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/* Socket I/O operations
Copyright (C) 1995, 1996, 1998, 1999, 2000, 2002, 2007
Free Software Foundation, Inc.
Written by Miles Bader <miles@gnu.org>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2, or (at
your option) any later version.
This program 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
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
#include <string.h> /* For bzero() */
#include <unistd.h>
#include <sys/types.h>
#include <sys/fcntl.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <hurd.h> /* for getauth() */
#include <hurd/hurd_types.h>
#include <hurd/auth.h>
#include <hurd/pipe.h>
#include <mach/notify.h>
#include "sock.h"
#include "connq.h"
#include "sserver.h"
#include "io_S.h"
#include "interrupt_S.h"
/* Read data from an IO object. If offset if -1, read from the object
maintained file pointer. If the object is not seekable, offset is
ignored. The amount desired to be read is in amount. */
error_t
S_io_read (struct sock_user *user,
char **data, mach_msg_type_number_t *data_len,
off_t offset, mach_msg_type_number_t amount)
{
error_t err;
struct pipe *pipe;
if (!user)
return EOPNOTSUPP;
err = sock_acquire_read_pipe (user->sock, &pipe);
if (err == EPIPE)
/* EOF */
{
err = 0;
*data_len = 0;
}
else if (!err)
{
err =
pipe_read (pipe, user->sock->flags & SOCK_NONBLOCK, NULL,
data, data_len, amount);
pipe_release_reader (pipe);
}
return err;
}
/* Write data to an IO object. If offset is -1, write at the object
maintained file pointer. If the object is not seekable, offset is
ignored. The amount successfully written is returned in amount. A
given user should not have more than one outstanding io_write on an
object at a time; servers implement congestion control by delaying
responses to io_write. Servers may drop data (returning ENOBUFS)
if they recevie more than one write when not prepared for it. */
error_t
S_io_write (struct sock_user *user,
char *data, mach_msg_type_number_t data_len,
off_t offset, mach_msg_type_number_t *amount)
{
error_t err;
struct pipe *pipe;
if (!user)
return EOPNOTSUPP;
err = sock_acquire_write_pipe (user->sock, &pipe);
if (!err)
{
struct addr *source_addr;
/* We could provide a source address for all writes, but we only do so
for connectionless sockets because that's the only place it's
required, and it's more efficient not to. */
if (pipe->class->flags & PIPE_CLASS_CONNECTIONLESS)
err = sock_get_addr (user->sock, &source_addr);
else
source_addr = NULL;
if (!err)
{
err = pipe_write (pipe, user->sock->flags & SOCK_NONBLOCK,
source_addr, data, data_len, amount);
if (source_addr)
ports_port_deref (source_addr);
}
pipe_release_writer (pipe);
}
return err;
}
/* Tell how much data can be read from the object without blocking for
a "long time" (this should be the same meaning of "long time" used
by the nonblocking flag. */
error_t
S_io_readable (struct sock_user *user, mach_msg_type_number_t *amount)
{
error_t err;
struct pipe *pipe;
if (!user)
return EOPNOTSUPP;
err = sock_acquire_read_pipe (user->sock, &pipe);
if (err == EPIPE)
/* EOF */
{
err = 0;
*amount = 0;
}
else if (!err)
{
*amount = pipe_readable (user->sock->read_pipe, 1);
pipe_release_reader (pipe);
}
return err;
}
/* Change current read/write offset */
error_t
S_io_seek (struct sock_user *user,
off_t offset, int whence, off_t *new_offset)
{
return user ? ESPIPE : EOPNOTSUPP;
}
/* Return a new port with the same semantics as the existing port. */
error_t
S_io_duplicate (struct sock_user *user,
mach_port_t *new_port, mach_msg_type_name_t *new_port_type)
{
error_t err;
if (!user)
return EOPNOTSUPP;
err = sock_create_port (user->sock, new_port);
if (! err)
*new_port_type = MACH_MSG_TYPE_MAKE_SEND;
return err;
}
/* SELECT_TYPE is the bitwise OR of SELECT_READ, SELECT_WRITE, and SELECT_URG.
