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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.
*/
/*
*/
/*
* File: ipc/mach_debug.c
* Author: Rich Draves
* Date: 1989
*
* Exported kernel calls. See mach_debug/mach_debug.defs.
*/
#include <string.h>
#include <mach/kern_return.h>
#include <mach/port.h>
#include <mach/machine/vm_types.h>
#include <mach/vm_param.h>
#include <mach_debug/ipc_info.h>
#include <mach_debug/hash_info.h>
#include <kern/host.h>
#include <vm/vm_map.h>
#include <vm/vm_kern.h>
#include <ipc/ipc_space.h>
#include <ipc/ipc_port.h>
#include <ipc/ipc_hash.h>
#include <ipc/ipc_marequest.h>
#include <ipc/ipc_table.h>
#include <ipc/ipc_right.h>
/*
* Routine: mach_port_get_srights [kernel call]
* Purpose:
* Retrieve the number of extant send rights
* that a receive right has.
* Conditions:
* Nothing locked.
* Returns:
* KERN_SUCCESS Retrieved number of send rights.
* KERN_INVALID_TASK The space is null.
* KERN_INVALID_TASK The space is dead.
* KERN_INVALID_NAME The name doesn't denote a right.
* KERN_INVALID_RIGHT Name doesn't denote receive rights.
*/
kern_return_t
mach_port_get_srights(
ipc_space_t space,
mach_port_t name,
mach_port_rights_t *srightsp)
{
ipc_port_t port;
kern_return_t kr;
mach_port_rights_t srights;
if (space == IS_NULL)
return KERN_INVALID_TASK;
kr = ipc_port_translate_receive(space, name, &port);
if (kr != KERN_SUCCESS)
return kr;
/* port is locked and active */
srights = port->ip_srights;
ip_unlock(port);
*srightsp = srights;
return KERN_SUCCESS;
}
/*
* Routine: host_ipc_hash_info
* Purpose:
* Return information about the global reverse hash table.
* Conditions:
* Nothing locked. Obeys CountInOut protocol.
* Returns:
* KERN_SUCCESS Returned information.
* KERN_INVALID_HOST The host is null.
* KERN_RESOURCE_SHORTAGE Couldn't allocate memory.
*/
kern_return_t
host_ipc_hash_info(
host_t host,
hash_info_bucket_array_t *infop,
mach_msg_type_number_t *countp)
{
vm_offset_t addr;
vm_size_t size;
hash_info_bucket_t *info;
unsigned int potential, actual;
kern_return_t kr;
if (host == HOST_NULL)
return KERN_INVALID_HOST;
/* start with in-line data */
info = *infop;
potential = *countp;
for (;;) {
actual = ipc_hash_info(info, potential);
if (actual <= potential)
break;
/* allocate more memory */
if (info != *infop)
kmem_free(ipc_kernel_map, addr, size);
size = round_page(actual * sizeof *info);
kr = kmem_alloc_pageable(ipc_kernel_map, &addr, size);
if (kr != KERN_SUCCESS)
return KERN_RESOURCE_SHORTAGE;
info = (hash_info_bucket_t *) addr;
potential = size/sizeof *info;
}
if (info == *infop) {
/* data fit in-line; nothing to deallocate */
*countp = actual;
} else if (actual == 0) {
kmem_free(ipc_kernel_map, addr, size);
*countp = 0;
} else {
vm_map_copy_t copy;
vm_size_t used;
used = round_page(actual * sizeof *info);
if (used != size)
kmem_free(ipc_kernel_map, addr + used, size - used);
kr = vm_map_copyin(ipc_kernel_map, addr, used,
TRUE, ©);
assert(kr == KERN_SUCCESS);
*infop = (hash_info_bucket_t *) copy;
*countp = actual;
}
return KERN_SUCCESS;
}
/*
* Routine: host_ipc_marequest_info
* Purpose:
* Return information about the marequest hash table.
* Conditions:
* Nothing locked. Obeys CountInOut protocol.
* Returns:
* KERN_SUCCESS Returned information.
* KERN_INVALID_HOST The host is null.
* KERN_RESOURCE_SHORTAGE Couldn't allocate memory.
