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#include "id_table.h"
#include "wp_uidmapper_lib.h"
#include <sys/types.h> /* opendir */
#include <sys/stat.h> /* stat */
#include <stdlib.h> /* mallloc,free,strtol */
#include <string.h> /* memcpy */
#include <errno.h> /* errno */
#include <dirent.h> /* opendir */
#include <unistd.h> /* stat */
unsigned long hash_func(char *string,unsigned long num_buckets) {
unsigned long i;
char *p;
for(i = 0, p = string; *p; p++) i = (9 * i) + *p;
return i % num_buckets;
}
struct id_table_entry {
struct id_table_entry **pself;
struct id_table_entry *next;
int id;
char tmp;
char name[1];
};
struct key_hash_entry {
unsigned key[WP_KEY_LEN];
id_table_entry *e;
struct key_hash_entry **pself;
struct key_hash_entry *next;
};
id_table_range *id_table_range_new(char *str) {
id_table_range *rhead,*rtail;
char *p,*pn;
long s,e;
rhead = rtail = 0;
for(p = str; *p; p = *pn ? pn + 1 : pn) {
s = strtoul(p,&pn,0);
if(pn > p) {
if(*pn == '-') {
p = pn + 1;
e = strtoul(p,&pn,0);
if(pn == p) e = s;
} else {
e = s;
}
if(rtail) {
rtail->next = (id_table_range*)malloc(sizeof(id_table_range));
rtail = rtail->next;
} else {
rhead = rtail = (id_table_range*)malloc(sizeof(id_table_range));
}
rtail->start = s;
rtail->end = e;
}
}
if(rtail) rtail->next = 0;
return rhead;
}
void id_table_range_delete(id_table_range *range) {
id_table_range *r;
while(r = range) {
range = range->next;
free(r);
}
}
int id_table_init(id_table *t,id_table_range *range) {
id_table_range *r;
unsigned long array_end,u;
if(!range) return -1;
t->array_start = range->start;
array_end = range->end;
for(r = range->next; r; r = r->next) {
if(r->start < t->array_start) t->array_start = r->start;
if(r->end > array_end) array_end = r->end;
}
if(t->array_start >= array_end) return -1;
t->array_size = array_end + 1 - t->array_start;
t->hash_size = t->array_size * 2 + 1;
t->key_hash_size = t->array_size * 2 + 1;
t->array = (id_table_entry**)malloc(sizeof(id_table_entry*) * t->array_size);
t->hash = (id_table_entry**)malloc(sizeof(id_table_entry*) * t->hash_size);
t->key_hash = (key_hash_entry**)malloc(sizeof(key_hash_entry *) * t->key_hash_size);
if(!t->hash || !t->array || !t->key_hash) {
if(t->hash) free(t->hash);
if(t->key_hash) free(t->key_hash);
if(t->array) free(t->array);
return -1;
}
for(u = 0; u < t->array_size; u++) t->array[u] = (id_table_entry*)-1;
t->max_fill = 0;
for(r = range; r; r = r->next) {
t->max_fill += r->end + 1 - r->start;
for(u = r->start; u <= r->end; u++) t->array[u - t->array_start] = 0;
}
bzero(t->hash,sizeof(id_table_entry*) * t->hash_size);
bzero(t->key_hash, sizeof(key_hash_entry*) * t->key_hash_size);
t->array_ptr = 0;
t->fill = 0;
return 0;
}
void id_table_destroy(id_table *t) {
unsigned long u;
for(u = 0; u < t->array_size; u++)
if(t->array[u] && (t->array[u] != (id_table_entry*)-1)) free(t->array[u]);
free(t->hash);
free(t->array);
}
int id_table_create_id(id_table *t,char *name,unsigned *key) {
id_table_entry **pe,*e;
unsigned long size;
if(name && strlen(name)){
for(pe = t->hash + hash_func(name,t->hash_size); *pe; pe = &(*pe)->next)
if(!strcmp(name,(*pe)->name)){
if(key[0]){
if((e = key_hash_get_entry(t, key)) == NULL){
if(key_hash_create_entry(t, *pe, key) == NULL){
