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|
/*
* Mach Operating System
* Copyright (c) 1991,1990 Carnegie Mellon University
* All Rights Reserved.
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
* ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
#include <mach/boolean.h>
#include <mach/port.h>
#include <mach/message.h>
#include <mach/thread_status.h>
#include <kern/ast.h>
#include <kern/debug.h>
#include <kern/ipc_tt.h>
#include <kern/thread.h>
#include <kern/task.h>
#include <kern/ipc_kobject.h>
#include <vm/vm_map.h>
#include <vm/vm_user.h>
#include <ipc/port.h>
#include <ipc/ipc_kmsg.h>
#include <ipc/ipc_entry.h>
#include <ipc/ipc_object.h>
#include <ipc/ipc_mqueue.h>
#include <ipc/ipc_space.h>
#include <ipc/ipc_port.h>
#include <ipc/ipc_pset.h>
#include <ipc/ipc_thread.h>
#include <device/device_types.h>
/*
* Routine: mach_msg_send_from_kernel
* Purpose:
* Send a message from the kernel.
*
* This is used by the client side of KernelUser interfaces
* to implement SimpleRoutines. Currently, this includes
* device_reply and memory_object messages.
* Conditions:
* Nothing locked.
* Returns:
* MACH_MSG_SUCCESS Sent the message.
* MACH_SEND_INVALID_DATA Bad destination port.
*/
mach_msg_return_t
mach_msg_send_from_kernel(
mach_msg_header_t *msg,
mach_msg_size_t send_size)
{
ipc_kmsg_t kmsg;
mach_msg_return_t mr;
if (!MACH_PORT_VALID(msg->msgh_remote_port))
return MACH_SEND_INVALID_DEST;
mr = ipc_kmsg_get_from_kernel(msg, send_size, &kmsg);
if (mr != MACH_MSG_SUCCESS)
panic("mach_msg_send_from_kernel");
ipc_kmsg_copyin_from_kernel(kmsg);
ipc_mqueue_send_always(kmsg);
return MACH_MSG_SUCCESS;
}
mach_msg_return_t
mach_msg_rpc_from_kernel(msg, send_size, reply_size)
mach_msg_header_t *msg;
mach_msg_size_t send_size;
mach_msg_size_t reply_size;
{
panic("mach_msg_rpc_from_kernel"); /*XXX*/
}
/*
* Routine: mach_msg_abort_rpc
* Purpose:
* Destroy the thread's ith_rpc_reply port.
* This will interrupt a mach_msg_rpc_from_kernel
* with a MACH_RCV_PORT_DIED return code.
* Conditions:
* Nothing locked.
*/
void
mach_msg_abort_rpc(thread)
ipc_thread_t thread;
{
ipc_port_t reply = IP_NULL;
ith_lock(thread);
if (thread->ith_self != IP_NULL) {
reply = thread->ith_rpc_reply;
thread->ith_rpc_reply = IP_NULL;
}
ith_unlock(thread);
if (reply != IP_NULL)
ipc_port_dealloc_reply(reply);
}
/*
* Routine: mach_msg
* Purpose:
* Like mach_msg_trap except that message buffers
* live in kernel space. Doesn't handle any options.
*
* This is used by in-kernel server threads to make
* kernel calls, to receive request messages, and
* to send reply messages.
* Conditions:
* Nothing locked.