*/
kern_return_t
host_ipc_marequest_info(host, maxp, infop, countp)
host_t host;
unsigned int *maxp;
hash_info_bucket_array_t *infop;
unsigned int *countp;
{
vm_offset_t addr;
vm_size_t size = 0; /* '=0' to shut up lint */
hash_info_bucket_t *info;
unsigned int potential, actual;
kern_return_t kr;
if (host == HOST_NULL)
return KERN_INVALID_HOST;
/* start with in-line data */
info = *infop;
potential = *countp;
for (;;) {
actual = ipc_marequest_info(maxp, info, potential);
if (actual <= potential)
break;
/* allocate more memory */
if (info != *infop)
kmem_free(ipc_kernel_map, addr, size);
size = round_page(actual * sizeof *info);
kr = kmem_alloc_pageable(ipc_kernel_map, &addr, size);
if (kr != KERN_SUCCESS)
return KERN_RESOURCE_SHORTAGE;
info = (hash_info_bucket_t *) addr;
potential = size/sizeof *info;
}
if (info == *infop) {
/* data fit in-line; nothing to deallocate */
*countp = actual;
} else if (actual == 0) {
kmem_free(ipc_kernel_map, addr, size);
*countp = 0;
} else {
vm_map_copy_t copy;
vm_size_t used;
used = round_page(actual * sizeof *info);
if (used != size)
kmem_free(ipc_kernel_map, addr + used, size - used);
kr = vm_map_copyin(ipc_kernel_map, addr, used,
TRUE, ©);
assert(kr == KERN_SUCCESS);
*infop = (hash_info_bucket_t *) copy;
*countp = actual;
}
return KERN_SUCCESS;
}
/*
* Routine: mach_port_space_info
* Purpose:
* Returns information about an IPC space.
* Conditions:
* Nothing locked. Obeys CountInOut protocol.
* Returns:
* KERN_SUCCESS Returned information.
* KERN_INVALID_TASK The space is null.
* KERN_INVALID_TASK The space is dead.
* KERN_RESOURCE_SHORTAGE Couldn't allocate memory.
*/
kern_return_t
mach_port_space_info(
ipc_space_t space,
ipc_info_space_t *infop,
ipc_info_name_array_t *tablep,
mach_msg_type_number_t *tableCntp,
ipc_info_tree_name_array_t *treep,
mach_msg_type_number_t *treeCntp)
{
ipc_info_name_t *table_info;
unsigned int table_potential, table_actual;
vm_offset_t table_addr;
vm_size_t table_size;
ipc_info_tree_name_t *tree_info;
unsigned int tree_potential, tree_actual;
vm_offset_t tree_addr;
vm_size_t tree_size;
ipc_tree_entry_t tentry;
ipc_entry_t table;
ipc_entry_num_t tsize;
mach_port_index_t index;
kern_return_t kr;
if (space == IS_NULL)
return KERN_INVALID_TASK;
/* start with in-line memory */
table_info = *tablep;
table_potential = *tableCntp;
tree_info = *treep;
tree_potential = *treeCntp;
for (;;) {
is_read_lock(space);
if (!space->is_active) {
is_read_unlock(space);
if (table_info != *tablep)
kmem_free(ipc_kernel_map,
table_addr, table_size);
if (tree_info != *treep)
kmem_free(ipc_kernel_map,
tree_addr, tree_size);
return KERN_INVALID_TASK;
}
table_actual = space->is_table_size;
tree_actual = space->is_tree_total;
if ((table_actual <= table_potential) &&
(tree_actual <= tree_potential))
break;
is_read_unlock(space);
if (table_actual > table_potential) {
if (table_info != *tablep)
kmem_free(ipc_kernel_map,
table_addr, table_size);
table_size = round_page(table_actual *
sizeof *table_info);
kr = kmem_alloc(ipc_kernel_map,
&table_addr, table_size);
if (kr != KERN_SUCCESS) {
if (tree_info != *treep)
kmem_free(ipc_kernel_map,
tree_addr, tree_size);
return KERN_RESOURCE_SHORTAGE;
}
table_info = (ipc_info_name_t *) table_addr;
