/* * Server-side async I/O support * * Copyright (C) 2007 Alexandre Julliard * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winternl.h" #include "object.h" #include "file.h" #include "request.h" #include "process.h" #include "handle.h" struct async { struct object obj; /* object header */ struct thread *thread; /* owning thread */ struct list queue_entry; /* entry in async queue list */ struct list process_entry; /* entry in process list */ struct async_queue *queue; /* queue containing this async */ struct fd *fd; /* fd associated with an unqueued async */ unsigned int status; /* current status */ struct timeout_user *timeout; unsigned int timeout_status; /* status to report upon timeout */ struct event *event; async_data_t data; /* data for async I/O call */ struct iosb *iosb; /* I/O status block */ obj_handle_t wait_handle; /* pre-allocated wait handle */ unsigned int signaled :1; unsigned int pending :1; /* request successfully queued, but pending */ unsigned int direct_result :1;/* a flag if we're passing result directly from request instead of APC */ struct completion *completion; /* completion associated with fd */ apc_param_t comp_key; /* completion key associated with fd */ unsigned int comp_flags; /* completion flags */ async_completion_callback completion_callback; /* callback to be called on completion */ void *completion_callback_private; /* argument to completion_callback */ }; static void async_dump( struct object *obj, int verbose ); static int async_signaled( struct object *obj, struct wait_queue_entry *entry ); static void async_satisfied( struct object * obj, struct wait_queue_entry *entry ); static void async_destroy( struct object *obj ); static const struct object_ops async_ops = { sizeof(struct async), /* size */ &no_type, /* type */ async_dump, /* dump */ add_queue, /* add_queue */ remove_queue, /* remove_queue */ async_signaled, /* signaled */ async_satisfied, /* satisfied */ no_signal, /* signal */ no_get_fd, /* get_fd */ default_map_access, /* map_access */ default_get_sd, /* get_sd */ default_set_sd, /* set_sd */ no_get_full_name, /* get_full_name */ no_lookup_name, /* lookup_name */ no_link_name, /* link_name */ NULL, /* unlink_name */ no_open_file, /* open_file */ no_kernel_obj_list, /* get_kernel_obj_list */ no_close_handle, /* close_handle */ async_destroy /* destroy */ }; static inline void async_reselect( struct async *async ) { if (async->queue && async->fd) fd_reselect_async( async->fd, async->queue ); } static void async_dump( struct object *obj, int verbose ) { struct async *async = (struct async *)obj; assert( obj->ops == &async_ops ); fprintf( stderr, "Async thread=%p\n", async->thread ); } static int async_signaled( struct object *obj, struct wait_queue_entry *entry ) { struct async *async = (struct async *)obj; assert( obj->ops == &async_ops ); return async->signaled; } static void async_satisfied( struct object *obj, struct wait_queue_entry *entry ) { struct async *async = (struct async *)obj; assert( obj->ops == &async_ops ); if (async->direct_result) { async_set_result( &async->obj, async->iosb->status, async->iosb->result ); async->direct_result = 0; } set_wait_status( entry, async->status ); /* close wait handle here to avoid extra server round trip */ if (async->wait_handle) { close_handle( async->thread->process, async->wait_handle ); async->wait_handle = 0; } } static void async_destroy( struct object *obj ) { struct async *async = (struct async *)obj; assert( obj->ops == &async_ops ); list_remove( &async->process_entry ); if (async->queue) { list_remove( &async->queue_entry ); async_reselect( async ); } else if (async->fd) release_object( async->fd ); if (async->timeout) remove_timeout_user( async->timeout ); if (async->completion) release_object( async->completion ); if (async->event) release_object( async->event ); if (async->iosb) release_object( async->iosb ); release_object( async->thread ); } /* notifies client thread