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/*
* Mach Operating System
* Copyright (c) 1991,1990,1989 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/ipc_hash.c
* Author: Rich Draves
* Date: 1989
*
* Entry hash table operations.
*/
#include <mach/boolean.h>
#include <mach/port.h>
#include <kern/lock.h>
#include <kern/kalloc.h>
#include <ipc/port.h>
#include <ipc/ipc_space.h>
#include <ipc/ipc_object.h>
#include <ipc/ipc_entry.h>
#include <ipc/ipc_hash.h>
#include <ipc/ipc_init.h>
#include <ipc/ipc_types.h>
#include <mach_ipc_debug.h>
#if MACH_IPC_DEBUG
#include <mach/kern_return.h>
#include <mach_debug/hash_info.h>
#include <vm/vm_map.h>
#include <vm/vm_kern.h>
#include <vm/vm_user.h>
#endif
/*
* Routine: ipc_hash_lookup
* Purpose:
* Converts (space, obj) -> (name, entry).
* Returns TRUE if an entry was found.
* Conditions:
* The space must be locked (read or write) throughout.
*/
boolean_t
ipc_hash_lookup(space, obj, namep, entryp)
ipc_space_t space;
ipc_object_t obj;
mach_port_t *namep;
ipc_entry_t *entryp;
{
return (ipc_hash_local_lookup(space, obj, namep, entryp) ||
((space->is_tree_hash > 0) &&
ipc_hash_global_lookup(space, obj, namep,
(ipc_tree_entry_t *) entryp)));
}
/*
* Routine: ipc_hash_insert
* Purpose:
* Inserts an entry into the appropriate reverse hash table,
* so that ipc_hash_lookup will find it.
* Conditions:
* The space must be write-locked.
*/
void
ipc_hash_insert(
ipc_space_t space,
ipc_object_t obj,
mach_port_t name,
ipc_entry_t entry)
{
mach_port_index_t index;
index = MACH_PORT_INDEX(name);
if ((index < space->is_table_size) &&
(entry == &space->is_table[index]))
ipc_hash_local_insert(space, obj, index, entry);
else
ipc_hash_global_insert(space, obj, name,
(ipc_tree_entry_t) entry);
}
/*
* Routine: ipc_hash_delete
* Purpose:
* Deletes an entry from the appropriate reverse hash table.
* Conditions:
* The space must be write-locked.
*/
void
ipc_hash_delete(
ipc_space_t space,
ipc_object_t obj,
mach_port_t name,
ipc_entry_t entry)
{
mach_port_index_t index;
index = MACH_PORT_INDEX(name);
if ((index < space->is_table_size) &&
(entry == &space->is_table[index]))
ipc_hash_local_delete(space, obj, index, entry);
else
ipc_hash_global_delete(space, obj, name,
(ipc_tree_entry_t) entry);
}
/*
* The global reverse hash table holds splay tree entries.
* It is a simple open-chaining hash table with singly-linked buckets.
* Each bucket is locked separately, with an exclusive lock.
* Within each bucket, move-to-front is used.
*/
typedef natural_t ipc_hash_index_t;
ipc_hash_index_t ipc_hash_global_size;
ipc_hash_index_t ipc_hash_global_mask;
#define IH_GLOBAL_HASH(space, obj) \
(((((ipc_hash_index_t) ((vm_offset_t)space)) >> 4) + \
(((ipc_hash_index_t) ((vm_offset_t)obj)) >> 6)) & \
ipc_hash_global_mask)
typedef struct ipc_hash_global_bucket {
decl_simple_lock_data(, ihgb_lock_data)
ipc_tree_entry_t ihgb_head;
} *ipc_hash_global_bucket_t;
#define IHGB_NULL ((ipc_hash_global_bucket_t) 0)
#define ihgb_lock_init(ihgb) simple_lock_init(&(ihgb)->ihgb_lock_data)
#define ihgb_lock(ihgb) simple_lock(&(ihgb)->ihgb_lock_data)
#define ihgb_unlock(ihgb) simple_unlock(&(ihgb)->ihgb_lock_data)
ipc_hash_global_bucket_t ipc_hash_global_table;
/*
* Routine: ipc_hash_global_lookup
* Purpose:
* Converts (space, obj) -> (name, entry).
