named_pipe.c 32.4 KB
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/*
 * Server-side pipe management
 *
 * Copyright (C) 1998 Alexandre Julliard
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 * Copyright (C) 2001 Mike McCormack
 *
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 * 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
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 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
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 *
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 * TODO:
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 *   message mode
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 */

#include "config.h"
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#include "wine/port.h"
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#include <assert.h>
#include <fcntl.h>
#include <string.h>
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#include <stdarg.h>
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#include <stdio.h>
#include <stdlib.h>
#include <sys/time.h>
#include <sys/types.h>
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#ifdef HAVE_SYS_SOCKET_H
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#include <sys/socket.h>
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#endif
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#include <time.h>
#include <unistd.h>
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#ifdef HAVE_POLL_H
#include <poll.h>
#endif
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#include "ntstatus.h"
#define WIN32_NO_STATUS
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#include "windef.h"
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#include "winternl.h"
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#include "winioctl.h"
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#include "file.h"
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#include "handle.h"
#include "thread.h"
#include "request.h"

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enum pipe_state
{
    ps_idle_server,
    ps_wait_open,
    ps_connected_server,
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    ps_wait_disconnect,
    ps_disconnected_server,
    ps_wait_connect
};

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struct named_pipe;

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struct pipe_server
{
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    struct object        obj;        /* object header */
    struct fd           *fd;         /* pipe file descriptor */
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    struct fd           *ioctl_fd;   /* file descriptor for ioctls when not connected */
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    struct list          entry;      /* entry in named pipe servers list */
    enum pipe_state      state;      /* server state */
    struct pipe_client  *client;     /* client that this server is connected to */
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    struct named_pipe   *pipe;
    struct timeout_user *flush_poll;
    struct event        *event;
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    unsigned int         options;    /* pipe options */
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};

struct pipe_client
{
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    struct object        obj;        /* object header */
    struct fd           *fd;         /* pipe file descriptor */
    struct pipe_server  *server;     /* server that this client is connected to */
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    unsigned int         flags;      /* file flags */
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};

struct named_pipe
{
    struct object       obj;         /* object header */
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    unsigned int        flags;
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    unsigned int        maxinstances;
    unsigned int        outsize;
    unsigned int        insize;
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    unsigned int        instances;
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    timeout_t           timeout;
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    struct list         servers;     /* list of servers using this pipe */
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    struct async_queue *waiters;     /* list of clients waiting to connect */
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};

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struct named_pipe_device
{
    struct object       obj;         /* object header */
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    struct fd          *fd;          /* pseudo-fd for ioctls */
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    struct namespace   *pipes;       /* named pipe namespace */
};

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static void named_pipe_dump( struct object *obj, int verbose );
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static unsigned int named_pipe_map_access( struct object *obj, unsigned int access );
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static struct object *named_pipe_open_file( struct object *obj, unsigned int access,
                                            unsigned int sharing, unsigned int options );
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static void named_pipe_destroy( struct object *obj );
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static const struct object_ops named_pipe_ops =
{
    sizeof(struct named_pipe),    /* size */
    named_pipe_dump,              /* dump */
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    no_get_type,                  /* get_type */
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    no_add_queue,                 /* add_queue */
    NULL,                         /* remove_queue */
    NULL,                         /* signaled */
    NULL,                         /* satisfied */
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    no_signal,                    /* signal */
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    no_get_fd,                    /* get_fd */
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    named_pipe_map_access,        /* map_access */
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    default_get_sd,               /* get_sd */
    default_set_sd,               /* set_sd */
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    no_lookup_name,               /* lookup_name */
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    named_pipe_open_file,         /* open_file */
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    no_close_handle,              /* close_handle */
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    named_pipe_destroy            /* destroy */
};