* Returns:
*/
mach_msg_return_t
mach_msg(msg, option, send_size, rcv_size, rcv_name, time_out, notify)
mach_msg_header_t *msg;
mach_msg_option_t option;
mach_msg_size_t send_size;
mach_msg_size_t rcv_size;
mach_port_t rcv_name;
mach_msg_timeout_t time_out;
mach_port_t notify;
{
ipc_space_t space = current_space();
vm_map_t map = current_map();
ipc_kmsg_t kmsg;
mach_port_seqno_t seqno;
mach_msg_return_t mr;
if (option & MACH_SEND_MSG) {
mr = ipc_kmsg_get_from_kernel(msg, send_size, &kmsg);
if (mr != MACH_MSG_SUCCESS)
panic("mach_msg");
mr = ipc_kmsg_copyin(kmsg, space, map, MACH_PORT_NULL);
if (mr != MACH_MSG_SUCCESS) {
ikm_free(kmsg);
return mr;
}
do
mr = ipc_mqueue_send(kmsg, MACH_MSG_OPTION_NONE,
MACH_MSG_TIMEOUT_NONE);
while (mr == MACH_SEND_INTERRUPTED);
assert(mr == MACH_MSG_SUCCESS);
}
if (option & MACH_RCV_MSG) {
do {
ipc_object_t object;
ipc_mqueue_t mqueue;
mr = ipc_mqueue_copyin(space, rcv_name,
&mqueue, &object);
if (mr != MACH_MSG_SUCCESS)
return mr;
/* hold ref for object; mqueue is locked */
mr = ipc_mqueue_receive(mqueue, MACH_MSG_OPTION_NONE,
MACH_MSG_SIZE_MAX,
MACH_MSG_TIMEOUT_NONE,
FALSE, IMQ_NULL_CONTINUE,
&kmsg, &seqno);
/* mqueue is unlocked */
ipc_object_release(object);
} while (mr == MACH_RCV_INTERRUPTED);
if (mr != MACH_MSG_SUCCESS)
return mr;
kmsg->ikm_header.msgh_seqno = seqno;
if (rcv_size < kmsg->ikm_header.msgh_size) {
ipc_kmsg_copyout_dest(kmsg, space);
ipc_kmsg_put_to_kernel(msg, kmsg, sizeof *msg);
return MACH_RCV_TOO_LARGE;
}
mr = ipc_kmsg_copyout(kmsg, space, map, MACH_PORT_NULL);
if (mr != MACH_MSG_SUCCESS) {
if ((mr &~ MACH_MSG_MASK) == MACH_RCV_BODY_ERROR) {
ipc_kmsg_put_to_kernel(msg, kmsg,
kmsg->ikm_header.msgh_size);
} else {
ipc_kmsg_copyout_dest(kmsg, space);
ipc_kmsg_put_to_kernel(msg, kmsg, sizeof *msg);
}
return mr;
}
ipc_kmsg_put_to_kernel(msg, kmsg, kmsg->ikm_header.msgh_size);
}
return MACH_MSG_SUCCESS;
}
/*
* Routine: mig_get_reply_port
* Purpose:
* Called by client side interfaces living in the kernel
* to get a reply port. This port is used for
* mach_msg() calls which are kernel calls.
*/
mach_port_t
mig_get_reply_port(void)
{
ipc_thread_t self = current_thread();
if (self->ith_mig_reply == MACH_PORT_NULL)
self->ith_mig_reply = mach_reply_port();
return self->ith_mig_reply;
}
/*
* Routine: mig_dealloc_reply_port
* Purpose:
* Called by client side interfaces to get rid of a reply port.
* Shouldn't ever be called inside the kernel, because
* kernel calls shouldn't prompt Mig to call it.
*/
void
mig_dealloc_reply_port(
mach_port_t reply_port)
{
panic("mig_dealloc_reply_port");
}
/*
* Routine: mig_put_reply_port
* Purpose:
* Called by client side interfaces after each RPC to
* let the client recycle the reply port if it wishes.
*/
void
mig_put_reply_port(
mach_port_t reply_port)
{
}
/*
* mig_strncpy.c - by Joshua Block
*
* mig_strncp -- Bounded string copy. Does what the library routine strncpy
* OUGHT to do: Copies the (null terminated) string in src into dest, a
* buffer of length len. Assures that the copy is still null terminated
* and doesn't overflow the buffer, truncating the copy if necessary.
*
* Parameters:
*
* dest - Pointer to destination buffer.
*
* src - Pointer to source string.
*
* len - Length of destination buffer.