* Looks in the global table, for splay tree entries.
* Returns TRUE if an entry was found.
* Conditions:
* The space must be locked (read or write) throughout.
*/
boolean_t
ipc_hash_global_lookup(
ipc_space_t space,
ipc_object_t obj,
mach_port_t *namep,
ipc_tree_entry_t *entryp)
{
ipc_hash_global_bucket_t bucket;
ipc_tree_entry_t this, *last;
assert(space != IS_NULL);
assert(obj != IO_NULL);
bucket = &ipc_hash_global_table[IH_GLOBAL_HASH(space, obj)];
ihgb_lock(bucket);
if ((this = bucket->ihgb_head) != ITE_NULL) {
if ((this->ite_object == obj) &&
(this->ite_space == space)) {
/* found it at front; no need to move */
*namep = this->ite_name;
*entryp = this;
} else for (last = &this->ite_next;
(this = *last) != ITE_NULL;
last = &this->ite_next) {
if ((this->ite_object == obj) &&
(this->ite_space == space)) {
/* found it; move to front */
*last = this->ite_next;
this->ite_next = bucket->ihgb_head;
bucket->ihgb_head = this;
*namep = this->ite_name;
*entryp = this;
break;
}
}
}
ihgb_unlock(bucket);
return this != ITE_NULL;
}
/*
* Routine: ipc_hash_global_insert
* Purpose:
* Inserts an entry into the global reverse hash table.
* Conditions:
* The space must be write-locked.
*/
void
ipc_hash_global_insert(
ipc_space_t space,
ipc_object_t obj,
mach_port_t name,
ipc_tree_entry_t entry)
{
ipc_hash_global_bucket_t bucket;
assert(entry->ite_name == name);
assert(space != IS_NULL);
assert(entry->ite_space == space);
assert(obj != IO_NULL);
assert(entry->ite_object == obj);
space->is_tree_hash++;
assert(space->is_tree_hash <= space->is_tree_total);
bucket = &ipc_hash_global_table[IH_GLOBAL_HASH(space, obj)];
ihgb_lock(bucket);
/* insert at front of bucket */
entry->ite_next = bucket->ihgb_head;
bucket->ihgb_head = entry;
ihgb_unlock(bucket);
}
/*
* Routine: ipc_hash_global_delete
* Purpose:
* Deletes an entry from the global reverse hash table.
* Conditions:
* The space must be write-locked.
*/
void
ipc_hash_global_delete(
ipc_space_t space,
ipc_object_t obj,
mach_port_t name,
ipc_tree_entry_t entry)
{
ipc_hash_global_bucket_t bucket;
ipc_tree_entry_t this, *last;
assert(entry->ite_name == name);
assert(space != IS_NULL);
assert(entry->ite_space == space);
assert(obj != IO_NULL);
assert(entry->ite_object == obj);
assert(space->is_tree_hash > 0);
space->is_tree_hash--;
bucket = &ipc_hash_global_table[IH_GLOBAL_HASH(space, obj)];
ihgb_lock(bucket);
for (last = &bucket->ihgb_head;
(this = *last) != ITE_NULL;
last = &this->ite_next) {
if (this == entry) {
/* found it; remove from bucket */
*last = this->ite_next;
break;
}
}
assert(this != ITE_NULL);
ihgb_unlock(bucket);
}
/*
* Each space has a local reverse hash table, which holds
* entries from the space's table. In fact, the hash table
* just uses a field (ie_index) in the table itself.
*
* The local hash table is an open-addressing hash table,
* which means that when a collision occurs, instead of
* throwing the entry into a bucket, the entry is rehashed
* to another position in the table. In this case the rehash
* is very simple: linear probing (ie, just increment the position).
* This simple rehash makes deletions tractable (they're still a pain),
* but it means that collisions tend to build up into clumps.