of new status of its async request */ void async_terminate( struct async *async, unsigned int status ) { assert( status != STATUS_PENDING ); if (async->status != STATUS_PENDING) return; /* already terminated */ async->status = status; if (async->iosb && async->iosb->status == STATUS_PENDING) async->iosb->status = status; /* if no APC could be queued (e.g. the process is terminated), * thread_queue_apc() may trigger async_set_result(), which may drop the * last reference to the async, so grab a temporary reference here */ grab_object( async ); if (!async->direct_result) { apc_call_t data; memset( &data, 0, sizeof(data) ); data.type = APC_ASYNC_IO; data.async_io.user = async->data.user; data.async_io.sb = async->data.iosb; data.async_io.status = status; thread_queue_apc( async->thread->process, async->thread, &async->obj, &data ); } async_reselect( async ); release_object( async ); } /* callback for timeout on an async request */ static void async_timeout( void *private ) { struct async *async = private; async->timeout = NULL; async_terminate( async, async->timeout_status ); } /* free an async queue, cancelling all async operations */ void free_async_queue( struct async_queue *queue ) { struct async *async, *next; LIST_FOR_EACH_ENTRY_SAFE( async, next, &queue->queue, struct async, queue_entry ) { if (!async->completion) async->completion = fd_get_completion( async->fd, &async->comp_key ); async->fd = NULL; async_terminate( async, STATUS_HANDLES_CLOSED ); async->queue = NULL; release_object( &async->obj ); } } void queue_async( struct async_queue *queue, struct async *async ) { /* fd will be set to NULL in free_async_queue when fd is destroyed */ release_object( async->fd ); async->queue = queue; grab_object( async ); list_add_tail( &queue->queue, &async->queue_entry ); set_fd_signaled( async->fd, 0 ); } /* create an async on a given queue of a fd */ struct async *create_async( struct fd *fd, struct thread *thread, const async_data_t *data, struct iosb *iosb ) { struct event *event = NULL; struct async *async; if (data->event && !(event = get_event_obj( thread->process, data->event, EVENT_MODIFY_STATE ))) return NULL; if (!(async = alloc_object( &async_ops ))) { if (event) release_object( event ); return NULL; } async->thread = (struct thread *)grab_object( thread ); async->event = event; async->status = STATUS_PENDING; async->data = *data; async->timeout = NULL; async->queue = NULL; async->fd = (struct fd *)grab_object( fd ); async->signaled = 0; async->pending = 1; async->wait_handle = 0; async->direct_result = 0; async->completion = fd_get_completion( fd, &async->comp_key ); async->comp_flags = 0; async->completion_callback = NULL; async->completion_callback_private = NULL; if (iosb) async->iosb = (struct iosb *)grab_object( iosb ); else async->iosb = NULL; list_add_head( &thread->process->asyncs, &async->process_entry ); if (event) reset_event( event ); if (async->completion && data->apc) { release_object( async ); set_error( STATUS_INVALID_PARAMETER ); return NULL; } return async; } void set_async_pending( struct async *async, int signal ) { if (async->status == STATUS_PENDING) { async->pending = 1; if (signal && !async->signaled) { async->signaled = 1; wake_up( &async->obj, 0 ); } } } /* create an async associated with iosb for async-based requests * returned async must be passed to async_handoff */ struct async *create_request_async( struct fd *fd, unsigned int comp_flags, const async_data_t *data ) { struct async *async; struct iosb *iosb; if (!(iosb = create_iosb( get_req_data(), get_req_data_size(), get_reply_max_size() ))) return NULL; async = create_async( fd, current, data, iosb ); release_object( iosb ); if (async) { if (!