2005-04-16 18:20:36 -04:00
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/*
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* Implementation of the SID table type.
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*
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* Author : Stephen Smalley, <sds@epoch.ncsc.mil>
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*/
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#include <linux/kernel.h>
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#include <linux/slab.h>
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#include <linux/spinlock.h>
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#include <linux/errno.h>
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#include "flask.h"
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#include "security.h"
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#include "sidtab.h"
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#define SIDTAB_HASH(sid) \
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(sid & SIDTAB_HASH_MASK)
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#define INIT_SIDTAB_LOCK(s) spin_lock_init(&s->lock)
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#define SIDTAB_LOCK(s, x) spin_lock_irqsave(&s->lock, x)
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#define SIDTAB_UNLOCK(s, x) spin_unlock_irqrestore(&s->lock, x)
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int sidtab_init(struct sidtab *s)
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{
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int i;
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s->htable = kmalloc(sizeof(*(s->htable)) * SIDTAB_SIZE, GFP_ATOMIC);
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if (!s->htable)
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return -ENOMEM;
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for (i = 0; i < SIDTAB_SIZE; i++)
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s->htable[i] = NULL;
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s->nel = 0;
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s->next_sid = 1;
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s->shutdown = 0;
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INIT_SIDTAB_LOCK(s);
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return 0;
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}
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int sidtab_insert(struct sidtab *s, u32 sid, struct context *context)
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{
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int hvalue, rc = 0;
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struct sidtab_node *prev, *cur, *newnode;
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if (!s) {
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rc = -ENOMEM;
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goto out;
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}
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hvalue = SIDTAB_HASH(sid);
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prev = NULL;
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cur = s->htable[hvalue];
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while (cur != NULL && sid > cur->sid) {
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prev = cur;
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cur = cur->next;
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}
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if (cur && sid == cur->sid) {
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rc = -EEXIST;
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goto out;
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}
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newnode = kmalloc(sizeof(*newnode), GFP_ATOMIC);
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if (newnode == NULL) {
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rc = -ENOMEM;
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goto out;
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}
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newnode->sid = sid;
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if (context_cpy(&newnode->context, context)) {
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kfree(newnode);
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rc = -ENOMEM;
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goto out;
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}
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if (prev) {
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newnode->next = prev->next;
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wmb();
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prev->next = newnode;
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} else {
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newnode->next = s->htable[hvalue];
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wmb();
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s->htable[hvalue] = newnode;
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}
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s->nel++;
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if (sid >= s->next_sid)
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s->next_sid = sid + 1;
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out:
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return rc;
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}
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struct context *sidtab_search(struct sidtab *s, u32 sid)
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{
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int hvalue;
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struct sidtab_node *cur;
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if (!s)
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return NULL;
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hvalue = SIDTAB_HASH(sid);
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cur = s->htable[hvalue];
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while (cur != NULL && sid > cur->sid)
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cur = cur->next;
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if (cur == NULL || sid != cur->sid) {
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/* Remap invalid SIDs to the unlabeled SID. */
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sid = SECINITSID_UNLABELED;
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hvalue = SIDTAB_HASH(sid);
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cur = s->htable[hvalue];
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while (cur != NULL && sid > cur->sid)
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cur = cur->next;
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if (!cur || sid != cur->sid)
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return NULL;
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}
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return &cur->context;
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}
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int sidtab_map(struct sidtab *s,
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int (*apply) (u32 sid,
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struct context *context,
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void *args),
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void *args)
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{
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int i, rc = 0;
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struct sidtab_node *cur;
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if (!s)
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goto out;
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for (i = 0; i < SIDTAB_SIZE; i++) {
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cur = s->htable[i];
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while (cur != NULL) {
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rc = apply(cur->sid, &cur->context, args);
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if (rc)
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goto out;
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cur = cur->next;
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}
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}
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out:
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return rc;
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}
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void sidtab_map_remove_on_error(struct sidtab *s,
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int (*apply) (u32 sid,
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struct context *context,
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void *args),
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void *args)
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{
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int i, ret;
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struct sidtab_node *last, *cur, *temp;
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if (!s)
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return;
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for (i = 0; i < SIDTAB_SIZE; i++) {