*/
void mig_strncpy(dest, src, len)
char *dest, *src;
int len;
{
int i;
if (len <= 0)
return;
for (i=1; i<len; i++)
if (! (*dest++ = *src++))
return;
*dest = '\0';
return;
}
#define fast_send_right_lookup(name, port, abort) \
MACRO_BEGIN \
register ipc_space_t space = current_space(); \
register ipc_entry_t entry; \
register mach_port_index_t index = MACH_PORT_INDEX(name); \
\
is_read_lock(space); \
assert(space->is_active); \
\
if ((index >= space->is_table_size) || \
(((entry = &space->is_table[index])->ie_bits & \
(IE_BITS_GEN_MASK|MACH_PORT_TYPE_SEND)) != \
(MACH_PORT_GEN(name) | MACH_PORT_TYPE_SEND))) { \
is_read_unlock(space); \
abort; \
} \
\
port = (ipc_port_t) entry->ie_object; \
assert(port != IP_NULL); \
\
ip_lock(port); \
/* can safely unlock space now that port is locked */ \
is_read_unlock(space); \
MACRO_END
device_t
port_name_to_device(name)
mach_port_t name;
{
register ipc_port_t port;
register device_t device;
fast_send_right_lookup(name, port, goto abort);
/* port is locked */
/*
* Now map the port object to a device object.
* This is an inline version of dev_port_lookup().
*/
if (ip_active(port) && (ip_kotype(port) == IKOT_DEVICE)) {
device = (device_t) port->ip_kobject;
device_reference(device);
ip_unlock(port);
return device;
}
ip_unlock(port);
return DEVICE_NULL;
/*
* The slow case. The port wasn't easily accessible.
*/
abort: {
ipc_port_t kern_port;
kern_return_t kr;
kr = ipc_object_copyin(current_space(), name,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &kern_port);
if (kr != KERN_SUCCESS)
return DEVICE_NULL;
device = dev_port_lookup(kern_port);
if (IP_VALID(kern_port))
ipc_port_release_send(kern_port);
return device;
}
}
thread_t
port_name_to_thread(name)
mach_port_t name;
{
register ipc_port_t port;
fast_send_right_lookup(name, port, goto abort);
/* port is locked */
if (ip_active(port) &&
(ip_kotype(port) == IKOT_THREAD)) {
register thread_t thread;
thread = (thread_t) port->ip_kobject;
assert(thread != THREAD_NULL);
/* thread referencing is a bit complicated,
so don't bother to expand inline */
thread_reference(thread);
ip_unlock(port);
return thread;
}
ip_unlock(port);
return THREAD_NULL;
abort: {
thread_t thread;
ipc_port_t kern_port;
kern_return_t kr;
kr = ipc_object_copyin(current_space(), name,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &kern_port);
if (kr != KERN_SUCCESS)
return THREAD_NULL;
thread = convert_port_to_thread(kern_port);
if (IP_VALID(kern_port))
ipc_port_release_send(kern_port);
return thread;
}
}
task_t
port_name_to_task(name)
mach_port_t name;
{
register ipc_port_t port;
fast_send_right_lookup(name, port, goto abort);
/* port is locked */
if (ip_active(port) &&
(ip_kotype(port) == IKOT_TASK)) {
register task_t task;
task = (task_t) port->ip_kobject;
assert(task != TASK_NULL);
task_lock(task);
/* can safely unlock port now that task is locked */
ip_unlock(port);
task->ref_count++;
task_unlock(task);
return task;
}
ip_unlock(port);
return TASK_NULL;
abort: {
task_t task;
ipc_port_t kern_port;
kern_return_t kr;
kr = ipc_object_copyin(current_space(), name,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &kern_port);
if (kr != KERN_SUCCESS)
return TASK_NULL;
task = convert_port_to_task(kern_port);
if (IP_VALID(kern_port))
ipc_port_release_send(kern_port);
return task;
}
}
vm_map_t
port_name_to_map(
mach_port_t name)
{
register ipc_port_t port;
fast_send_right_lookup(name, port, goto abort);
/* port is locked */
if (ip_active(port) &&
(ip_kotype(port) == IKOT_TASK)) {
register vm_map_t map;
map = ((task_t) port->ip_kobject)->map;
assert(map != VM_MAP_NULL);
simple_lock(&map->ref_lock);
/* can safely unlock port now that map is locked */
ip_unlock(port);
map->ref_count++;
simple_unlock(&map->ref_lock);
return map;
}
ip_unlock(port);
return VM_MAP_NULL;
abort: {
vm_map_t map;
ipc_port_t kern_port;
kern_return_t kr;
kr = ipc_object_copyin(current_space(), name,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &kern_port);
if (kr != KERN_SUCCESS)
return VM_MAP_NULL;
map = convert_port_to_map(kern_port);
if (IP_VALID(kern_port))
ipc_port_release_send(kern_port);
return map;
}
}
ipc_space_t
port_name_to_space(name)
mach_port_t name;
{
register ipc_port_t port;
fast_send_right_lookup(name, port, goto abort);
/* port is locked */
if (ip_active(port) &&
(ip_kotype(port) == IKOT_TASK)) {
register ipc_space_t space;
space = ((task_t) port->ip_kobject)->itk_space;
assert(space != IS_NULL);
simple_lock(&space->is_ref_lock_data);
/* can safely unlock port now that space is locked */
ip_unlock(port);
space->is_references++;
simple_unlock(&space->is_ref_lock_data);
return space;
}
ip_unlock(port);
return IS_NULL;
abort: {
ipc_space_t space;
ipc_port_t kern_port;
kern_return_t kr;
kr = ipc_object_copyin(current_space(), name,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &kern_port);
if (kr != KERN_SUCCESS)
return IS_NULL;
space = convert_port_to_space(kern_port);
if (IP_VALID(kern_port))
ipc_port_release_send(kern_port);
return space;
}
}
/*
* Hack to translate a thread port to a thread pointer for calling
* thread_get_state and thread_set_state. This is only necessary
* because the IPC message for these two operations overflows the
* kernel stack.