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/* server end functions */
static void pipe_server_dump( struct object *obj, int verbose );
static struct fd *pipe_server_get_fd( struct object *obj );
static void pipe_server_destroy( struct object *obj);
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static void pipe_server_flush( struct fd *fd, struct event **event );
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static enum server_fd_type pipe_server_get_fd_type( struct fd *fd );
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static obj_handle_t pipe_server_ioctl( struct fd *fd, ioctl_code_t code, const async_data_t *async,
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                                       int blocking, const void *data, data_size_t size );
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static const struct object_ops pipe_server_ops =
{
    sizeof(struct pipe_server),   /* size */
    pipe_server_dump,             /* dump */
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    no_get_type,                  /* get_type */
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    add_queue,                    /* add_queue */
    remove_queue,                 /* remove_queue */
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    default_fd_signaled,          /* signaled */
    no_satisfied,                 /* satisfied */
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    no_signal,                    /* signal */
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    pipe_server_get_fd,           /* get_fd */
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    default_fd_map_access,        /* map_access */
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    default_get_sd,               /* get_sd */
    default_set_sd,               /* set_sd */
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    no_lookup_name,               /* lookup_name */
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    no_open_file,                 /* open_file */
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    fd_close_handle,              /* close_handle */
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    pipe_server_destroy           /* destroy */
};

static const struct fd_ops pipe_server_fd_ops =
{
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    default_fd_get_poll_events,   /* get_poll_events */
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    default_poll_event,           /* poll_event */
    pipe_server_flush,            /* flush */
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    pipe_server_get_fd_type,      /* get_fd_type */
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    pipe_server_ioctl,            /* ioctl */
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    default_fd_queue_async,       /* queue_async */
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    default_fd_reselect_async,    /* reselect_async */
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    default_fd_cancel_async,      /* cancel_async */
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};
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/* client end functions */
static void pipe_client_dump( struct object *obj, int verbose );
static struct fd *pipe_client_get_fd( struct object *obj );
static void pipe_client_destroy( struct object *obj );
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static void pipe_client_flush( struct fd *fd, struct event **event );
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static enum server_fd_type pipe_client_get_fd_type( struct fd *fd );
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static const struct object_ops pipe_client_ops =
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{
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    sizeof(struct pipe_client),   /* size */
    pipe_client_dump,             /* dump */
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    no_get_type,                  /* get_type */
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    add_queue,                    /* add_queue */
    remove_queue,                 /* remove_queue */
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    default_fd_signaled,          /* signaled */
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    no_satisfied,                 /* satisfied */
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    no_signal,                    /* signal */
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    pipe_client_get_fd,           /* get_fd */
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    default_fd_map_access,        /* map_access */
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    default_get_sd,               /* get_sd */
    default_set_sd,               /* set_sd */
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    no_lookup_name,               /* lookup_name */
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    no_open_file,                 /* open_file */
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    fd_close_handle,              /* close_handle */
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    pipe_client_destroy           /* destroy */
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};

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static const struct fd_ops pipe_client_fd_ops =
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{
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    default_fd_get_poll_events,   /* get_poll_events */
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    default_poll_event,           /* poll_event */
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    pipe_client_flush,            /* flush */
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    pipe_client_get_fd_type,      /* get_fd_type */
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    default_fd_ioctl,             /* ioctl */
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    default_fd_queue_async,       /* queue_async */
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    default_fd_reselect_async,    /* reselect_async */
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    default_fd_cancel_async       /* cancel_async */
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};

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static void named_pipe_device_dump( struct object *obj, int verbose );
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static struct object_type *named_pipe_device_get_type( struct object *obj );
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static struct fd *named_pipe_device_get_fd( struct object *obj );
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static struct object *named_pipe_device_lookup_name( struct object *obj,
    struct unicode_str *name, unsigned int attr );
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static struct object *named_pipe_device_open_file( struct object *obj, unsigned int access,
                                                   unsigned int sharing, unsigned int options );
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static void named_pipe_device_destroy( struct object *obj );
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static enum server_fd_type named_pipe_device_get_fd_type( struct fd *fd );
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static obj_handle_t named_pipe_device_ioctl( struct fd *fd, ioctl_code_t code, const async_data_t *async_data,
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                                             int blocking, const void *data, data_size_t size );
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static const struct object_ops named_pipe_device_ops =
{
    sizeof(struct named_pipe_device), /* size */
    named_pipe_device_dump,           /* dump */
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    named_pipe_device_get_type,       /* get_type */
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    no_add_queue,                     /* add_queue */
    NULL,                             /* remove_queue */
    NULL,                             /* signaled */
    no_satisfied,                     /* satisfied */
    no_signal,                        /* signal */
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    named_pipe_device_get_fd,         /* get_fd */
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    no_map_access,                    /* map_access */
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    default_get_sd,                   /* get_sd */
    default_set_sd,                   /* set_sd */
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    named_pipe_device_lookup_name,    /* lookup_name */
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    named_pipe_device_open_file,      /* open_file */
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    fd_close_handle,                  /* close_handle */
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    named_pipe_device_destroy         /* destroy */
};