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last = NULL;
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cur = s->htable[i];
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while (cur != NULL) {
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ret = apply(cur->sid, &cur->context, args);
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if (ret) {
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if (last) {
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last->next = cur->next;
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} else {
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s->htable[i] = cur->next;
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}
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temp = cur;
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cur = cur->next;
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context_destroy(&temp->context);
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kfree(temp);
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s->nel--;
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} else {
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last = cur;
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cur = cur->next;
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}
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}
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}
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return;
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}
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static inline u32 sidtab_search_context(struct sidtab *s,
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struct context *context)
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{
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int i;
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struct sidtab_node *cur;
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for (i = 0; i < SIDTAB_SIZE; i++) {
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cur = s->htable[i];
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while (cur != NULL) {
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if (context_cmp(&cur->context, context))
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return cur->sid;
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cur = cur->next;
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}
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}
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return 0;
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}
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int sidtab_context_to_sid(struct sidtab *s,
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struct context *context,
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u32 *out_sid)
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{
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u32 sid;
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int ret = 0;
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unsigned long flags;
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*out_sid = SECSID_NULL;
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sid = sidtab_search_context(s, context);
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if (!sid) {
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SIDTAB_LOCK(s, flags);
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/* Rescan now that we hold the lock. */
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sid = sidtab_search_context(s, context);
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if (sid)
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goto unlock_out;
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/* No SID exists for the context. Allocate a new one. */
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if (s->next_sid == UINT_MAX || s->shutdown) {
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ret = -ENOMEM;
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goto unlock_out;
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}
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sid = s->next_sid++;
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ret = sidtab_insert(s, sid, context);
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if (ret)
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s->next_sid--;
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unlock_out:
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SIDTAB_UNLOCK(s, flags);
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}
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if (ret)
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return ret;
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*out_sid = sid;
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return 0;
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}
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void sidtab_hash_eval(struct sidtab *h, char *tag)
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{
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int i, chain_len, slots_used, max_chain_len;
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struct sidtab_node *cur;
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slots_used = 0;
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max_chain_len = 0;
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for (i = 0; i < SIDTAB_SIZE; i++) {
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cur = h->htable[i];
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if (cur) {
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slots_used++;
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chain_len = 0;
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while (cur) {
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chain_len++;
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cur = cur->next;
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}
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if (chain_len > max_chain_len)
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max_chain_len = chain_len;
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}
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}
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2007-02-22 18:11:31 -05:00
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printk(KERN_DEBUG "%s: %d entries and %d/%d buckets used, longest "
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2005-04-16 18:20:36 -04:00
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"chain length %d\n", tag, h->nel, slots_used, SIDTAB_SIZE,
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max_chain_len);
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}
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void sidtab_destroy(struct sidtab *s)
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{
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int i;
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struct sidtab_node *cur, *temp;
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if (!s)
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return;
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for (i = 0; i < SIDTAB_SIZE; i++) {
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cur = s->htable[i];
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while (cur != NULL) {
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temp = cur;
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cur = cur->next;
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context_destroy(&temp->context);
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kfree(temp);
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}
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s->htable[i] = NULL;
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}
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kfree(s->htable);
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s->htable = NULL;
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s->nel = 0;
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s->next_sid = 1;
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}
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void sidtab_set(struct sidtab *dst, struct sidtab *src)
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{
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unsigned long flags;
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SIDTAB_LOCK(src, flags);
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dst->htable = src->htable;
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dst->nel = src->nel;
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dst->next_sid = src->next_sid;
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dst->shutdown = 0;
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SIDTAB_UNLOCK(src, flags);
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}
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void sidtab_shutdown(struct sidtab *s)
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{
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unsigned long flags;
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SIDTAB_LOCK(s, flags);
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s->shutdown = 1;
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SIDTAB_UNLOCK(s, flags);
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}
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