Block until one of the indicated types of i/o can be done "quickly", and
return the types that are then available. */
error_t
S_io_select (struct sock_user *user,
mach_port_t reply, mach_msg_type_name_t reply_type,
int *select_type)
{
error_t err = 0;
struct sock *sock;
if (!user)
return EOPNOTSUPP;
*select_type &= SELECT_READ | SELECT_WRITE;
sock = user->sock;
mutex_lock (&sock->lock);
if (sock->listen_queue)
/* Sock is used for accepting connections, not I/O. For these, you can
only select for reading, which will block until a connection request
comes along. */
{
mutex_unlock (&sock->lock);
*select_type &= SELECT_READ;
if (*select_type & SELECT_READ)
{
/* Wait for a connect. Passing in NULL for REQ means that the
request won't be dequeued. */
if (connq_listen (sock->listen_queue, 1, NULL, NULL) == 0)
/* We can satisfy this request immediately. */
return 0;
else
/* Gotta wait... */
{
ports_interrupt_self_on_port_death (user, reply);
return connq_listen (sock->listen_queue, 0, NULL, NULL);
}
}
}
else
/* Sock is a normal read/write socket. */
{
int valid;
int ready = 0;
struct pipe *read_pipe = sock->read_pipe;
struct pipe *write_pipe = sock->write_pipe;
if (! write_pipe)
ready |= SELECT_WRITE;
if (! read_pipe)
ready |= SELECT_READ;
ready &= *select_type; /* Only keep things requested. */
*select_type &= ~ready;
valid = *select_type;
if (valid & SELECT_READ)
{
pipe_acquire_reader (read_pipe);
if (pipe_wait_readable (read_pipe, 1, 1) != EWOULDBLOCK)
ready |= SELECT_READ; /* Data immediately readable (or error). */
mutex_unlock (&read_pipe->lock);
}
if (valid & SELECT_WRITE)
{
pipe_acquire_writer (write_pipe);
if (pipe_wait_writable (write_pipe, 1) != EWOULDBLOCK)
ready |= SELECT_WRITE; /* Data immediately writable (or error). */
mutex_unlock (&write_pipe->lock);
}
mutex_unlock (&sock->lock);
if (ready)
/* No need to block, we've already got some results. */
*select_type = ready;
else
/* Wait for something to change. */
{
ports_interrupt_self_on_port_death (user, reply);
err = pipe_pair_select (read_pipe, write_pipe, select_type, 1);
}
if (valid & SELECT_READ)
pipe_remove_reader (read_pipe);
if (valid & SELECT_WRITE)
pipe_remove_writer (write_pipe);
}
return err;
}
/* Return the current status of the object. Not all the fields of the
io_statuf_t are meaningful for all objects; however, the access and
modify times, the optimal IO size, and the fs type are meaningful
for all objects. */
error_t
S_io_stat (struct sock_user *user, struct stat *st)
{
struct sock *sock;
struct pipe *rpipe, *wpipe;
void copy_time (time_value_t *from, time_t *to_sec, unsigned long *to_nsec)
{
*to_sec = from->seconds;
*to_nsec = from->microseconds * 1000;
}
if (!user)
return EOPNOTSUPP;
sock = user->sock;
bzero (st, sizeof (struct stat));
st->st_fstype = FSTYPE_SOCKET;
st->st_mode = sock->mode;
st->st_fsid = getpid ();
st->st_ino = sock->id;
/* As we try to be clever with large transfers, ask for them. */
st->st_blksize = vm_page_size * 16;
mutex_lock (&sock->lock); /* Make sure the pipes don't go away... */
rpipe = sock->read_pipe;
wpipe = sock->write_pipe;
if (rpipe)
{
mutex_lock (&rpipe->lock);