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static const struct fd_ops named_pipe_device_fd_ops =
{
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    default_fd_get_poll_events,       /* get_poll_events */
    default_poll_event,               /* poll_event */
    no_flush,                         /* flush */
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    named_pipe_device_get_fd_type,    /* get_fd_type */
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    named_pipe_device_ioctl,          /* ioctl */
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    default_fd_queue_async,           /* queue_async */
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    default_fd_reselect_async,        /* reselect_async */
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    default_fd_cancel_async           /* cancel_async */
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};

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static void named_pipe_dump( struct object *obj, int verbose )
{
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    struct named_pipe *pipe = (struct named_pipe *) obj;
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    assert( obj->ops == &named_pipe_ops );
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    fprintf( stderr, "Named pipe " );
    dump_object_name( &pipe->obj );
    fprintf( stderr, "\n" );
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}

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static unsigned int named_pipe_map_access( struct object *obj, unsigned int access )
{
    if (access & GENERIC_READ)    access |= STANDARD_RIGHTS_READ;
    if (access & GENERIC_WRITE)   access |= STANDARD_RIGHTS_WRITE | FILE_CREATE_PIPE_INSTANCE;
    if (access & GENERIC_EXECUTE) access |= STANDARD_RIGHTS_EXECUTE;
    if (access & GENERIC_ALL)     access |= STANDARD_RIGHTS_ALL;
    return access & ~(GENERIC_READ | GENERIC_WRITE | GENERIC_EXECUTE | GENERIC_ALL);
}

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static void pipe_server_dump( struct object *obj, int verbose )
{
    struct pipe_server *server = (struct pipe_server *) obj;
    assert( obj->ops == &pipe_server_ops );
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    fprintf( stderr, "Named pipe server pipe=%p state=%d\n", server->pipe, server->state );
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}

static void pipe_client_dump( struct object *obj, int verbose )
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{
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    struct pipe_client *client = (struct pipe_client *) obj;
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    assert( obj->ops == &pipe_client_ops );
    fprintf( stderr, "Named pipe client server=%p\n", client->server );
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}

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static void named_pipe_destroy( struct object *obj)
{
    struct named_pipe *pipe = (struct named_pipe *) obj;

    assert( list_empty( &pipe->servers ) );
    assert( !pipe->instances );
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    free_async_queue( pipe->waiters );
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}

static struct fd *pipe_client_get_fd( struct object *obj )
{
    struct pipe_client *client = (struct pipe_client *) obj;
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    if (client->fd)
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        return (struct fd *) grab_object( client->fd );
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    set_error( STATUS_PIPE_DISCONNECTED );
    return NULL;
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}

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static void set_server_state( struct pipe_server *server, enum pipe_state state )
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{
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    server->state = state;
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    switch(state)
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    {
    case ps_connected_server:
    case ps_wait_disconnect:
        assert( server->fd );
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        break;
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    case ps_wait_open:
    case ps_idle_server:
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        assert( !server->fd );
        set_no_fd_status( server->ioctl_fd, STATUS_PIPE_LISTENING );
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        break;
    case ps_disconnected_server:
    case ps_wait_connect:
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        assert( !server->fd );
        set_no_fd_status( server->ioctl_fd, STATUS_PIPE_DISCONNECTED );
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        break;
    }
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}

static struct fd *pipe_server_get_fd( struct object *obj )
{
    struct pipe_server *server = (struct pipe_server *) obj;

    return (struct fd *)grab_object( server->fd ? server->fd : server->ioctl_fd );
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}


static void notify_empty( struct pipe_server *server )
{
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    if (!server->flush_poll)
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        return;
    assert( server->state == ps_connected_server );
    assert( server->event );
    remove_timeout_user( server->flush_poll );
    server->flush_poll = NULL;
    set_event( server->event );
    release_object( server->event );
    server->event = NULL;
}

static void do_disconnect( struct pipe_server *server )
{
    /* we may only have a server fd, if the client disconnected */
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    if (server->client)
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    {
        assert( server->client->server == server );
        assert( server->client->fd );
        release_object( server->client->fd );
        server->client->fd = NULL;
    }
    assert( server->fd );
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    shutdown( get_unix_fd( server->fd ), SHUT_RDWR );
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    release_object( server->fd );
    server->fd = NULL;
}

static void pipe_server_destroy( struct object *obj)
{
    struct pipe_server *server = (struct pipe_server *)obj;

    assert( obj->ops == &pipe_server_ops );

