BReactor}.
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*/
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typedef struct BFileDescriptor_t {
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int fd;
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BFileDescriptor_handler handler;
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void *user;
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int active;
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int waitEvents;
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#ifdef BADVPN_USE_EPOLL
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struct BFileDescriptor_t **epoll_returned_ptr;
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#endif
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#ifdef BADVPN_USE_KEVENT
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int kevent_tag;
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int **kevent_returned_ptr;
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#endif
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#ifdef BADVPN_USE_POLL
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LinkedList1Node poll_enabled_fds_list_node;
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int poll_returned_index;
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#endif
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} BFileDescriptor;
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/**
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* Intializes the file descriptor object.
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* The object is initialized in not active state.
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*
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* @param bs file descriptor object to initialize
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* @param fb file descriptor to represent
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* @param handler handler function invoked by the reactor when a monitored event is detected
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* @param user value passed to the handler functuon
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*/
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void BFileDescriptor_Init (BFileDescriptor *bs, int fd, BFileDescriptor_handler handler, void *user);
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#endif
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// BReactor
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#define BSYSTEM_MAX_RESULTS 64
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#define BSYSTEM_MAX_HANDLES 64
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#define BSYSTEM_MAX_POLL_FDS 4096
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/**
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* Event loop that supports file desciptor (Linux) or HANDLE (Windows) events
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* and timers.
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*/
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typedef struct {
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int exiting;
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int exit_code;
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// jobs
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BPendingGroup pending_jobs;
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// timers
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BReactor__TimersTree timers_tree;
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LinkedList1 timers_expired_list;
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// limits
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LinkedList1 active_limits_list;
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#ifdef BADVPN_USE_WINAPI
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LinkedList1 iocp_list;
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HANDLE iocp_handle;
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LinkedList1 iocp_ready_list;
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#endif
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#ifdef BADVPN_USE_EPOLL
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int efd; // epoll fd
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struct epoll_event epoll_results[BSYSTEM_MAX_RESULTS]; // epoll returned events buffer
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int epoll_results_num; // number of events in the array
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int epoll_results_pos; // number of events processed so far
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#endif
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#ifdef BADVPN_USE_KEVENT
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int kqueue_fd;
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struct kevent kevent_results[BSYSTEM_MAX_RESULTS];
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int kevent_results_num;
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int kevent_results_pos;
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#endif
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#ifdef BADVPN_USE_POLL
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LinkedList1 poll_enabled_fds_list;
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int poll_num_enabled_fds;
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int poll_results_num;
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int poll_results_pos;
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struct pollfd *poll_results_pollfds;
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BFileDescriptor **poll_results_bfds;
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#endif
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DebugObject d_obj;
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#ifndef BADVPN_USE_WINAPI
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DebugCounter d_fds_counter;
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#endif
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#ifdef BADVPN_USE_KEVENT
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DebugCounter d_kevent_ctr;
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#endif
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DebugCounter d_limits_ctr;
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} BReactor;
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/**
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* Initializes the reactor.
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* {@link BLog_Init} must have been done.
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* {@link BTime_Init} must have been done.
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*
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* @param bsys the object
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* @return 1 on success, 0 on failure
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*/
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int BReactor_Init (BReactor *bsys) WARN_UNUSED;
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/**
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* Frees the reactor.
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* Must not be called from within the event loop ({@link BReactor_Exec}).
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* There must be no {@link BPending} or {@link BSmallPending} objects using the
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* pending group returned by {@link BReactor_PendingGroup}.
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* There must be no running timers in this reactor.
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* There must be no limit objects in this reactor.
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* There must be no file descriptors or handles registered
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* with this reactor.
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* There must be no {@link BReactorKEvent} objects in this reactor.
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*
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* @param bsys the object
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*/
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void BReactor_Free (BReactor *bsys);
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/**
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* Runs the event loop.
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*
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* @param bsys the object
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* @return value passed to {@link BReactor_Quit}
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*/
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int BReactor_Exec (BReactor *bsys);
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/**
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* Causes the event loop ({@link BReactor_Exec}) to cease
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* dispatching events and return.
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* Any further calls of {@link BReactor_Exec} will return immediately.
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*
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* @param bsys the object
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* @param code value {@link BReactor_Exec} should return. If this is
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* called more than once, it will return the last code.
