zapret/nfq/pools.c

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C
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2024-10-28 11:32:24 +05:00
#define _GNU_SOURCE
#include "pools.h"
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#define DESTROY_STR_POOL(etype, ppool) \
etype *elem, *tmp; \
HASH_ITER(hh, *ppool, elem, tmp) { \
free(elem->str); \
HASH_DEL(*ppool, elem); \
free(elem); \
}
#define ADD_STR_POOL(etype, ppool, keystr, keystr_len) \
etype *elem; \
if (!(elem = (etype*)malloc(sizeof(etype)))) \
return false; \
if (!(elem->str = malloc(keystr_len + 1))) \
{ \
free(elem); \
return false; \
} \
memcpy(elem->str, keystr, keystr_len); \
elem->str[keystr_len] = 0; \
oom = false; \
HASH_ADD_KEYPTR(hh, *ppool, elem->str, strlen(elem->str), elem); \
if (oom) \
{ \
free(elem->str); \
free(elem); \
return false; \
}
#undef uthash_nonfatal_oom
#define uthash_nonfatal_oom(elt) ut_oom_recover(elt)
static bool oom = false;
static void ut_oom_recover(void *elem)
{
oom = true;
}
// for not zero terminated strings
bool StrPoolAddStrLen(strpool **pp, const char *s, size_t slen)
{
ADD_STR_POOL(strpool, pp, s, slen)
return true;
}
// for zero terminated strings
bool StrPoolAddStr(strpool **pp, const char *s)
{
return StrPoolAddStrLen(pp, s, strlen(s));
}
bool StrPoolCheckStr(strpool *p, const char *s)
{
strpool *elem;
HASH_FIND_STR(p, s, elem);
return elem != NULL;
}
void StrPoolDestroy(strpool **pp)
{
DESTROY_STR_POOL(strpool, pp)
}
void HostFailPoolDestroy(hostfail_pool **pp)
{
DESTROY_STR_POOL(hostfail_pool, pp)
}
hostfail_pool * HostFailPoolAdd(hostfail_pool **pp,const char *s,int fail_time)
{
size_t slen = strlen(s);
ADD_STR_POOL(hostfail_pool, pp, s, slen)
elem->expire = time(NULL) + fail_time;
elem->counter = 0;
return elem;
}
hostfail_pool *HostFailPoolFind(hostfail_pool *p,const char *s)
{
hostfail_pool *elem;
HASH_FIND_STR(p, s, elem);
return elem;
}
void HostFailPoolDel(hostfail_pool **p, hostfail_pool *elem)
{
HASH_DEL(*p, elem);
free(elem);
}
void HostFailPoolPurge(hostfail_pool **pp)
{
hostfail_pool *elem, *tmp;
time_t now = time(NULL);
HASH_ITER(hh, *pp, elem, tmp)
{
if (now >= elem->expire)
{
free(elem->str);
HASH_DEL(*pp, elem);
free(elem);
}
}
}
static time_t host_fail_purge_prev=0;
void HostFailPoolPurgeRateLimited(hostfail_pool **pp)
{
time_t now = time(NULL);
// do not purge too often to save resources
if (host_fail_purge_prev != now)
{
HostFailPoolPurge(pp);
host_fail_purge_prev = now;
}
}
void HostFailPoolDump(hostfail_pool *p)
{
hostfail_pool *elem, *tmp;
time_t now = time(NULL);
HASH_ITER(hh, p, elem, tmp)
printf("host=%s counter=%d time_left=%lld\n",elem->str,elem->counter,(long long int)elem->expire-now);
}
bool strlist_add(struct str_list_head *head, const char *filename)
{
struct str_list *entry = malloc(sizeof(struct str_list));
if (!entry) return false;
entry->str = strdup(filename);
if (!entry->str)
{
free(entry);