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    if (server->fd)
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    {
        notify_empty( server );
        do_disconnect( server );
    }

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    if (server->client)
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    {
        server->client->server = NULL;
        server->client = NULL;
    }

    assert( server->pipe->instances );
    server->pipe->instances--;

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    if (server->ioctl_fd) release_object( server->ioctl_fd );
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    list_remove( &server->entry );
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    release_object( server->pipe );
}

static void pipe_client_destroy( struct object *obj)
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{
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    struct pipe_client *client = (struct pipe_client *)obj;
    struct pipe_server *server = client->server;
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    assert( obj->ops == &pipe_client_ops );
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    if (server)
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    {
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        notify_empty( server );

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        switch(server->state)
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        {
        case ps_connected_server:
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            /* Don't destroy the server's fd here as we can't
               do a successful flush without it. */
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            set_server_state( server, ps_wait_disconnect );
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            break;
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        case ps_disconnected_server:
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            set_server_state( server, ps_wait_connect );
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            break;
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        case ps_idle_server:
        case ps_wait_open:
        case ps_wait_disconnect:
        case ps_wait_connect:
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            assert( 0 );
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        }
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        assert( server->client );
        server->client = NULL;
        client->server = NULL;
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    }
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    if (client->fd) release_object( client->fd );
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}

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static void named_pipe_device_dump( struct object *obj, int verbose )
{
    assert( obj->ops == &named_pipe_device_ops );
    fprintf( stderr, "Named pipe device\n" );
}

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static struct object_type *named_pipe_device_get_type( struct object *obj )
{
    static const WCHAR name[] = {'D','e','v','i','c','e'};
    static const struct unicode_str str = { name, sizeof(name) };
    return get_object_type( &str );
}

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static struct fd *named_pipe_device_get_fd( struct object *obj )
{
    struct named_pipe_device *device = (struct named_pipe_device *)obj;
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    return (struct fd *)grab_object( device->fd );
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}

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static struct object *named_pipe_device_lookup_name( struct object *obj, struct unicode_str *name,
                                                     unsigned int attr )
{
    struct named_pipe_device *device = (struct named_pipe_device*)obj;
    struct object *found;

    assert( obj->ops == &named_pipe_device_ops );
    assert( device->pipes );

    if ((found = find_object( device->pipes, name, attr | OBJ_CASE_INSENSITIVE )))
        name->len = 0;

    return found;
}

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static struct object *named_pipe_device_open_file( struct object *obj, unsigned int access,
                                                   unsigned int sharing, unsigned int options )
{
    return grab_object( obj );
}

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static void named_pipe_device_destroy( struct object *obj )
{
    struct named_pipe_device *device = (struct named_pipe_device*)obj;
    assert( obj->ops == &named_pipe_device_ops );
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    if (device->fd) release_object( device->fd );
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    free( device->pipes );
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}

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static enum server_fd_type named_pipe_device_get_fd_type( struct fd *fd )
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{
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    return FD_TYPE_DEVICE;
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}

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void create_named_pipe_device( struct directory *root, const struct unicode_str *name )
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{
    struct named_pipe_device *dev;

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    if ((dev = create_named_object_dir( root, name, 0, &named_pipe_device_ops )) &&
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        get_error() != STATUS_OBJECT_NAME_EXISTS)
    {
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        dev->pipes = NULL;
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        if (!(dev->fd = alloc_pseudo_fd( &named_pipe_device_fd_ops, &dev->obj, 0 )) ||
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            !(dev->pipes = create_namespace( 7 )))
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        {
            release_object( dev );
            dev = NULL;
        }
    }
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    if (dev) make_object_static( &dev->obj );
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}

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static int pipe_data_remaining( struct pipe_server *server )
{
    struct pollfd pfd;
    int fd;

    assert( server->client );

    fd = get_unix_fd( server->client->fd );
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    if (fd < 0)
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        return 0;
    pfd.fd = fd;
    pfd.events = POLLIN;
    pfd.revents = 0;