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*/
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void BReactor_Quit (BReactor *bsys, int code);
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/**
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* Starts a timer to expire at the specified time.
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* The timer must have been initialized with {@link BSmallTimer_Init}.
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* If the timer is in running state, it must be associated with this reactor.
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* The timer enters running state, associated with this reactor.
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*
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* @param bsys the object
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* @param bt timer to start
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* @param mode interpretation of time (BTIMER_SET_ABSOLUTE or BTIMER_SET_RELATIVE)
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* @param time absolute or relative expiration time
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*/
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void BReactor_SetSmallTimer (BReactor *bsys, BSmallTimer *bt, int mode, btime_t time);
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/**
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* Stops a timer.
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* If the timer is in running state, it must be associated with this reactor.
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* The timer enters not running state.
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*
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* @param bsys the object
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* @param bt timer to stop
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*/
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void BReactor_RemoveSmallTimer (BReactor *bsys, BSmallTimer *bt);
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/**
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* Starts a timer to expire after its default time.
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* The timer must have been initialized with {@link BTimer_Init}.
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* If the timer is in running state, it must be associated with this reactor.
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* The timer enters running state, associated with this reactor.
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*
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* @param bsys the object
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* @param bt timer to start
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*/
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void BReactor_SetTimer (BReactor *bsys, BTimer *bt);
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/**
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* Starts a timer to expire after a given time.
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* The timer must have been initialized with {@link BTimer_Init}.
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* If the timer is in running state, it must be associated with this reactor.
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* The timer enters running state, associated with this reactor.
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*
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* @param bsys the object
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* @param bt timer to start
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* @param after relative expiration time
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*/
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void BReactor_SetTimerAfter (BReactor *bsys, BTimer *bt, btime_t after);
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/**
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* Starts a timer to expire at the specified time.
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* The timer must have been initialized with {@link BTimer_Init}.
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* If the timer is in running state, it must be associated with this reactor.
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* The timer enters running state, associated with this reactor.
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* The timer's expiration time is set to the time argument.
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*
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* @param bsys the object
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* @param bt timer to start
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* @param time absolute expiration time (according to {@link btime_gettime})
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*/
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void BReactor_SetTimerAbsolute (BReactor *bsys, BTimer *bt, btime_t time);
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/**
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* Stops a timer.
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* If the timer is in running state, it must be associated with this reactor.
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* The timer enters not running state.
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*
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* @param bsys the object
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* @param bt timer to stop
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*/
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void BReactor_RemoveTimer (BReactor *bsys, BTimer *bt);
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/**
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* Returns a {@link BPendingGroup} object that can be used to schedule jobs for
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* the reactor to execute. These jobs have complete priority over other events
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* (timers, file descriptors and Windows handles).
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* The returned pending group may only be used as an argument to {@link BPending_Init},
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* and must not be accessed by other means.
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* All {@link BPending} and {@link BSmallPending} objects using this group must be
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* freed before freeing the reactor.
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*
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* @param bsys the object
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* @return pending group for scheduling jobs for the reactor to execute
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*/
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BPendingGroup * BReactor_PendingGroup (BReactor *bsys);
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/**
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* Executes pending jobs until either:
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* - the reference job is reached, or
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* - {@link BReactor_Quit} is called.
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* The reference job must be reached before the job list empties.
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* The reference job will not be executed.
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*
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* WARNING: Use with care. This should only be used to to work around third-party software
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* that does not integrade into the jobs system. In particular, you should think about:
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* - the effects the jobs to be executed may have, and
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* - the environment those jobs expect to be executed in.
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*
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* @param bsys the object
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* @param ref reference job. It is not accessed in any way, only its address is compared to
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* pending jobs before they are executed.
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* @return 1 if the reference job was reached,
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* 0 if {@link BReactor_Quit} was called (either while executing a job, or before)
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*/
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int BReactor_Synchronize (BReactor *bsys, BSmallPending *ref);
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#ifndef BADVPN_USE_WINAPI
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/**
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* Starts monitoring a file descriptor.
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*
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* @param bsys the object
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* @param bs file descriptor object. Must have been initialized with
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* {@link BFileDescriptor_Init} Must be in not active state.
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* On success, the file descriptor object enters active state,
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* associated with this reactor.