(async->wait_handle = alloc_handle( current->process, async, SYNCHRONIZE, 0 ))) { release_object( async ); return NULL; } async->pending = 0; async->direct_result = 1; async->comp_flags = comp_flags; } return async; } /* return async object status and wait handle to client */ obj_handle_t async_handoff( struct async *async, int success, data_size_t *result, int force_blocking ) { if (!success) { if (get_error() == STATUS_PENDING) { /* we don't know the result yet, so client needs to wait */ async->direct_result = 0; return async->wait_handle; } close_handle( async->thread->process, async->wait_handle ); async->wait_handle = 0; return 0; } if (get_error() != STATUS_PENDING) { /* status and data are already set and returned */ async_terminate( async, get_error() ); } else if (async->iosb->status != STATUS_PENDING) { /* result is already available in iosb, return it */ if (async->iosb->out_data) { set_reply_data_ptr( async->iosb->out_data, async->iosb->out_size ); async->iosb->out_data = NULL; } } if (async->iosb->status != STATUS_PENDING) { if (result) *result = async->iosb->result; async->signaled = 1; } else { async->direct_result = 0; async->pending = 1; if (!force_blocking && async->fd && is_fd_overlapped( async->fd )) { close_handle( async->thread->process, async->wait_handle); async->wait_handle = 0; } } set_error( async->iosb->status ); return async->wait_handle; } /* set the timeout of an async operation */ void async_set_timeout( struct async *async, timeout_t timeout, unsigned int status ) { if (async->timeout) remove_timeout_user( async->timeout ); if (timeout != TIMEOUT_INFINITE) async->timeout = add_timeout_user( timeout, async_timeout, async ); else async->timeout = NULL; async->timeout_status = status; } /* set a callback to be notified when the async is completed */ void async_set_completion_callback( struct async *async, async_completion_callback func, void *private ) { async->completion_callback = func; async->completion_callback_private = private; } static void add_async_completion( struct async *async, apc_param_t cvalue, unsigned int status, apc_param_t information ) { if (async->fd && !async->completion) async->completion = fd_get_completion( async->fd, &async->comp_key ); if (async->completion) add_completion( async->completion, async->comp_key, cvalue, status, information ); } /* store the result of the client-side async callback */ void async_set_result( struct object *obj, unsigned int status, apc_param_t total ) { struct async *async = (struct async *)obj; if (obj->ops != &async_ops) return; /* in case the client messed up the APC results */ assert( async->status != STATUS_PENDING ); /* it must have been woken up if we get a result */ if (status == STATUS_PENDING) /* restart it */ { status = async->status; async->status = STATUS_PENDING; if (status != STATUS_ALERTED) /* it was terminated in the meantime */ async_terminate( async, status ); else async_reselect( async ); } else { if (async->timeout) remove_timeout_user( async->timeout ); async->timeout = NULL; async->status = status; if (async->data.apc) { apc_call_t data; memset( &data, 0, sizeof(data) ); data.type = APC_USER; data.user.func = async->data.apc; data.user.args[0] = async->data.apc_context; data.user.args[1] = async->data.iosb; data.user.args[2] = 0; thread_queue_apc( NULL, async->thread, NULL, &data ); } else if (async->data.apc_context && (async->pending || !(async->comp_flags & FILE_SKIP_COMPLETION_PORT_ON_SUCCESS))) { add_async_completion( async, async->data.apc_context, status, total ); } if (async->event) set_event( async->event ); else if (async->fd) set_fd_signaled( async->fd, 1 ); if (!async->signaled) { async->signaled = 1; wake_up( &async->obj, 0 ); } if (async->completion_callback) async->completion_callback( async->completion_callback_private ); async->completion_callback = NULL; async_reselect( async ); if (async->queue) { async->fd = NULL; list_remove( &async->queue_entry ); async->queue = NULL; release_object( async ); } } } /* check if an async operation is waiting to be alerted */ int async_waiting( struct async_queue *queue ) { struct list *ptr; struct async *async; if (!