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    if (0 > poll( &pfd, 1, 0 ))
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        return 0;
 
    return pfd.revents&POLLIN;
}

static void check_flushed( void *arg )
{
    struct pipe_server *server = (struct pipe_server*) arg;

    assert( server->event );
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    if (pipe_data_remaining( server ))
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    {
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        server->flush_poll = add_timeout_user( -TICKS_PER_SEC / 10, check_flushed, server );
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    }
    else
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    {
        /* notify_empty( server ); */
        server->flush_poll = NULL;
        set_event( server->event );
        release_object( server->event );
        server->event = NULL;
    }
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}

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static void pipe_server_flush( struct fd *fd, struct event **event )
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{
    struct pipe_server *server = get_fd_user( fd );

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    if (!server || server->state != ps_connected_server) return;
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    /* FIXME: if multiple threads flush the same pipe,
              maybe should create a list of processes to notify */
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    if (server->flush_poll) return;
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    if (pipe_data_remaining( server ))
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    {
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        /* this kind of sux -
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           there's no unix way to be alerted when a pipe becomes empty */
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        server->event = create_event( NULL, NULL, 0, 0, 0, NULL );
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        if (!server->event) return;
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        server->flush_poll = add_timeout_user( -TICKS_PER_SEC / 10, check_flushed, server );
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        *event = server->event;
    }
}

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static void pipe_client_flush( struct fd *fd, struct event **event )
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{
    /* FIXME: what do we have to do for this? */
}

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static inline int is_overlapped( unsigned int options )
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{
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    return !(options & (FILE_SYNCHRONOUS_IO_ALERT | FILE_SYNCHRONOUS_IO_NONALERT));
}

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static enum server_fd_type pipe_server_get_fd_type( struct fd *fd )
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{
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    return FD_TYPE_PIPE;
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}

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static enum server_fd_type pipe_client_get_fd_type( struct fd *fd )
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{
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    return FD_TYPE_PIPE;
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}

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static obj_handle_t alloc_wait_event( struct process *process )
{
    obj_handle_t handle = 0;
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    struct event *event = create_event( NULL, NULL, 0, 1, 0, NULL );
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    if (event)
    {
        handle = alloc_handle( process, event, EVENT_ALL_ACCESS, 0 );
        release_object( event );
    }
    return handle;
}

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static obj_handle_t pipe_server_ioctl( struct fd *fd, ioctl_code_t code, const async_data_t *async_data,
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                                       int blocking, const void *data, data_size_t size )
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{
    struct pipe_server *server = get_fd_user( fd );
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    struct async *async;
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    obj_handle_t wait_handle = 0;
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    switch(code)
    {
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    case FSCTL_PIPE_LISTEN:
        switch(server->state)
        {
        case ps_idle_server:
        case ps_wait_connect:
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            if (blocking && !is_overlapped( get_fd_options(fd) ))
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            {
                async_data_t new_data = *async_data;
                if (!(wait_handle = alloc_wait_event( current->process ))) break;
                new_data.event = wait_handle;
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                if (!(async = fd_queue_async( server->ioctl_fd, &new_data, ASYNC_TYPE_WAIT )))
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                {
                    close_handle( current->process, wait_handle );
                    break;
                }
            }
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            else async = fd_queue_async( server->ioctl_fd, async_data, ASYNC_TYPE_WAIT );
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            if (async)
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            {
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                set_server_state( server, ps_wait_open );
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                if (server->pipe->waiters) async_wake_up( server->pipe->waiters, STATUS_SUCCESS );
                release_object( async );
                set_error( STATUS_PENDING );
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                return wait_handle;
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            }
            break;
        case ps_connected_server:
            set_error( STATUS_PIPE_CONNECTED );
            break;
        case ps_disconnected_server:
            set_error( STATUS_PIPE_BUSY );
            break;
        case ps_wait_disconnect:
            set_error( STATUS_NO_DATA_DETECTED );
            break;
        case ps_wait_open:
            set_error( STATUS_INVALID_HANDLE );
            break;
        }
643
        return 0;
644

645 646 647 648 649 650 651 652 653 654 655 656
    case FSCTL_PIPE_DISCONNECT:
        switch(server->state)
        {
        case ps_connected_server:
            assert( server->client );
            assert( server->client->fd );

            notify_empty( server );

