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view src/event/ngx_event.h @ 328:fb4dfb2ac0fc
nginx-0.0.3-2004-04-28-10:14:50 import
| author | Igor Sysoev <igor@sysoev.ru> |
|---|---|
| date | Wed, 28 Apr 2004 06:14:50 +0000 |
| parents | ba876b26b76d |
| children | 55e496a8ece3 |
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#ifndef _NGX_EVENT_H_INCLUDED_ #define _NGX_EVENT_H_INCLUDED_ #include <ngx_config.h> #include <ngx_core.h> typedef void (*ngx_event_handler_pt)(ngx_event_t *ev); #define NGX_INVALID_INDEX 0xd0d0d0d0 #if (HAVE_IOCP) typedef struct { WSAOVERLAPPED ovlp; ngx_event_t *event; int error; } ngx_event_ovlp_t; #endif typedef struct { ngx_uint_t lock; ngx_event_t *events; ngx_event_t *last; } ngx_event_mutex_t; struct ngx_event_s { void *data; /* TODO rename to handler */ ngx_event_handler_pt event_handler; u_int index; /* the link of the posted queue or the event mutecies queues */ ngx_event_t *next; ngx_log_t *log; /* * The inline of "ngx_rbtree_t rbtree;". * * It allows to pack the rbtree_color and the various event bit flags into * the single "int". We also use "unsigned char" and then "unsigned short" * because otherwise MSVC 6.0 uses an additional "int" for the bit flags. * We use "char rbtree_color" instead of "unsigned int rbtree_color:1" * because it preserves the bits order on the big endian platforms. */ ngx_int_t rbtree_key; void *rbtree_left; void *rbtree_right; void *rbtree_parent; char rbtree_color; unsigned char oneshot:1; unsigned char write:1; /* used to detect the stale events in kqueue, rt signals and epoll */ unsigned char use_instance:1; unsigned char instance:1; unsigned char returned_instance:1; /* * the event was passed or would be passed to a kernel; * in aio mode - operation was posted. */ unsigned char active:1; unsigned char disabled:1; unsigned char posted:1; /* the ready event; in aio mode 0 means that no operation can be posted */ unsigned short ready:1; /* aio operation is complete */ unsigned short complete:1; unsigned short eof:1; unsigned short error:1; unsigned short timedout:1; unsigned short timer_set:1; unsigned short delayed:1; unsigned short read_discarded:1; unsigned short unexpected_eof:1; unsigned short accept:1; unsigned short deferred_accept:1; /* TODO: aio_eof and kq_eof can be the single pending_eof */ /* the pending eof in aio chain operation */ unsigned short aio_eof:1; /* the pending eof reported by kqueue */ unsigned short kq_eof:1; #if (WIN32) /* setsockopt(SO_UPDATE_ACCEPT_CONTEXT) was succesfull */ unsigned short accept_context_updated:1; #endif #if (HAVE_KQUEUE) unsigned short kq_vnode:1; /* the pending errno reported by kqueue */ int kq_errno; #endif /* * kqueue only: * accept: number of sockets that wait to be accepted * read: bytes to read when event is ready * or lowat when event is set with NGX_LOWAT_EVENT flag * write: available space in buffer when event is ready * or lowat when event is set with NGX_LOWAT_EVENT flag * * iocp: TODO * * otherwise: * accept: 1 if accept many, 0 otherwise */ #if (HAVE_KQUEUE) || (HAVE_IOCP) int available; #else unsigned short available:1; #endif #if (HAVE_AIO) #if (HAVE_IOCP) ngx_event_ovlp_t ovlp; #else struct aiocb aiocb; #endif #endif #if 0 /* the threads support */ /* * the event thread context, we store it here * if $(CC) does not understand __thread declaration * and pthread_getspecific() is too costly */ void *thr_ctx; #if (NGX_EVENT_T_PADDING) /* event should not cross cache line in SMP */ int padding[NGX_EVENT_T_PADDING]; #endif #endif }; typedef struct { int (*add)(ngx_event_t *ev, int event, u_int flags); int (*del)(ngx_event_t *ev, int event, u_int flags); int (*enable)(ngx_event_t *ev, int event, u_int flags); int (*disable)(ngx_event_t *ev, int event, u_int flags); int (*add_conn)(ngx_connection_t *c); int (*del_conn)(ngx_connection_t *c, u_int flags); int (*process)(ngx_cycle_t *cycle); int (*init)(ngx_cycle_t *cycle); void (*done)(ngx_cycle_t *cycle); } ngx_event_actions_t; extern ngx_event_actions_t ngx_event_actions; /* * The