*
* Because at least one entry in the table (index 0) is always unused,
* there will always be room in the reverse hash table. If a table
* with n slots gets completely full, the reverse hash table will
* have one giant clump of n-1 slots and one free slot somewhere.
* Because entries are only entered into the reverse table if they
* are pure send rights (not receive, send-once, port-set,
* or dead-name rights), and free entries of course aren't entered,
* I expect the reverse hash table won't get unreasonably full.
*
* Ordered hash tables (Amble & Knuth, Computer Journal, v. 17, no. 2,
* pp. 135-142.) may be desirable here. They can dramatically help
* unsuccessful lookups. But unsuccessful lookups are almost always
* followed by insertions, and those slow down somewhat. They
* also can help deletions somewhat. Successful lookups aren't affected.
* So possibly a small win; probably nothing significant.
*/
#define IH_LOCAL_HASH(obj, size) \
((((mach_port_index_t) (obj)) >> 6) % (size))
/*
* Routine: ipc_hash_local_lookup
* Purpose:
* Converts (space, obj) -> (name, entry).
* Looks in the space's local table, for table entries.
* Returns TRUE if an entry was found.
* Conditions:
* The space must be locked (read or write) throughout.
*/
boolean_t
ipc_hash_local_lookup(
ipc_space_t space,
ipc_object_t obj,
mach_port_t *namep,
ipc_entry_t *entryp)
{
ipc_entry_t table;
ipc_entry_num_t size;
mach_port_index_t hindex, index;
assert(space != IS_NULL);
assert(obj != IO_NULL);
table = space->is_table;
size = space->is_table_size;
hindex = IH_LOCAL_HASH(obj, size);
/*
* Ideally, table[hindex].ie_index is the name we want.
* However, must check ie_object to verify this,
* because collisions can happen. In case of a collision,
* search farther along in the clump.
*/
while ((index = table[hindex].ie_index) != 0) {
ipc_entry_t entry = &table[index];
if (entry->ie_object == obj) {
*namep = MACH_PORT_MAKEB(index, entry->ie_bits);
*entryp = entry;
return TRUE;
}
if (++hindex == size)
hindex = 0;
}
return FALSE;
}
/*
* Routine: ipc_hash_local_insert
* Purpose:
* Inserts an entry into the space's reverse hash table.
* Conditions:
* The space must be write-locked.
*/
void
ipc_hash_local_insert(
ipc_space_t space,
ipc_object_t obj,
mach_port_index_t index,
ipc_entry_t entry)
{
ipc_entry_t table;
ipc_entry_num_t size;
mach_port_index_t hindex;
assert(index != 0);
assert(space != IS_NULL);
assert(obj != IO_NULL);
table = space->is_table;
size = space->is_table_size;
hindex = IH_LOCAL_HASH(obj, size);
assert(entry == &table[index]);
assert(entry->ie_object == obj);
/*
* We want to insert at hindex, but there may be collisions.
* If a collision occurs, search for the end of the clump
* and insert there.
*/
while (table[hindex].ie_index != 0) {
if (++hindex == size)
hindex = 0;
}
table[hindex].ie_index = index;
}
/*
* Routine: ipc_hash_local_delete
* Purpose:
* Deletes an entry from the space's reverse hash table.
* Conditions:
* The space must be write-locked.
*/
void
ipc_hash_local_delete(
ipc_space_t space,
ipc_object_t obj,
mach_port_index_t index,
ipc_entry_t entry)
{
ipc_entry_t table;
ipc_entry_num_t size;
mach_port_index_t hindex, dindex;
assert(index != MACH_PORT_NULL);
assert(space != IS_NULL);
assert(obj != IO_NULL);
table = space->is_table;
size = space->is_table_size;
hindex = IH_LOCAL_HASH(obj, size);
assert(entry == &table[index]);
assert(entry->ie_object == obj);
/*
* First check we have the right hindex for this index.
* In case of collision, we have to search farther
* along in this clump.