            /* dump the client and server fds, but keep the pointers
               around - client loses all waiting data */
            do_disconnect( server );
657
            set_server_state( server, ps_disconnected_server );
658 659 660 661
            break;
        case ps_wait_disconnect:
            assert( !server->client );
            do_disconnect( server );
662
            set_server_state( server, ps_wait_connect );
663 664 665
            break;
        case ps_idle_server:
        case ps_wait_open:
666 667
            set_error( STATUS_PIPE_LISTENING );
            break;
668 669
        case ps_disconnected_server:
        case ps_wait_connect:
670
            set_error( STATUS_PIPE_DISCONNECTED );
671 672
            break;
        }
673
        return 0;
674

675
    default:
676
        return default_fd_ioctl( fd, code, async_data, blocking, data, size );
677 678 679
    }
}

680 681
static struct named_pipe *create_named_pipe( struct directory *root, const struct unicode_str *name,
                                             unsigned int attr )
682
{
683 684 685
    struct object *obj;
    struct named_pipe *pipe = NULL;
    struct unicode_str new_name;
686

687 688
    if (!name || !name->len) return alloc_object( &named_pipe_ops );

689 690 691 692 693
    if (!(obj = find_object_dir( root, name, attr, &new_name )))
    {
        set_error( STATUS_OBJECT_NAME_INVALID );
        return NULL;
    }
694
    if (!new_name.len)
695
    {
696 697 698
        if (attr & OBJ_OPENIF && obj->ops == &named_pipe_ops)
            set_error( STATUS_OBJECT_NAME_EXISTS );
        else
699
        {
700 701 702 703 704 705
            release_object( obj );
            obj = NULL;
            if (attr & OBJ_OPENIF)
                set_error( STATUS_OBJECT_TYPE_MISMATCH );
            else
                set_error( STATUS_OBJECT_NAME_COLLISION );
706
        }
707
        return (struct named_pipe *)obj;
708
    }
709

710
    if (obj->ops != &named_pipe_device_ops)
711
        set_error( STATUS_OBJECT_NAME_INVALID );
712 713 714 715 716
    else
    {
        struct named_pipe_device *dev = (struct named_pipe_device *)obj;
        if ((pipe = create_object( dev->pipes, &named_pipe_ops, &new_name, NULL )))
            clear_error();
717 718
    }

719 720
    release_object( obj );
    return pipe;
721 722
}

723 724
static struct pipe_server *get_pipe_server_obj( struct process *process,
                                obj_handle_t handle, unsigned int access )
725
{
726 727 728
    struct object *obj;
    obj = get_handle_obj( process, handle, access, &pipe_server_ops );
    return (struct pipe_server *) obj;
729 730
}

731
static struct pipe_server *create_pipe_server( struct named_pipe *pipe, unsigned int options )
732
{
733
    struct pipe_server *server;
734

735
    server = alloc_object( &pipe_server_ops );
736
    if (!server)
737 738
        return NULL;

739 740 741 742
    server->fd = NULL;
    server->pipe = pipe;
    server->client = NULL;
    server->flush_poll = NULL;
743
    server->options = options;
744

745
    list_add_head( &pipe->servers, &server->entry );
746
    grab_object( pipe );
747
    if (!(server->ioctl_fd = alloc_pseudo_fd( &pipe_server_fd_ops, &server->obj, options )))
748 749
    {
        release_object( server );
750
        return NULL;
751 752
    }
    set_server_state( server, ps_idle_server );
753
    return server;
754 755
}

756
static struct pipe_client *create_pipe_client( unsigned int flags )
757
{
758
    struct pipe_client *client;
759

760
    client = alloc_object( &pipe_client_ops );
761
    if (!client)
762 763 764
        return NULL;

    client->fd = NULL;
765
    client->server = NULL;
766
    client->flags = flags;
767 768 769 770

    return client;
}

771
static struct pipe_server *find_available_server( struct named_pipe *pipe )
772
{
773
    struct pipe_server *server;
774

775
    /* look for pipe servers that are listening */
776 777
    LIST_FOR_EACH_ENTRY( server, &pipe->servers, struct pipe_server, entry )
    {
778
        if (server->state == ps_wait_open)
779 780
            return (struct pipe_server *)grab_object( server );
    }
781 782 783 784 785 786 787 788