return false;
}
LIST_INSERT_HEAD(head, entry, next);
return true;
}
static void strlist_entry_destroy(struct str_list *entry)
{
if (entry->str) free(entry->str);
free(entry);
}
void strlist_destroy(struct str_list_head *head)
{
struct str_list *entry;
while ((entry = LIST_FIRST(head)))
{
LIST_REMOVE(entry, next);
strlist_entry_destroy(entry);
}
}
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void ipset4Destroy(ipset4 **ipset)
{
ipset4 *elem, *tmp;
HASH_ITER(hh, *ipset, elem, tmp)
{
HASH_DEL(*ipset, elem);
free(elem);
}
}
bool ipset4Check(ipset4 *ipset, const struct in_addr *a, uint8_t preflen)
{
uint32_t ip = ntohl(a->s_addr);
struct cidr4 cidr;
ipset4 *ips_found;
// zero alignment bytes
memset(&cidr,0,sizeof(cidr));
cidr.preflen = preflen+1;
do
{
cidr.preflen--;
cidr.addr.s_addr = htonl(ip & mask_from_preflen(cidr.preflen));
HASH_FIND(hh, ipset, &cidr, sizeof(cidr), ips_found);
if (ips_found) return true;
} while(cidr.preflen);
return false;
}
bool ipset4Add(ipset4 **ipset, const struct in_addr *a, uint8_t preflen)
{
if (preflen>32) return false;
// avoid dups
if (ipset4Check(*ipset, a, preflen)) return true; // already included
struct ipset4 *entry = calloc(1,sizeof(ipset4));
if (!entry) return false;
entry->cidr.addr.s_addr = htonl(ntohl(a->s_addr) & mask_from_preflen(preflen));
entry->cidr.preflen = preflen;
oom = false;
HASH_ADD(hh, *ipset, cidr, sizeof(entry->cidr), entry);
if (oom) { free(entry); return false; }
return true;
}
void ipset4Print(ipset4 *ipset)
{
ipset4 *ips, *tmp;
HASH_ITER(hh, ipset , ips, tmp)
{
print_cidr4(&ips->cidr);
printf("\n");
}
}
void ipset6Destroy(ipset6 **ipset)
{
ipset6 *elem, *tmp;
HASH_ITER(hh, *ipset, elem, tmp)
{
HASH_DEL(*ipset, elem);
free(elem);
}
}
bool ipset6Check(ipset6 *ipset, const struct in6_addr *a, uint8_t preflen)
{
struct cidr6 cidr;
ipset6 *ips_found;
// zero alignment bytes
memset(&cidr,0,sizeof(cidr));
cidr.preflen = preflen+1;
do
{
cidr.preflen--;
ip6_and(a, mask_from_preflen6(cidr.preflen), &cidr.addr);
HASH_FIND(hh, ipset, &cidr, sizeof(cidr), ips_found);
if (ips_found) return true;
} while(cidr.preflen);
return false;
}
bool ipset6Add(ipset6 **ipset, const struct in6_addr *a, uint8_t preflen)
{
if (preflen>128) return false;
// avoid dups
if (ipset6Check(*ipset, a, preflen)) return true; // already included
struct ipset6 *entry = calloc(1,sizeof(ipset6));
if (!entry) return false;
ip6_and(a, mask_from_preflen6(preflen), &entry->cidr.addr);
entry->cidr.preflen = preflen;
oom = false;
HASH_ADD(hh, *ipset, cidr, sizeof(entry->cidr), entry);
if (oom) { free(entry); return false; }
return true;
}
void ipset6Print(ipset6 *ipset)
{
ipset6 *ips, *tmp;
HASH_ITER(hh, ipset , ips, tmp)
{
print_cidr6(&ips->cidr);
printf("\n");
}
}
void ipsetDestroy(ipset *ipset)
{
ipset4Destroy(&ipset->ips4);
ipset6Destroy(&ipset->ips6);
}
void ipsetPrint(ipset *ipset)
{
ipset4Print(ipset->ips4);
ipset6Print(ipset->ips6);
}