*
* AARGH!
*/
kern_return_t thread_get_state_KERNEL(thread_port, flavor,
old_state, old_state_count)
mach_port_t thread_port; /* port right for thread */
int flavor;
thread_state_t old_state; /* pointer to OUT array */
natural_t *old_state_count; /* IN/OUT */
{
thread_t thread;
kern_return_t result;
thread = port_name_to_thread(thread_port);
result = thread_get_state(thread, flavor, old_state, old_state_count);
thread_deallocate(thread);
return result;
}
kern_return_t thread_set_state_KERNEL(thread_port, flavor,
new_state, new_state_count)
mach_port_t thread_port; /* port right for thread */
int flavor;
thread_state_t new_state;
natural_t new_state_count;
{
thread_t thread;
kern_return_t result;
thread = port_name_to_thread(thread_port);
result = thread_set_state(thread, flavor, new_state, new_state_count);
thread_deallocate(thread);
return result;
}
/*
* Things to keep in mind:
*
* The idea here is to duplicate the semantics of the true kernel RPC.
* The destination port/object should be checked first, before anything
* that the user might notice (like ipc_object_copyin). Return
* MACH_SEND_INTERRUPTED if it isn't correct, so that the user stub
* knows to fall back on an RPC. For other return values, it won't
* retry with an RPC. The retry might get a different (incorrect) rc.
* Return values are only set (and should only be set, with copyout)
* on successfull calls.
*/
kern_return_t
syscall_vm_map(
mach_port_t target_map,
vm_offset_t *address,
vm_size_t size,
vm_offset_t mask,
boolean_t anywhere,
mach_port_t memory_object,
vm_offset_t offset,
boolean_t copy,
vm_prot_t cur_protection,
vm_prot_t max_protection,
vm_inherit_t inheritance)
{
vm_map_t map;
ipc_port_t port;
vm_offset_t addr;
kern_return_t result;
map = port_name_to_map(target_map);
if (map == VM_MAP_NULL)
return MACH_SEND_INTERRUPTED;
if (MACH_PORT_VALID(memory_object)) {
result = ipc_object_copyin(current_space(), memory_object,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &port);
if (result != KERN_SUCCESS) {
vm_map_deallocate(map);
return result;
}
} else
port = (ipc_port_t) memory_object;
copyin((char *)address, (char *)&addr, sizeof(vm_offset_t));
result = vm_map(map, &addr, size, mask, anywhere,
port, offset, copy,
cur_protection, max_protection, inheritance);
if (result == KERN_SUCCESS)
copyout((char *)&addr, (char *)address, sizeof(vm_offset_t));
if (IP_VALID(port))
ipc_port_release_send(port);
vm_map_deallocate(map);
return result;
}
kern_return_t syscall_vm_allocate(target_map, address, size, anywhere)
mach_port_t target_map;
vm_offset_t *address;
vm_size_t size;
boolean_t anywhere;
{
vm_map_t map;
vm_offset_t addr;
kern_return_t result;
map = port_name_to_map(target_map);
if (map == VM_MAP_NULL)
return MACH_SEND_INTERRUPTED;
copyin((char *)address, (char *)&addr, sizeof(vm_offset_t));
result = vm_allocate(map, &addr, size, anywhere);
if (result == KERN_SUCCESS)
copyout((char *)&addr, (char *)address, sizeof(vm_offset_t));
vm_map_deallocate(map);
return result;
}
kern_return_t syscall_vm_deallocate(target_map, start, size)
mach_port_t target_map;
vm_offset_t start;
vm_size_t size;
{
vm_map_t map;
kern_return_t result;
map = port_name_to_map(target_map);
if (map == VM_MAP_NULL)