    /* fall back to pipe servers that are idle */
    LIST_FOR_EACH_ENTRY( server, &pipe->servers, struct pipe_server, entry )
    {
        if (server->state == ps_idle_server)
            return (struct pipe_server *)grab_object( server );
    }

789
    return NULL;
790 791
}

792 793 794 795 796 797 798 799
static struct object *named_pipe_open_file( struct object *obj, unsigned int access,
                                            unsigned int sharing, unsigned int options )
{
    struct named_pipe *pipe = (struct named_pipe *)obj;
    struct pipe_server *server;
    struct pipe_client *client;
    int fds[2];

800
    if (!(server = find_available_server( pipe )))
801 802 803 804 805 806 807 808 809 810 811 812 813 814
    {
        set_error( STATUS_PIPE_NOT_AVAILABLE );
        return NULL;
    }

    if ((client = create_pipe_client( options )))
    {
        if (!socketpair( PF_UNIX, SOCK_STREAM, 0, fds ))
        {
            assert( !server->fd );

            /* for performance reasons, only set nonblocking mode when using
             * overlapped I/O. Otherwise, we will be doing too much busy
             * looping */
815 816
            if (is_overlapped( options )) fcntl( fds[1], F_SETFL, O_NONBLOCK );
            if (is_overlapped( server->options )) fcntl( fds[0], F_SETFL, O_NONBLOCK );
817 818 819 820 821 822 823 824 825 826 827 828

            if (pipe->insize)
            {
                setsockopt( fds[0], SOL_SOCKET, SO_RCVBUF, &pipe->insize, sizeof(pipe->insize) );
                setsockopt( fds[1], SOL_SOCKET, SO_RCVBUF, &pipe->insize, sizeof(pipe->insize) );
            }
            if (pipe->outsize)
            {
                setsockopt( fds[0], SOL_SOCKET, SO_SNDBUF, &pipe->outsize, sizeof(pipe->outsize) );
                setsockopt( fds[1], SOL_SOCKET, SO_SNDBUF, &pipe->outsize, sizeof(pipe->outsize) );
            }

829 830
            client->fd = create_anonymous_fd( &pipe_client_fd_ops, fds[1], &client->obj, options );
            server->fd = create_anonymous_fd( &pipe_server_fd_ops, fds[0], &server->obj, server->options );
831
            if (client->fd && server->fd)
832
            {
833
                fd_copy_completion( server->ioctl_fd, server->fd );
834
                if (server->state == ps_wait_open)
835
                    fd_async_wake_up( server->ioctl_fd, ASYNC_TYPE_WAIT, STATUS_SUCCESS );
836
                set_server_state( server, ps_connected_server );
837 838 839
                server->client = client;
                client->server = server;
            }
840 841 842 843 844
            else
            {
                release_object( client );
                client = NULL;
            }
845 846
        }
        else
847
        {
848
            file_set_error();
849 850 851
            release_object( client );
            client = NULL;
        }
852 853 854 855 856
    }
    release_object( server );
    return &client->obj;
}

857
static obj_handle_t named_pipe_device_ioctl( struct fd *fd, ioctl_code_t code, const async_data_t *async_data,
858
                                             int blocking, const void *data, data_size_t size )
859 860 861 862 863 864 865 866
{
    struct named_pipe_device *device = get_fd_user( fd );

    switch(code)
    {
    case FSCTL_PIPE_WAIT:
        {
            const FILE_PIPE_WAIT_FOR_BUFFER *buffer = data;
867
            obj_handle_t wait_handle = 0;
868 869 870 871 872 873 874 875
            struct named_pipe *pipe;
            struct pipe_server *server;
            struct unicode_str name;

            if (size < sizeof(*buffer) ||
                size < FIELD_OFFSET(FILE_PIPE_WAIT_FOR_BUFFER, Name[buffer->NameLength/sizeof(WCHAR)]))
            {
                set_error( STATUS_INVALID_PARAMETER );
876
                return 0;
877 878 879 880 881 882
            }
            name.str = buffer->Name;
            name.len = (buffer->NameLength / sizeof(WCHAR)) * sizeof(WCHAR);
            if (!(pipe = (struct named_pipe *)find_object( device->pipes, &name, OBJ_CASE_INSENSITIVE )))
            {
                set_error( STATUS_PIPE_NOT_AVAILABLE );
883
                return 0;
884 885 886 887 888
            }
            if (!(server = find_available_server( pipe )))
            {
                struct async *async;