event filter requires to read/write the whole data - * select, poll, /dev/poll, kqueue, epoll. */ #define NGX_USE_LEVEL_EVENT 0x00000001 /* * The event filter is deleted after a notification without an additional * syscall - select, poll, kqueue, epoll. */ #define NGX_USE_ONESHOT_EVENT 0x00000002 /* * The event filter notifies only the changes and an initial level - * kqueue, epoll. */ #define NGX_USE_CLEAR_EVENT 0x00000004 /* * The event filter has kqueue features - the eof flag, errno, * available data, etc. */ #define NGX_HAVE_KQUEUE_EVENT 0x00000008 /* * The event filter supports low water mark - kqueue's NOTE_LOWAT. * kqueue in FreeBSD 4.1-4.2 has no NOTE_LOWAT so we need a separate flag. */ #define NGX_HAVE_LOWAT_EVENT 0x00000010 /* * The event filter allows to pass instance information to check stale events - * kqueue, epoll, rt signals. */ #define NGX_HAVE_INSTANCE_EVENT 0x00000020 /* * The event filter requires to do i/o operation until EAGAIN - * epoll, rt signals. */ #define NGX_HAVE_GREEDY_EVENT 0x00000040 /* * The event filter notifies only the changes (the edges) * but not an initial level - early epoll patches. */ #define NGX_USE_EDGE_EVENT 0x00000080 /* * No need to add or delete the event filters - rt signals. */ #define NGX_USE_SIGIO_EVENT 0x00000100 /* * The alternative event method after the rt signals queue overflow. */ #define NGX_OVERFLOW_EVENT 0x00000200 /* * No need to add or delete the event filters - overlapped, aio_read, * aioread, io_submit. */ #define NGX_USE_AIO_EVENT 0x00000400 /* * Need to add socket or handle only once - i/o completion port. * It also requires HAVE_AIO and NGX_USE_AIO_EVENT to be set. */ #define NGX_USE_IOCP_EVENT 0x00000800 /* * The event filter is deleted before the closing file. * Has no meaning for select, poll, epoll. * * kqueue: kqueue deletes event filters for file that closed * so we need only to delete filters in user-level batch array * /dev/poll: we need to flush POLLREMOVE event before closing file */ #define NGX_CLOSE_EVENT 1 /* these flags have a meaning only for kqueue */ #define NGX_LOWAT_EVENT 0 #define NGX_DISABLE_EVENT 0 #define NGX_VNODE_EVENT 0 #if (HAVE_KQUEUE) #define NGX_READ_EVENT EVFILT_READ #define NGX_WRITE_EVENT EVFILT_WRITE #undef NGX_VNODE_EVENT #define NGX_VNODE_EVENT EVFILT_VNODE /* * NGX_CLOSE_EVENT and NGX_LOWAT_EVENT are the module flags and they would * not go into a kernel so we need to choose the value that would not interfere * with any existent and future kqueue flags. kqueue has such values - * EV_FLAG1, EV_EOF and EV_ERROR. They are reserved and cleared on a kernel * entrance. */ #undef NGX_CLOSE_EVENT #define NGX_CLOSE_EVENT EV_EOF #undef NGX_LOWAT_EVENT #define NGX_LOWAT_EVENT EV_FLAG1 #define NGX_LEVEL_EVENT 0 #define NGX_ONESHOT_EVENT EV_ONESHOT #define NGX_CLEAR_EVENT EV_CLEAR #undef NGX_DISABLE_EVENT #define NGX_DISABLE_EVENT EV_DISABLE #elif (HAVE_DEVPOLL) #define NGX_READ_EVENT POLLIN #define NGX_WRITE_EVENT POLLOUT #define NGX_LEVEL_EVENT 0 #define NGX_ONESHOT_EVENT 1 #elif (HAVE_EPOLL) #define NGX_READ_EVENT EPOLLIN #define NGX_WRITE_EVENT EPOLLOUT #define NGX_LEVEL_EVENT 0 #define NGX_CLEAR_EVENT EPOLLET #define NGX_ONESHOT_EVENT 0x70000000 #if 0 #define NGX_ONESHOT_EVENT EPOLLONESHOT #endif #elif (HAVE_POLL) #define NGX_READ_EVENT POLLIN #define NGX_WRITE_EVENT POLLOUT #define NGX_LEVEL_EVENT 0 #define NGX_ONESHOT_EVENT 1 #else /* select */ #define NGX_READ_EVENT 0 #define NGX_WRITE_EVENT 1 #define NGX_LEVEL_EVENT 0 #define NGX_ONESHOT_EVENT 1 #endif /* HAVE_KQUEUE */ #if (HAVE_IOCP) #define NGX_IOCP_ACCEPT 0 #define NGX_IOCP_IO 1 #define NGX_IOCP_CONNECT 2 #endif #ifndef NGX_CLEAR_EVENT #define NGX_CLEAR_EVENT 0 /* dummy declaration */ #endif #define ngx_process_events ngx_event_actions.process #define ngx_add_event ngx_event_actions.add #define ngx_del_event ngx_event_actions.del #define ngx_add_conn ngx_event_actions.add_conn #define ngx_del_conn ngx_event_actions.del_conn #define ngx_add_timer ngx_event_add_timer #define ngx_del_timer