kern_return_t
ipc_object_rename(
ipc_space_t space,
mach_port_name_t oname,
mach_port_name_t nname)
{
ipc_entry_t oentry, nentry;
kern_return_t kr;
kr = ipc_entry_alloc_name(space, nname, &nentry);
if (kr != KERN_SUCCESS)
return kr;
/* space is write-locked and active */
if (ipc_right_inuse(space, nname, nentry)) {
/* space is unlocked */
return KERN_NAME_EXISTS;
}
/* don't let ipc_entry_lookup see the uninitialized new entry */
if ((oname == nname) ||
((oentry = ipc_entry_lookup(space, oname)) == IE_NULL)) {
ipc_entry_dealloc(space, nname, nentry);
is_write_unlock(space);
return KERN_INVALID_NAME;
}
kr = ipc_right_rename(space, oname, oentry, nname, nentry);
/* space is unlocked */
return kr;
}
ipc_port_t
ipc_port_lookup_notify(
ipc_space_t space,
mach_port_name_t name)
{
ipc_port_t port;
ipc_entry_t entry;
assert(is_active(space));
entry = ipc_entry_lookup(space, name);
if (entry == IE_NULL)
return IP_NULL;
if ((entry->ie_bits & MACH_PORT_TYPE_RECEIVE) == 0)
return IP_NULL;
port = (ipc_port_t) entry->ie_object;
assert(port != IP_NULL);
ip_lock(port);
assert(ip_active(port));
assert(port->ip_receiver_name == name);
assert(port->ip_receiver == space);
ip_reference(port);
port->ip_sorights++;
ip_unlock(port);
return port;
}
ipc_port_t
ipc_name_to_data(
task_t task,
mach_port_name_t name)
{
ipc_space_t space;
ipc_entry_t entry;
if (task == TASK_NULL) {
db_printf("port_name_to_data: task is null\n");
return (0);
}
if ((space = task->itk_space) == 0) {
db_printf("port_name_to_data: task->itk_space is null\n");
return (0);
}
if (!space->is_active) {
db_printf("port_name_to_data: task->itk_space not active\n");
return (0);
}
if ((entry = ipc_entry_lookup(space, name)) == 0) {
db_printf("port_name_to_data: lookup yields zero\n");
return (0);
}
return ((ipc_port_t)entry->ie_object);
}
kern_return_t
ipc_right_lookup_write(
ipc_space_t space,
mach_port_t name,
ipc_entry_t *entryp)
{
ipc_entry_t entry;
assert(space != IS_NULL);
is_write_lock(space);
if (!space->is_active) {
is_write_unlock(space);
return KERN_INVALID_TASK;
}
if ((entry = ipc_entry_lookup(space, name)) == IE_NULL) {
is_write_unlock(space);
return KERN_INVALID_NAME;
}
*entryp = entry;
return KERN_SUCCESS;
}
boolean_t
ipc_right_reverse(
ipc_space_t space,
ipc_object_t object,
mach_port_t *namep,
ipc_entry_t *entryp)
{
ipc_port_t port;
mach_port_t name;
ipc_entry_t entry;
/* would switch on io_otype to handle multiple types of object */
assert(space->is_active);
assert(io_otype(object) == IOT_PORT);
port = (ipc_port_t) object;
ip_lock(port);
if (!ip_active(port)) {
ip_unlock(port);
return FALSE;
}
if (port->ip_receiver == space) {
name = port->ip_receiver_name;
assert(name != MACH_PORT_NULL);
entry = ipc_entry_lookup(space, name);
assert(entry != IE_NULL);
assert(entry->ie_bits & MACH_PORT_TYPE_RECEIVE);
assert(port == (ipc_port_t) entry->ie_object);
*namep = name;
*entryp = entry;
return TRUE;
}
if ((*entryp = ipc_reverse_lookup(space, (ipc_object_t) port))) {