return MACH_SEND_INTERRUPTED;
result = vm_deallocate(map, start, size);
vm_map_deallocate(map);
return result;
}
kern_return_t syscall_task_create(parent_task, inherit_memory, child_task)
mach_port_t parent_task;
boolean_t inherit_memory;
mach_port_t *child_task; /* OUT */
{
task_t t, c;
ipc_port_t port;
mach_port_t name;
kern_return_t result;
t = port_name_to_task(parent_task);
if (t == TASK_NULL)
return MACH_SEND_INTERRUPTED;
result = task_create(t, inherit_memory, &c);
if (result == KERN_SUCCESS) {
port = (ipc_port_t) convert_task_to_port(c);
/* always returns a name, even for non-success return codes */
(void) ipc_kmsg_copyout_object(current_space(),
(ipc_object_t) port,
MACH_MSG_TYPE_PORT_SEND, &name);
copyout((char *)&name, (char *)child_task,
sizeof(mach_port_t));
}
task_deallocate(t);
return result;
}
kern_return_t syscall_task_terminate(task)
mach_port_t task;
{
task_t t;
kern_return_t result;
t = port_name_to_task(task);
if (t == TASK_NULL)
return MACH_SEND_INTERRUPTED;
result = task_terminate(t);
task_deallocate(t);
return result;
}
kern_return_t syscall_task_suspend(task)
mach_port_t task;
{
task_t t;
kern_return_t result;
t = port_name_to_task(task);
if (t == TASK_NULL)
return MACH_SEND_INTERRUPTED;
result = task_suspend(t);
task_deallocate(t);
return result;
}
kern_return_t syscall_task_set_special_port(task, which_port, port_name)
mach_port_t task;
int which_port;
mach_port_t port_name;
{
task_t t;
ipc_port_t port;
kern_return_t result;
t = port_name_to_task(task);
if (t == TASK_NULL)
return MACH_SEND_INTERRUPTED;
if (MACH_PORT_VALID(port_name)) {
result = ipc_object_copyin(current_space(), port_name,
MACH_MSG_TYPE_COPY_SEND,
(ipc_object_t *) &port);
if (result != KERN_SUCCESS) {
task_deallocate(t);
return result;
}
} else
port = (ipc_port_t) port_name;
result = task_set_special_port(t, which_port, port);
if ((result != KERN_SUCCESS) && IP_VALID(port))
ipc_port_release_send(port);
task_deallocate(t);
return result;
}
kern_return_t
syscall_mach_port_allocate(task, right, namep)
mach_port_t task;
mach_port_right_t right;
mach_port_t *namep;
{
ipc_space_t space;
mach_port_t name;
kern_return_t kr;
space = port_name_to_space(task);
if (space == IS_NULL)
return MACH_SEND_INTERRUPTED;
kr = mach_port_allocate(space, right, &name);
if (kr == KERN_SUCCESS)
copyout((char *)&name, (char *)namep, sizeof(mach_port_t));
is_release(space);
return kr;
}
kern_return_t
syscall_mach_port_allocate_name(task, right, name)
mach_port_t task;
mach_port_right_t right;
mach_port_t name;
{
ipc_space_t space;
kern_return_t kr;
space = port_name_to_space(task);
if (space == IS_NULL)
return MACH_SEND_INTERRUPTED;
kr = mach_port_allocate_name(space, right, name);
is_release(space);
return kr;
}
kern_return_t
syscall_mach_port_deallocate(task, name)
mach_port_t task;
mach_port_t name;
{
ipc_space_t space;
kern_return_t kr;
space = port_name_to_space(task);
if (space == IS_NULL)
return MACH_SEND_INTERRUPTED;
kr = mach_port_deallocate(space, name);
is_release(space);
return kr;
}
kern_return_t
syscall_mach_port_insert_right(task, name, right, rightType)
mach_port_t task;
mach_port_t name;
mach_port_t right;
mach_msg_type_name_t rightType;
{
ipc_space_t space;