table_potential = table_size/sizeof *table_info;
}
if (tree_actual > tree_potential) {
if (tree_info != *treep)
kmem_free(ipc_kernel_map,
tree_addr, tree_size);
tree_size = round_page(tree_actual *
sizeof *tree_info);
kr = kmem_alloc(ipc_kernel_map,
&tree_addr, tree_size);
if (kr != KERN_SUCCESS) {
if (table_info != *tablep)
kmem_free(ipc_kernel_map,
table_addr, table_size);
return KERN_RESOURCE_SHORTAGE;
}
tree_info = (ipc_info_tree_name_t *) tree_addr;
tree_potential = tree_size/sizeof *tree_info;
}
}
/* space is read-locked and active; we have enough wired memory */
infop->iis_genno_mask = MACH_PORT_NGEN(MACH_PORT_DEAD);
infop->iis_table_size = space->is_table_size;
infop->iis_table_next = space->is_table_next->its_size;
infop->iis_tree_size = space->is_tree_total;
infop->iis_tree_small = space->is_tree_small;
infop->iis_tree_hash = space->is_tree_hash;
table = space->is_table;
tsize = space->is_table_size;
for (index = 0; index < tsize; index++) {
ipc_info_name_t *iin = &table_info[index];
ipc_entry_t entry = &table[index];
ipc_entry_bits_t bits = entry->ie_bits;
iin->iin_name = MACH_PORT_MAKEB(index, bits);
iin->iin_collision = (bits & IE_BITS_COLLISION) ? TRUE : FALSE;
iin->iin_compat = FALSE;
iin->iin_marequest = (bits & IE_BITS_MAREQUEST) ? TRUE : FALSE;
iin->iin_type = IE_BITS_TYPE(bits);
iin->iin_urefs = IE_BITS_UREFS(bits);
iin->iin_object = (vm_offset_t) entry->ie_object;
iin->iin_next = entry->ie_next;
iin->iin_hash = entry->ie_index;
}
for (tentry = ipc_splay_traverse_start(&space->is_tree), index = 0;
tentry != ITE_NULL;
tentry = ipc_splay_traverse_next(&space->is_tree, FALSE)) {
ipc_info_tree_name_t *iitn = &tree_info[index++];
ipc_info_name_t *iin = &iitn->iitn_name;
ipc_entry_t entry = &tentry->ite_entry;
ipc_entry_bits_t bits = entry->ie_bits;
assert(IE_BITS_TYPE(bits) != MACH_PORT_TYPE_NONE);
iin->iin_name = tentry->ite_name;
iin->iin_collision = (bits & IE_BITS_COLLISION) ? TRUE : FALSE;
iin->iin_compat = FALSE;
iin->iin_marequest = (bits & IE_BITS_MAREQUEST) ? TRUE : FALSE;
iin->iin_type = IE_BITS_TYPE(bits);
iin->iin_urefs = IE_BITS_UREFS(bits);
iin->iin_object = (vm_offset_t) entry->ie_object;
iin->iin_next = entry->ie_next;
iin->iin_hash = entry->ie_index;
if (tentry->ite_lchild == ITE_NULL)
iitn->iitn_lchild = MACH_PORT_NULL;
else
iitn->iitn_lchild = tentry->ite_lchild->ite_name;
if (tentry->ite_rchild == ITE_NULL)
iitn->iitn_rchild = MACH_PORT_NULL;
else
iitn->iitn_rchild = tentry->ite_rchild->ite_name;
}
ipc_splay_traverse_finish(&space->is_tree);
is_read_unlock(space);
if (table_info == *tablep) {
/* data fit in-line; nothing to deallocate */
*tableCntp = table_actual;
} else if (table_actual == 0) {
kmem_free(ipc_kernel_map, table_addr, table_size);
*tableCntp = 0;
} else {
vm_size_t size_used, rsize_used;
vm_map_copy_t copy;
/* kmem_alloc doesn't zero memory */
size_used = table_actual * sizeof *table_info;
rsize_used = round_page(size_used);
if (rsize_used != table_size)
kmem_free(ipc_kernel_map,
table_addr + rsize_used,
table_size - rsize_used);
if (size_used != rsize_used)
memset((char *) (table_addr + size_used), 0,
rsize_used - size_used);
kr = vm_map_copyin(ipc_kernel_map, table_addr, rsize_used,
TRUE, ©);