ngx_event_del_timer #define ngx_recv ngx_io.recv #define ngx_recv_chain ngx_io.recv_chain #define ngx_write_chain ngx_io.send_chain #define NGX_EVENT_MODULE 0x544E5645 /* "EVNT" */ #define NGX_EVENT_CONF 0x00200000 typedef struct { ngx_uint_t connections; ngx_int_t use; ngx_flag_t multi_accept; ngx_flag_t accept_mutex; ngx_msec_t accept_mutex_delay; u_char *name; #if (NGX_DEBUG) ngx_array_t debug_connection; #endif } ngx_event_conf_t; typedef struct { ngx_str_t *name; void *(*create_conf)(ngx_cycle_t *cycle); char *(*init_conf)(ngx_cycle_t *cycle, void *conf); ngx_event_actions_t actions; } ngx_event_module_t; extern ngx_atomic_t *ngx_connection_counter; extern ngx_atomic_t *ngx_accept_mutex_ptr; extern ngx_atomic_t *ngx_accept_mutex; extern ngx_uint_t ngx_accept_mutex_held; extern ngx_msec_t ngx_accept_mutex_delay; extern ngx_int_t ngx_accept_disabled; #define ngx_accept_mutex_unlock() \ if (ngx_accept_mutex_held) { \ *ngx_accept_mutex = 0; \ } extern ngx_uint_t ngx_event_flags; extern ngx_module_t ngx_events_module; extern ngx_module_t ngx_event_core_module; #define ngx_event_get_conf(conf_ctx, module) \ (*(ngx_get_conf(conf_ctx, ngx_events_module))) [module.ctx_index]; void ngx_event_accept(ngx_event_t *ev); ngx_int_t ngx_trylock_accept_mutex(ngx_cycle_t *cycle); ngx_int_t ngx_disable_accept_events(ngx_cycle_t *cycle); ngx_int_t ngx_enable_accept_events(ngx_cycle_t *cycle); #if (WIN32) void ngx_event_acceptex(ngx_event_t *ev); int ngx_event_post_acceptex(ngx_listening_t *ls, int n); #endif /* used in ngx_log_debugX() */ #define ngx_event_ident(p) ((ngx_connection_t *) (p))->fd #include <ngx_event_timer.h> #include <ngx_event_posted.h> #include <ngx_event_busy_lock.h> #if (WIN32) #include <ngx_iocp_module.h> #endif ngx_inline static int ngx_handle_read_event(ngx_event_t *rev, u_int flags) { if (ngx_event_flags & NGX_USE_CLEAR_EVENT) { /* kqueue */ if (!rev->active && !rev->ready) { if (ngx_add_event(rev, NGX_READ_EVENT, NGX_CLEAR_EVENT) == NGX_ERROR) { return NGX_ERROR; } } return NGX_OK; } else if (ngx_event_flags & NGX_USE_LEVEL_EVENT) { /* select, poll, /dev/poll */ if (!rev->active && !rev->ready) { if (ngx_add_event(rev, NGX_READ_EVENT, NGX_LEVEL_EVENT) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } if (rev->active && (rev->ready || (flags & NGX_CLOSE_EVENT))) { if (ngx_del_event(rev, NGX_READ_EVENT, flags) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } } /* aio, iocp, epoll, rt signals */ return NGX_OK; } ngx_inline static int ngx_handle_level_read_event(ngx_event_t *rev) { if (ngx_event_flags & NGX_USE_LEVEL_EVENT) { if (!rev->active && !rev->ready) { if (ngx_add_event(rev, NGX_READ_EVENT, NGX_LEVEL_EVENT) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } if (rev->active && rev->ready) { if (ngx_del_event(rev, NGX_READ_EVENT, 0) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } } return NGX_OK; } ngx_inline static int ngx_handle_write_event(ngx_event_t *wev, u_int flags) { if (ngx_event_flags & NGX_USE_CLEAR_EVENT) { /* kqueue */ if (!wev->active && !wev->ready) { if (ngx_add_event(wev, NGX_WRITE_EVENT, NGX_CLEAR_EVENT|flags) == NGX_ERROR) { return NGX_ERROR; } } return NGX_OK; } else if (ngx_event_flags & NGX_USE_LEVEL_EVENT) { /* select, poll, /dev/poll */ if (!wev->active && !wev->ready) { if (ngx_add_event(wev, NGX_WRITE_EVENT, NGX_LEVEL_EVENT) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } if (wev->active && wev->ready) { if (ngx_del_event(wev, NGX_WRITE_EVENT, 0) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } } /* aio, iocp, epoll, rt signals */ return NGX_OK; } ngx_inline static int ngx_handle_level_write_event(ngx_event_t *wev) { if (ngx_event_flags & NGX_USE_LEVEL_EVENT) { if (!wev->active && !wev->ready) { if (ngx_add_event(wev, NGX_WRITE_EVENT, NGX_LEVEL_EVENT) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } if (wev->active && wev->ready) { if (ngx_del_event(wev, NGX_WRITE_EVENT, 0) == NGX_ERROR) { return NGX_ERROR; } return NGX_OK; } } return NGX_OK; } #endif /* _NGX_EVENT_H_INCLUDED_ */