copy_time (&rpipe->read_time, &st->st_atim.tv_sec, &st->st_atim.tv_nsec);
/* This seems useful. */
st->st_size = pipe_readable (rpipe, 1);
mutex_unlock (&rpipe->lock);
}
if (wpipe)
{
mutex_lock (&wpipe->lock);
copy_time (&wpipe->write_time, &st->st_mtim.tv_sec, &st->st_mtim.tv_nsec);
mutex_unlock (&wpipe->lock);
}
copy_time (&sock->change_time, &st->st_ctim.tv_sec, &st->st_ctim.tv_nsec);
mutex_unlock (&sock->lock);
return 0;
}
error_t
S_io_get_openmodes (struct sock_user *user, int *bits)
{
unsigned flags;
if (!user)
return EOPNOTSUPP;
flags = user->sock->flags;
*bits =
O_APPEND /* pipes always append */
| (flags & SOCK_NONBLOCK ? O_NONBLOCK : 0)
| (flags & SOCK_SHUTDOWN_READ ? 0 : O_READ)
| (flags & SOCK_SHUTDOWN_WRITE ? 0 : O_WRITE);
return 0;
}
error_t
S_io_set_all_openmodes (struct sock_user *user, int bits)
{
if (!user)
return EOPNOTSUPP;
mutex_lock (&user->sock->lock);
if (bits & O_NONBLOCK)
user->sock->flags |= SOCK_NONBLOCK;
else
user->sock->flags &= ~SOCK_NONBLOCK;
mutex_unlock (&user->sock->lock);
return 0;
}
error_t
S_io_set_some_openmodes (struct sock_user *user, int bits)
{
if (!user)
return EOPNOTSUPP;
mutex_lock (&user->sock->lock);
if (bits & O_NONBLOCK)
user->sock->flags |= SOCK_NONBLOCK;
mutex_unlock (&user->sock->lock);
return 0;
}
error_t
S_io_clear_some_openmodes (struct sock_user *user, int bits)
{
if (!user)
return EOPNOTSUPP;
mutex_lock (&user->sock->lock);
if (bits & O_NONBLOCK)
user->sock->flags &= ~SOCK_NONBLOCK;
mutex_unlock (&user->sock->lock);
return 0;
}
#define NIDS 10
error_t
S_io_reauthenticate (struct sock_user *user, mach_port_t rendezvous)
{
error_t err;
mach_port_t auth_server;
mach_port_t new_user_port;
uid_t uids_buf[NIDS], aux_uids_buf[NIDS];
uid_t *uids = uids_buf, *aux_uids = aux_uids_buf;
gid_t gids_buf[NIDS], aux_gids_buf[NIDS];
gid_t *gids = gids_buf, *aux_gids = aux_gids_buf;
size_t num_uids = NIDS, num_aux_uids = NIDS;
size_t num_gids = NIDS, num_aux_gids = NIDS;
if (!user)
return EOPNOTSUPP;
do
err = sock_create_port (user->sock, &new_user_port);
while (err == EINTR);
if (err)
return err;
auth_server = getauth ();
err = mach_port_insert_right (mach_task_self (), new_user_port,
new_user_port, MACH_MSG_TYPE_MAKE_SEND);
assert_perror (err);
do
err =
auth_server_authenticate (auth_server,
rendezvous, MACH_MSG_TYPE_COPY_SEND,
new_user_port, MACH_MSG_TYPE_COPY_SEND,
&uids, &num_uids, &aux_uids, &num_aux_uids,
&gids, &num_gids, &aux_gids, &num_aux_gids);
while (err == EINTR);
mach_port_deallocate (mach_task_self (), rendezvous);
mach_port_deallocate (mach_task_self (), auth_server);
mach_port_deallocate (mach_task_self (), new_user_port);
/* Throw away the ids we went through all that trouble to get... */
#define TRASH_IDS(ids, buf, num) \
if (buf != ids) \
munmap (ids, num * sizeof (uid_t));
TRASH_IDS (uids, uids_buf, num_uids);
TRASH_IDS (gids, gids_buf, num_gids);
TRASH_IDS (aux_uids, aux_uids_buf, num_aux_uids);
TRASH_IDS (aux_gids, aux_gids_buf, num_aux_gids);
return err;
}
error_t
S_io_restrict_auth (struct sock_user *user,
mach_port_t *new_port,
mach_msg_type_name_t *new_port_type,
uid_t *uids, size_t num_uids,