return -1;
}
}
else if(e->id != (*pe)->id){
return -1;
}
}
return (*pe)->id;
}
/* no matching name found */
}
else {
if(e = key_hash_get_entry(t,key))
return e->id;
/* MUST have seen name/key pair at least once */
errno = EINVAL;
return -1;
}
/* need to add new entry */
if(t->fill == t->max_fill) {
id_table_remove_stale(t);
if(t->fill == t->max_fill) {
errno = ENOSPC;
return -1;
}
for(pe = t->hash + hash_func(name,t->hash_size); *pe; pe = &(*pe)->next);
}
size = strlen(name);
e = (id_table_entry*)malloc(sizeof(id_table_entry) + size);
if(!e) return -1;
while(t->array[t->array_ptr])
t->array_ptr = (t->array_ptr + 1) % t->array_size;
e->pself = pe;
e->next = 0;
e->id = (int)(t->array_ptr + t->array_start);
memcpy(e->name,name,size + 1);
if(key[0] && key_hash_create_entry(t, e,key) == NULL)
return -1;
*pe = e;
t->array[t->array_ptr] = e;
t->array_ptr = (t->array_ptr + 1) % t->array_size;
t->fill++;
return e->id;
}
static id_table_entry *id_table_get_entry(id_table *t,unsigned long id) {
if(id >= t->array_start) {
id -= t->array_start;
if(id < t->array_size)
if(t->array[id] && (t->array[id] != (id_table_entry*)-1))
return t->array[id];
}
return 0;
}
char *id_table_get_name(id_table *t,int id) {
id_table_entry *e = id_table_get_entry(t,(unsigned long)id);
return e ? e->name : 0;
}
int id_table_remove_stale(id_table *t) {
id_table_entry *e;
unsigned long u;
DIR *d;
struct dirent *de;
struct stat st;
char path[NAME_MAX + 7];
/*
* flag all uids inactive
*/
for(u = 0; u < t->array_size; u++)
if(t->array[u] && (t->array[u] != (id_table_entry*)-1))
t->array[u]->tmp = 0;
/*
* go through list of processes, finding active uids
*/
memcpy(path,"/proc/",6);
if(d = opendir("/proc")) {
while(de = readdir(d)) {
strcpy(path + 6,de->d_name);
if(!stat(path,&st)) {
if(e = id_table_get_entry(t,(unsigned long)st.st_uid)) e->tmp = 1;
}
}
closedir(d);
}
/*
* remove ones still marked inactive
*/
for(u = 0; u < t->array_size; u++) {
e = t->array[u];
if(e && (e != (id_table_entry*)-1)) {
if(!e->tmp) {
if(e->next) e->next->pself = e->pself;
*e->pself = e->next;
t->array[u] = 0;
t->array_ptr = u;
t->fill--;
key_hash_delete_keys(t, e);
free(e);
}
}
}
return 0;
}
id_table_entry *key_hash_get_entry(id_table *t, unsigned *key) {
key_hash_entry **ke;
for(ke = t->key_hash + (key[0] % t->key_hash_size); *ke; ke = &(*ke)->next)
if(key[0] && (*ke)->key[0] == key[0] && !memcmp(key,(*ke)->key,WP_KEY_LEN * sizeof(unsigned)))
return (*ke)->e;
return NULL;
}
key_hash_entry *key_hash_create_entry(id_table *t, id_table_entry *pe, unsigned *key) {
key_hash_entry **ke, *kep;
for(ke = &t->key_hash[key[0] % t->key_hash_size]; *ke; ke = &(*ke)->next)
if(!memcmp(key,(*ke)->key,WP_KEY_LEN * sizeof(unsigned)))
return NULL;
if(kep = malloc(sizeof(key_hash_entry))){
memcpy(kep->key,key,(WP_KEY_LEN * sizeof(unsigned int)));
kep->e = pe;
kep->pself = ke;
kep->next = NULL;
*ke = kep;
}
return kep;
}
void key_hash_delete_keys(id_table *t, id_table_entry *e) {
key_hash_entry *kp, *kd;
int u;
for(u = 0; u < t->key_hash_size; u++){
for(kp = t->key_hash[u]; kp; )
if (kp->e == e){
kd = kp;
if(kp->next) kp->next->pself = kp->pself;
*kp->pself = kp->next;
kp = kp->next;
free(kd);
}
else
kp = kp->next;
}
}
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