*namep = (*entryp)->ie_name;
assert((entry = *entryp) != IE_NULL);
assert(IE_BITS_TYPE(entry->ie_bits) == MACH_PORT_TYPE_SEND);
assert(port == (ipc_port_t) entry->ie_object);
return TRUE;
}
ip_unlock(port);
return FALSE;
}
kern_return_t
mach_port_move_member(
ipc_space_t space,
mach_port_name_t member,
mach_port_name_t after)
{
ipc_entry_t entry;
ipc_port_t port;
ipc_pset_t nset;
kern_return_t kr;
if (space == IS_NULL)
return KERN_INVALID_TASK;
if (!MACH_PORT_VALID(member))
return KERN_INVALID_RIGHT;
if (after == MACH_PORT_DEAD)
return KERN_INVALID_RIGHT;
kr = ipc_right_lookup_read(space, member, &entry);
if (kr != KERN_SUCCESS)
return kr;
/* space is read-locked and active */
if ((entry->ie_bits & MACH_PORT_TYPE_RECEIVE) == 0) {
is_read_unlock(space);
return KERN_INVALID_RIGHT;
}
port = (ipc_port_t) entry->ie_object;
assert(port != IP_NULL);
if (after == MACH_PORT_NULL)
nset = IPS_NULL;
else {
entry = ipc_entry_lookup(space, after);
if (entry == IE_NULL) {
is_read_unlock(space);
return KERN_INVALID_NAME;
}
if ((entry->ie_bits & MACH_PORT_TYPE_PORT_SET) == 0) {
is_read_unlock(space);
return KERN_INVALID_RIGHT;
}
nset = (ipc_pset_t) entry->ie_object;
assert(nset != IPS_NULL);
}
ip_lock(port);
ipc_pset_remove_from_all(port);
if (nset != IPS_NULL) {
ips_lock(nset);
kr = ipc_pset_add(nset, port);
ips_unlock(nset);
}
ip_unlock(port);
is_read_unlock(space);
return kr;
}
mach_msg_return_t
ipc_mqueue_copyin(
ipc_space_t space,
mach_port_t name,
ipc_mqueue_t *mqueuep,
ipc_object_t *objectp)
{
ipc_entry_t entry;
ipc_entry_bits_t bits;
ipc_object_t object;
ipc_mqueue_t mqueue;
is_read_lock(space);
if (!space->is_active) {
is_read_unlock(space);
return MACH_RCV_INVALID_NAME;
}
entry = ipc_entry_lookup(space, name);
if (entry == IE_NULL) {
is_read_unlock(space);
return MACH_RCV_INVALID_NAME;
}
bits = entry->ie_bits;
object = entry->ie_object;
if (bits & MACH_PORT_TYPE_RECEIVE) {
ipc_port_t port;
ipc_pset_t pset;
port = (ipc_port_t) object;
assert(port != IP_NULL);
ip_lock(port);
assert(ip_active(port));
assert(port->ip_receiver_name == name);
assert(port->ip_receiver == space);
is_read_unlock(space);
pset = port->ip_pset;
if (pset != IPS_NULL) {
ips_lock(pset);
if (ips_active(pset)) {
ips_unlock(pset);
ip_unlock(port);
return MACH_RCV_IN_SET;
}
ipc_pset_remove(pset, port);
ips_check_unlock(pset);
assert(port->ip_pset == IPS_NULL);
}
mqueue = &port->ip_messages;
} else if (bits & MACH_PORT_TYPE_PORT_SET) {
ipc_pset_t pset;
pset = (ipc_pset_t) object;
assert(pset != IPS_NULL);
ips_lock(pset);
assert(ips_active(pset));
assert(pset->ips_local_name == name);
is_read_unlock(space);
mqueue = &pset->ips_messages;
} else {
is_read_unlock(space);
return MACH_RCV_INVALID_NAME;
}
/*
* At this point, the object is locked and active,
* the space is unlocked, and mqueue is initialized.
*/
io_reference(object);
imq_lock(mqueue);
io_unlock(object);
*objectp = object;
*mqueuep = mqueue;
return MACH_MSG_SUCCESS;
}