uid_t *gids, size_t num_gids)
{
if (!user)
return EOPNOTSUPP;
*new_port_type = MACH_MSG_TYPE_MAKE_SEND;
return sock_create_port (user->sock, new_port);
}
error_t
S_io_pathconf (struct sock_user *user, int name, int *value)
{
if (user == NULL)
return EOPNOTSUPP;
else if (name == _PC_PIPE_BUF)
{
mutex_lock (&user->sock->lock);
if (user->sock->write_pipe == NULL)
*value = 0;
else
*value = user->sock->write_pipe->write_atomic;
mutex_unlock (&user->sock->lock);
return 0;
}
else
return EINVAL;
}
error_t
S_io_identity (struct sock_user *user,
mach_port_t *id, mach_msg_type_name_t *id_type,
mach_port_t *fsys_id, mach_msg_type_name_t *fsys_id_type,
ino_t *fileno)
{
static mach_port_t server_id = MACH_PORT_NULL;
error_t err = 0;
struct sock *sock;
if (! user)
return EOPNOTSUPP;
if (server_id == MACH_PORT_NULL)
{
static struct mutex server_id_lock = MUTEX_INITIALIZER;
mutex_lock (&server_id_lock);
if (server_id == MACH_PORT_NULL) /* Recheck with the lock held. */
err = mach_port_allocate (mach_task_self (), MACH_PORT_RIGHT_RECEIVE,
&server_id);
mutex_unlock (&server_id_lock);
if (err)
return err;
}
sock = user->sock;
mutex_lock (&sock->lock);
if (sock->id == MACH_PORT_NULL)
err = mach_port_allocate (mach_task_self (), MACH_PORT_RIGHT_RECEIVE,
&sock->id);
mutex_unlock (&sock->lock);
if (! err)
{
*id = sock->id;
*id_type = MACH_MSG_TYPE_MAKE_SEND;
*fsys_id = server_id;
*fsys_id_type = MACH_MSG_TYPE_MAKE_SEND;
*fileno = sock->id; /* Might as well */
}
return err;
}
/* Stubs for currently unsupported rpcs. */
error_t
S_io_revoke (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_async(struct sock_user *user,
mach_port_t notify_port,
mach_port_t *async_id_port,
mach_msg_type_name_t *async_id_port_type)
{
return EOPNOTSUPP;
}
error_t
S_io_mod_owner(struct sock_user *user, pid_t owner)
{
return EOPNOTSUPP;
}
error_t
S_io_get_owner(struct sock_user *user, pid_t *owner)
{
return EOPNOTSUPP;
}
error_t
S_io_get_icky_async_id (struct sock_user *user,
mach_port_t *icky_async_id_port,
mach_msg_type_name_t *icky_async_id_port_type)
{
return EOPNOTSUPP;
}
error_t
S_io_map (struct sock_user *user,
mach_port_t *memobj_rd, mach_msg_type_name_t *memobj_rd_type,
mach_port_t *memobj_wt, mach_msg_type_name_t *memobj_wt_type)
{
return EOPNOTSUPP;
}
error_t
S_io_map_cntl (struct sock_user *user,
mach_port_t *mem, mach_msg_type_name_t *mem_type)
{
return EOPNOTSUPP;
}
error_t
S_io_get_conch (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_release_conch (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_eofnotify (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_prenotify (struct sock_user *user, vm_offset_t start, vm_offset_t end)
{
return EOPNOTSUPP;
}
error_t
S_io_postnotify (struct sock_user *user, vm_offset_t start, vm_offset_t end)
{
return EOPNOTSUPP;
}
error_t
S_io_readsleep (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_readnotify (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_sigio (struct sock_user *user)
{
return EOPNOTSUPP;
}
error_t
S_io_server_version (struct sock_user *user,
char *name, int *maj, int *min, int *edit)
{
return EOPNOTSUPP;
}
|