ipc_object_t object;
mach_msg_type_name_t newtype;
kern_return_t kr;
space = port_name_to_space(task);
if (space == IS_NULL)
return MACH_SEND_INTERRUPTED;
if (!MACH_MSG_TYPE_PORT_ANY(rightType)) {
is_release(space);
return KERN_INVALID_VALUE;
}
if (MACH_PORT_VALID(right)) {
kr = ipc_object_copyin(current_space(), right, rightType,
&object);
if (kr != KERN_SUCCESS) {
is_release(space);
return kr;
}
} else
object = (ipc_object_t) right;
newtype = ipc_object_copyin_type(rightType);
kr = mach_port_insert_right(space, name, (ipc_port_t) object, newtype);
if ((kr != KERN_SUCCESS) && IO_VALID(object))
ipc_object_destroy(object, newtype);
is_release(space);
return kr;
}
kern_return_t syscall_thread_depress_abort(thread)
mach_port_t thread;
{
thread_t t;
kern_return_t result;
t = port_name_to_thread(thread);
if (t == THREAD_NULL)
return MACH_SEND_INTERRUPTED;
result = thread_depress_abort(t);
thread_deallocate(t);
return result;
}
/*
* Device traps -- these are way experimental.
*/
extern io_return_t ds_device_write_trap();
extern io_return_t ds_device_writev_trap();
io_return_t
syscall_device_write_request(mach_port_t device_name,
mach_port_t reply_name,
dev_mode_t mode,
recnum_t recnum,
vm_offset_t data,
vm_size_t data_count)
{
device_t dev;
ipc_port_t reply_port;
io_return_t res;
/*
* First try to translate the device name.
*
* If this fails, return KERN_INVALID_CAPABILITY.
* Caller knows that this most likely means that
* device is not local to node and IPC should be used.
*
* If kernel doesn't do device traps, kern_invalid()
* will be called instead of this function which will
* return KERN_INVALID_ARGUMENT.
*/
dev = port_name_to_device(device_name);
if (dev == DEVICE_NULL)
return KERN_INVALID_CAPABILITY;
/*
* Translate reply port.
*/
if (reply_name == MACH_PORT_NULL)
reply_port = IP_NULL;
else {
/* Homey don't play that. */
device_deallocate(dev);
return KERN_INVALID_RIGHT;
}
/* note: doesn't take reply_port arg yet. */
res = ds_device_write_trap(dev, /*reply_port,*/
mode, recnum,
data, data_count);
/*
* Give up reference from port_name_to_device.
*/
device_deallocate(dev);
return res;
}
io_return_t
syscall_device_writev_request(mach_port_t device_name,
mach_port_t reply_name,
dev_mode_t mode,
recnum_t recnum,
io_buf_vec_t *iovec,
vm_size_t iocount)
{
device_t dev;
ipc_port_t reply_port;
io_return_t res;
/*
* First try to translate the device name.
*
* If this fails, return KERN_INVALID_CAPABILITY.
* Caller knows that this most likely means that
* device is not local to node and IPC should be used.
*
* If kernel doesn't do device traps, kern_invalid()
* will be called instead of this function which will
* return KERN_INVALID_ARGUMENT.
*/
dev = port_name_to_device(device_name);
if (dev == DEVICE_NULL)
return KERN_INVALID_CAPABILITY;
/*
* Translate reply port.
*/
if (reply_name == MACH_PORT_NULL)
reply_port = IP_NULL;
else {
/* Homey don't play that. */
device_deallocate(dev);
return KERN_INVALID_RIGHT;
}
/* note: doesn't take reply_port arg yet. */
res = ds_device_writev_trap(dev, /*reply_port,*/
mode, recnum,
iovec, iocount);
/*
* Give up reference from port_name_to_device.
*/
device_deallocate(dev);
return res;
}
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