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* @return 1 on success, 0 on failure
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*/
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int BReactor_AddFileDescriptor (BReactor *bsys, BFileDescriptor *bs) WARN_UNUSED;
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/**
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* Stops monitoring a file descriptor.
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*
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* @param bsys the object
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* @param bs {@link BFileDescriptor} object. Must be in active state,
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* associated with this reactor. The file descriptor object
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* enters not active state.
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*/
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void BReactor_RemoveFileDescriptor (BReactor *bsys, BFileDescriptor *bs);
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/**
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* Sets monitored file descriptor events.
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*
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* @param bsys the object
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* @param bs {@link BFileDescriptor} object. Must be in active state,
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* associated with this reactor.
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* @param events events to watch for. Must not have any bits other than
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* BREACTOR_READ and BREACTOR_WRITE.
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* This overrides previosly monitored events.
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*/
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void BReactor_SetFileDescriptorEvents (BReactor *bsys, BFileDescriptor *bs, int events);
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#endif
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typedef struct {
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BReactor *reactor;
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int limit;
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int count;
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LinkedList1Node active_limits_list_node;
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DebugObject d_obj;
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} BReactorLimit;
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/**
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* Initializes a limit object.
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* A limit object consists of a counter integer, which is initialized to
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* zero, is incremented by {@link BReactorLimit_Increment} up to \a limit,
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* and is reset to zero every time the event loop performs a wait.
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* If the event loop has processed all detected events, and before performing
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* a wait, it determines that timers have expired, the counter will not be reset.
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*
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* @param o the object
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* @param reactor reactor the object is tied to
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* @param limit maximum counter value. Must be >0.
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*/
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void BReactorLimit_Init (BReactorLimit *o, BReactor *reactor, int limit);
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/**
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* Frees a limit object.
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*
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* @param o the object
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*/
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void BReactorLimit_Free (BReactorLimit *o);
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/**
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* Attempts to increment the counter of a limit object.
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*
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* @param o the object
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* @return 1 if the counter was lesser than the limit and was incremented,
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* 0 if the counter was greater or equal to the limit and could not be
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* incremented
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*/
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int BReactorLimit_Increment (BReactorLimit *o);
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/**
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* Sets the limit of a limit object.
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*
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* @param o the object
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* @param limit new limit. Must be >0.
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*/
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void BReactorLimit_SetLimit (BReactorLimit *o, int limit);
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#ifdef BADVPN_USE_KEVENT
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typedef void (*BReactorKEvent_handler) (void *user, u_int fflags, intptr_t data);
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typedef struct {
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BReactor *reactor;
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BReactorKEvent_handler handler;
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void *user;
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uintptr_t ident;
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short filter;
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int kevent_tag;
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int **kevent_returned_ptr;
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DebugObject d_obj;
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} BReactorKEvent;
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int BReactorKEvent_Init (BReactorKEvent *o, BReactor *reactor, BReactorKEvent_handler handler, void *user, uintptr_t ident, short filter, u_int fflags, intptr_t data);
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void BReactorKEvent_Free (BReactorKEvent *o);
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#endif
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#ifdef BADVPN_USE_WINAPI
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#define BREACTOR_IOCP_EVENT_SUCCEEDED 1
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#define BREACTOR_IOCP_EVENT_FAILED 2
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#define BREACTOR_IOCP_EVENT_EXITING 3
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typedef void (*BReactorIOCPOverlapped_handler) (void *user, int event, DWORD bytes);
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typedef struct {
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OVERLAPPED olap;
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BReactor *reactor;
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void *user;
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BReactorIOCPOverlapped_handler handler;
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LinkedList1Node iocp_list_node;
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int is_ready;
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LinkedList1Node ready_list_node;
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int ready_succeeded;
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DWORD ready_bytes;
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DebugObject d_obj;
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} BReactorIOCPOverlapped;
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HANDLE BReactor_GetIOCPHandle (BReactor *reactor);
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void BReactorIOCPOverlapped_Init (BReactorIOCPOverlapped *o, BReactor *reactor, void *user, BReactorIOCPOverlapped_handler handler);
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void BReactorIOCPOverlapped_Free (BReactorIOCPOverlapped *o);
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void BReactorIOCPOverlapped_Wait (BReactorIOCPOverlapped *o, int *out_succeeded, DWORD *out_bytes);
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#endif
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#endif
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