(ptr = list_head( &queue->queue ))) return 0; async = LIST_ENTRY( ptr, struct async, queue_entry ); return async->status == STATUS_PENDING; } static int cancel_async( struct process *process, struct object *obj, struct thread *thread, client_ptr_t iosb ) { struct async *async; int woken = 0; restart: LIST_FOR_EACH_ENTRY( async, &process->asyncs, struct async, process_entry ) { if (async->status != STATUS_PENDING) continue; if ((!obj || (get_fd_user( async->fd ) == obj)) && (!thread || async->thread == thread) && (!iosb || async->data.iosb == iosb)) { async_terminate( async, STATUS_CANCELLED ); woken++; goto restart; } } return woken; } void cancel_process_asyncs( struct process *process ) { cancel_async( process, NULL, NULL, 0 ); } /* wake up async operations on the queue */ void async_wake_up( struct async_queue *queue, unsigned int status ) { struct list *ptr, *next; LIST_FOR_EACH_SAFE( ptr, next, &queue->queue ) { struct async *async = LIST_ENTRY( ptr, struct async, queue_entry ); async_terminate( async, status ); if (status == STATUS_ALERTED) break; /* only wake up the first one */ } } static void iosb_dump( struct object *obj, int verbose ); static void iosb_destroy( struct object *obj ); static const struct object_ops iosb_ops = { sizeof(struct iosb), /* size */ &no_type, /* type */ iosb_dump, /* dump */ no_add_queue, /* add_queue */ NULL, /* remove_queue */ NULL, /* signaled */ NULL, /* satisfied */ no_signal, /* signal */ no_get_fd, /* get_fd */ default_map_access, /* map_access */ default_get_sd, /* get_sd */ default_set_sd, /* set_sd */ no_get_full_name, /* get_full_name */ no_lookup_name, /* lookup_name */ no_link_name, /* link_name */ NULL, /* unlink_name */ no_open_file, /* open_file */ no_kernel_obj_list, /* get_kernel_obj_list */ no_close_handle, /* close_handle */ iosb_destroy /* destroy */ }; static void iosb_dump( struct object *obj, int verbose ) { assert( obj->ops == &iosb_ops ); fprintf( stderr, "I/O status block\n" ); } static void iosb_destroy( struct object *obj ) { struct iosb *iosb = (struct iosb *)obj; free( iosb->in_data ); free( iosb->out_data ); } /* allocate iosb struct */ struct iosb *create_iosb( const void *in_data, data_size_t in_size, data_size_t out_size ) { struct iosb *iosb; if (!(iosb = alloc_object( &iosb_ops ))) return NULL; iosb->status = STATUS_PENDING; iosb->result = 0; iosb->in_size = in_size; iosb->in_data = NULL; iosb->out_size = out_size; iosb->out_data = NULL; if (in_size && !(iosb->in_data = memdup( in_data, in_size ))) { release_object( iosb ); iosb = NULL; } return iosb; } struct iosb *async_get_iosb( struct async *async ) { return async->iosb ? (struct iosb *)grab_object( async->iosb ) : NULL; } struct thread *async_get_thread( struct async *async ) { return async->thread; } /* find the first pending async in queue */ struct async *find_pending_async( struct async_queue *queue ) { struct async *async; LIST_FOR_EACH_ENTRY( async, &queue->queue, struct async, queue_entry ) if (async->status == STATUS_PENDING) return (struct async *)grab_object( async ); return NULL; } /* cancels all async I/O */ DECL_HANDLER(cancel_async) { struct object *obj = get_handle_obj( current->process, req->handle, 0, NULL ); struct thread *thread = req->only_thread ? current : NULL; if (obj) { int count = cancel_async( current->process, obj, thread, req->iosb ); if (!count && req->iosb) set_error( STATUS_NOT_FOUND ); release_object( obj ); } } /* get async result from associated iosb */ DECL_HANDLER(get_async_result) { struct iosb *iosb = NULL; struct async *async; LIST_FOR_EACH_ENTRY( async, ¤t->process->asyncs, struct async, process_entry ) if (async->data.user == req->user_arg) { iosb = async->iosb; break; } if (!iosb) { set_error( STATUS_INVALID_PARAMETER ); return; } if (iosb->out_data) { data_size_t size = min( iosb->out_size, get_reply_max_size() ); if (size) { set_reply_data_ptr( iosb->out_data, size ); iosb->out_data = NULL; } } reply->size = iosb->result; set_error( iosb->status ); }