*/
while (table[hindex].ie_index != index) {
if (table[hindex].ie_index == 0)
{
static int gak = 0;
if (gak == 0)
{
printf("gak! entry wasn't in hash table!\n");
gak = 1;
}
return;
}
if (++hindex == size)
hindex = 0;
}
/*
* Now we want to set table[hindex].ie_index = 0.
* But if we aren't the last index in a clump,
* this might cause problems for lookups of objects
* farther along in the clump that are displaced
* due to collisions. Searches for them would fail
* at hindex instead of succeeding.
*
* So we must check the clump after hindex for objects
* that are so displaced, and move one up to the new hole.
*
* hindex - index of new hole in the clump
* dindex - index we are checking for a displaced object
*
* When we move a displaced object up into the hole,
* it creates a new hole, and we have to repeat the process
* until we get to the end of the clump.
*/
for (dindex = hindex; index != 0; hindex = dindex) {
for (;;) {
mach_port_index_t tindex;
ipc_object_t tobj;
if (++dindex == size)
dindex = 0;
assert(dindex != hindex);
/* are we at the end of the clump? */
index = table[dindex].ie_index;
if (index == 0)
break;
/* is this a displaced object? */
tobj = table[index].ie_object;
assert(tobj != IO_NULL);
tindex = IH_LOCAL_HASH(tobj, size);
if ((dindex < hindex) ?
((dindex < tindex) && (tindex <= hindex)) :
((dindex < tindex) || (tindex <= hindex)))
break;
}
table[hindex].ie_index = index;
}
}
/*
* Routine: ipc_hash_init
* Purpose:
* Initialize the reverse hash table implementation.
*/
void
ipc_hash_init(void)
{
ipc_hash_index_t i;
/* if not configured, initialize ipc_hash_global_size */
if (ipc_hash_global_size == 0) {
ipc_hash_global_size = ipc_tree_entry_max >> 8;
if (ipc_hash_global_size < 32)
ipc_hash_global_size = 32;
}
/* make sure it is a power of two */
ipc_hash_global_mask = ipc_hash_global_size - 1;
if ((ipc_hash_global_size & ipc_hash_global_mask) != 0) {
natural_t bit;
/* round up to closest power of two */
for (bit = 1;; bit <<= 1) {
ipc_hash_global_mask |= bit;
ipc_hash_global_size = ipc_hash_global_mask + 1;
if ((ipc_hash_global_size & ipc_hash_global_mask) == 0)
break;
}
}
/* allocate ipc_hash_global_table */
ipc_hash_global_table = (ipc_hash_global_bucket_t)
kalloc((vm_size_t) (ipc_hash_global_size *
sizeof(struct ipc_hash_global_bucket)));
assert(ipc_hash_global_table != IHGB_NULL);
/* and initialize it */
for (i = 0; i < ipc_hash_global_size; i++) {
ipc_hash_global_bucket_t bucket;
bucket = &ipc_hash_global_table[i];
ihgb_lock_init(bucket);
bucket->ihgb_head = ITE_NULL;
}
}
#if MACH_IPC_DEBUG
/*
* Routine: ipc_hash_info
* Purpose:
* Return information about the global reverse hash table.
* Fills the buffer with as much information as possible
* and returns the desired size of the buffer.
* Conditions:
* Nothing locked. The caller should provide
* possibly-pageable memory.
*/
ipc_hash_index_t
ipc_hash_info(
hash_info_bucket_t *info,
mach_msg_type_number_t count)
{
ipc_hash_index_t i;
if (ipc_hash_global_size < count)
count = ipc_hash_global_size;
for (i = 0; i < count; i++) {
ipc_hash_global_bucket_t bucket = &ipc_hash_global_table[i];
unsigned int bucket_count = 0;
ipc_tree_entry_t entry;
ihgb_lock(bucket);
for (entry = bucket->ihgb_head;
entry != ITE_NULL;
entry = entry->ite_next)
bucket_count++;
ihgb_unlock(bucket);
/* don't touch pageable memory while holding locks */
info[i].hib_count = bucket_count;
}
return ipc_hash_global_size;
}
#endif /* MACH_IPC_DEBUG */
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