assert(kr == KERN_SUCCESS);
*tablep = (ipc_info_name_t *) copy;
*tableCntp = table_actual;
}
if (tree_info == *treep) {
/* data fit in-line; nothing to deallocate */
*treeCntp = tree_actual;
} else if (tree_actual == 0) {
kmem_free(ipc_kernel_map, tree_addr, tree_size);
*treeCntp = 0;
} else {
vm_size_t size_used, rsize_used;
vm_map_copy_t copy;
/* kmem_alloc doesn't zero memory */
size_used = tree_actual * sizeof *tree_info;
rsize_used = round_page(size_used);
if (rsize_used != tree_size)
kmem_free(ipc_kernel_map,
tree_addr + rsize_used,
tree_size - rsize_used);
if (size_used != rsize_used)
memset((char *) (tree_addr + size_used), 0,
rsize_used - size_used);
kr = vm_map_copyin(ipc_kernel_map, tree_addr, rsize_used,
TRUE, ©);
assert(kr == KERN_SUCCESS);
*treep = (ipc_info_tree_name_t *) copy;
*treeCntp = tree_actual;
}
return KERN_SUCCESS;
}
/*
* Routine: mach_port_dnrequest_info
* Purpose:
* Returns information about the dead-name requests
* registered with the named receive right.
* Conditions:
* Nothing locked.
* Returns:
* KERN_SUCCESS Retrieved information.
* KERN_INVALID_TASK The space is null.
* KERN_INVALID_TASK The space is dead.
* KERN_INVALID_NAME The name doesn't denote a right.
* KERN_INVALID_RIGHT Name doesn't denote receive rights.
*/
kern_return_t
mach_port_dnrequest_info(
ipc_space_t space,
mach_port_t name,
unsigned int *totalp,
unsigned int *usedp)
{
unsigned int total, used;
ipc_port_t port;
kern_return_t kr;
if (space == IS_NULL)
return KERN_INVALID_TASK;
kr = ipc_port_translate_receive(space, name, &port);
if (kr != KERN_SUCCESS)
return kr;
/* port is locked and active */
if (port->ip_dnrequests == IPR_NULL) {
total = 0;
used = 0;
} else {
ipc_port_request_t dnrequests = port->ip_dnrequests;
ipc_port_request_index_t index;
total = dnrequests->ipr_size->its_size;
for (index = 1, used = 0;
index < total; index++) {
ipc_port_request_t ipr = &dnrequests[index];
if (ipr->ipr_name != MACH_PORT_NULL)
used++;
}
}
ip_unlock(port);
*totalp = total;
*usedp = used;
return KERN_SUCCESS;
}
/*
* Routine: mach_port_kernel_object [kernel call]
* Purpose:
* Retrieve the type and address of the kernel object
* represented by a send or receive right.
* Conditions:
* Nothing locked.
* Returns:
* KERN_SUCCESS Retrieved kernel object info.
* KERN_INVALID_TASK The space is null.
* KERN_INVALID_TASK The space is dead.
* KERN_INVALID_NAME The name doesn't denote a right.
* KERN_INVALID_RIGHT Name doesn't denote
* send or receive rights.
*/
kern_return_t
mach_port_kernel_object(
ipc_space_t space,
mach_port_t name,
unsigned int *typep,
vm_offset_t *addrp)
{
ipc_entry_t entry;
ipc_port_t port;
kern_return_t kr;
kr = ipc_right_lookup_read(space, name, &entry);
if (kr != KERN_SUCCESS)
return kr;
/* space is read-locked and active */
if ((entry->ie_bits & MACH_PORT_TYPE_SEND_RECEIVE) == 0) {
is_read_unlock(space);
return KERN_INVALID_RIGHT;
}
port = (ipc_port_t) entry->ie_object;
assert(port != IP_NULL);
ip_lock(port);
is_read_unlock(space);
if (!ip_active(port)) {
ip_unlock(port);
return KERN_INVALID_RIGHT;
}
*typep = (unsigned int) ip_kotype(port);
*addrp = (vm_offset_t) port->ip_kobject;
ip_unlock(port);
return KERN_SUCCESS;
}
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