889 890
                if (!pipe->waiters && !(pipe->waiters = create_async_queue( NULL ))) goto done;

891
                if (blocking)
892
                {
893 894 895 896 897 898 899 900
                    async_data_t new_data = *async_data;
                    if (!(wait_handle = alloc_wait_event( current->process ))) goto done;
                    new_data.event = wait_handle;
                    if (!(async = create_async( current, pipe->waiters, &new_data )))
                    {
                        close_handle( current->process, wait_handle );
                        wait_handle = 0;
                    }
901
                }
902
                else async = create_async( current, pipe->waiters, async_data );
903

904
                if (async)
905 906 907 908 909 910 911 912 913
                {
                    timeout_t when = buffer->TimeoutSpecified ? buffer->Timeout.QuadPart : pipe->timeout;
                    async_set_timeout( async, when, STATUS_IO_TIMEOUT );
                    release_object( async );
                    set_error( STATUS_PENDING );
                }
            }
            else release_object( server );

914
        done:
915
            release_object( pipe );
916
            return wait_handle;
917 918 919
        }

    default:
920
        return default_fd_ioctl( fd, code, async_data, blocking, data, size );
921 922 923 924
    }
}


925 926 927
DECL_HANDLER(create_named_pipe)
{
    struct named_pipe *pipe;
928
    struct pipe_server *server;
929
    struct unicode_str name;
930
    struct directory *root = NULL;
931

932
    reply->handle = 0;
933
    get_req_unicode_str( &name );
934 935 936 937 938 939 940
    if (req->rootdir && !(root = get_directory_obj( current->process, req->rootdir, 0 )))
        return;

    pipe = create_named_pipe( root, &name, req->attributes | OBJ_OPENIF );

    if (root) release_object( root );
    if (!pipe) return;
941

942
    if (get_error() != STATUS_OBJECT_NAME_EXISTS)
943
    {
944 945
        /* initialize it if it didn't already exist */
        pipe->instances = 0;
946
        pipe->waiters = NULL;
947
        list_init( &pipe->servers );
948 949 950 951
        pipe->insize = req->insize;
        pipe->outsize = req->outsize;
        pipe->maxinstances = req->maxinstances;
        pipe->timeout = req->timeout;
952
        pipe->flags = req->flags;
953
    }
954 955
    else
    {
956
        if (pipe->maxinstances <= pipe->instances)
957
        {
958
            set_error( STATUS_INSTANCE_NOT_AVAILABLE );
959 960 961
            release_object( pipe );
            return;
        }
962 963 964
        if ((pipe->maxinstances != req->maxinstances) ||
            (pipe->timeout != req->timeout) ||
            (pipe->flags != req->flags))
965 966 967 968 969
        {
            set_error( STATUS_ACCESS_DENIED );
            release_object( pipe );
            return;
        }
970
        clear_error(); /* clear the name collision */
971
    }
972

973
    server = create_pipe_server( pipe, req->options );
974
    if (server)
975
    {
976
        reply->handle = alloc_handle( current->process, server, req->access, req->attributes );
977 978
        server->pipe->instances++;
        release_object( server );
979 980 981 982 983
    }

    release_object( pipe );
}

984 985
DECL_HANDLER(get_named_pipe_info)
{
986
    struct pipe_server *server;
987
    struct pipe_client *client = NULL;
988

989
    server = get_pipe_server_obj( current->process, req->handle, FILE_READ_ATTRIBUTES );
990
    if (!server)
991 992 993 994 995 996 997
    {
        clear_error();
        client = (struct pipe_client *)get_handle_obj( current->process, req->handle,
                                                       FILE_READ_ATTRIBUTES, &pipe_client_ops );
        if (!client) return;
        server = client->server;
    }
998

999
    reply->flags        = server->pipe->flags;
1000
    reply->maxinstances = server->pipe->maxinstances;
1001
    reply->instances    = server->pipe->instances;
1002 1003
    reply->insize       = server->pipe->insize;
    reply->outsize      = server->pipe->outsize;
1004

1005 1006 1007 1008 1009 1010 1011
    if (client)
        release_object(client);
    else
    {
        reply->flags |= NAMED_PIPE_SERVER_END;
        release_object(server);
    }
1012
}