1 /* Kernel module to check if the source address has been seen recently. */
2 /* Copyright 2002-2003, Stephen Frost, 2.5.x port by laforge@netfilter.org */
3 /* Author: Stephen Frost <sfrost@snowman.net> */
4 /* Project Page: http://snowman.net/projects/ipt_recent/ */
5 /* This software is distributed under the terms of the GPL, Version 2 */
6 /* This copyright does not cover user programs that use kernel services
7 * by normal system calls. */
9 #include <linux/module.h>
10 #include <linux/skbuff.h>
11 #include <linux/proc_fs.h>
12 #include <linux/spinlock.h>
13 #include <linux/interrupt.h>
14 #include <asm/uaccess.h>
15 #include <linux/ctype.h>
17 #include <linux/vmalloc.h>
18 #include <linux/moduleparam.h>
20 #include <linux/netfilter_ipv4/ip_tables.h>
21 #include <linux/netfilter_ipv4/ipt_recent.h>
26 /* Defaults, these can be overridden on the module command-line. */
27 static unsigned int ip_list_tot = 100;
28 static unsigned int ip_pkt_list_tot = 20;
29 static unsigned int ip_list_hash_size = 0;
30 static unsigned int ip_list_perms = 0644;
35 static char version[] =
36 KERN_INFO RECENT_NAME " " RECENT_VER ": Stephen Frost <sfrost@snowman.net>. http://snowman.net/projects/ipt_recent/\n";
38 MODULE_AUTHOR("Stephen Frost <sfrost@snowman.net>");
39 MODULE_DESCRIPTION("IP tables recently seen matching module " RECENT_VER);
40 MODULE_LICENSE("GPL");
41 module_param(ip_list_tot, uint, 0400);
42 module_param(ip_pkt_list_tot, uint, 0400);
43 module_param(ip_list_hash_size, uint, 0400);
44 module_param(ip_list_perms, uint, 0400);
46 module_param(debug, bool, 0600);
47 MODULE_PARM_DESC(debug,"enable debugging output");
49 MODULE_PARM_DESC(ip_list_tot,"number of IPs to remember per list");
50 MODULE_PARM_DESC(ip_pkt_list_tot,"number of packets per IP to remember");
51 MODULE_PARM_DESC(ip_list_hash_size,"size of hash table used to look up IPs");
52 MODULE_PARM_DESC(ip_list_perms,"permissions on /proc/net/ipt_recent/* files");
54 /* Structure of our list of recently seen addresses. */
55 struct recent_ip_list {
58 unsigned long last_seen;
59 unsigned long *last_pkts;
65 struct time_info_list {
70 /* Structure of our linked list of tables of recent lists. */
71 struct recent_ip_tables {
72 char name[IPT_RECENT_NAME_LEN];
75 struct recent_ip_list *table;
76 struct recent_ip_tables *next;
79 struct time_info_list *time_info;
81 struct proc_dir_entry *status_proc;
82 #endif /* CONFIG_PROC_FS */
85 /* Our current list of addresses we have recently seen.
86 * Only added to on a --set, and only updated on --set || --update
88 static struct recent_ip_tables *r_tables = NULL;
90 /* We protect r_list with this spinlock so two processors are not modifying
91 * the list at the same time.
93 static DEFINE_SPINLOCK(recent_lock);
96 /* Our /proc/net/ipt_recent entry */
97 static struct proc_dir_entry *proc_net_ipt_recent = NULL;
100 /* Function declaration for later. */
102 match(const struct sk_buff *skb,
103 const struct net_device *in,
104 const struct net_device *out,
105 const void *matchinfo,
109 /* Function to hash a given address into the hash table of table_size size */
110 static int hash_func(unsigned int addr, int table_size)
113 unsigned int value = addr;
114 do { result ^= value; } while((value >>= HASH_LOG));
117 if(debug) printk(KERN_INFO RECENT_NAME ": %d = hash_func(%u,%d)\n",
118 result & (table_size - 1),
123 return(result & (table_size - 1));
126 #ifdef CONFIG_PROC_FS
127 /* This is the function which produces the output for our /proc output
128 * interface which lists each IP address, the last seen time and the
129 * other recent times the address was seen.
132 static int ip_recent_get_info(char *buffer, char **start, off_t offset, int length, int *eof, void *data)
134 int len = 0, count, last_len = 0, pkt_count;
137 struct recent_ip_tables *curr_table;
139 curr_table = (struct recent_ip_tables*) data;
141 spin_lock_bh(&curr_table->list_lock);
142 for(count = 0; count < ip_list_tot; count++) {
143 if(!curr_table->table[count].addr) continue;
145 len += sprintf(buffer+len,"src=%u.%u.%u.%u ",NIPQUAD(curr_table->table[count].addr));
146 len += sprintf(buffer+len,"ttl: %u ",curr_table->table[count].ttl);
147 len += sprintf(buffer+len,"last_seen: %lu ",curr_table->table[count].last_seen);
148 len += sprintf(buffer+len,"oldest_pkt: %u ",curr_table->table[count].oldest_pkt);
149 len += sprintf(buffer+len,"last_pkts: %lu",curr_table->table[count].last_pkts[0]);
150 for(pkt_count = 1; pkt_count < ip_pkt_list_tot; pkt_count++) {
151 if(!curr_table->table[count].last_pkts[pkt_count]) break;
152 len += sprintf(buffer+len,", %lu",curr_table->table[count].last_pkts[pkt_count]);
154 len += sprintf(buffer+len,"\n");
156 if(pos < offset) { len = 0; begin = pos; }
157 if(pos > offset + length) { len = last_len; break; }
160 *start = buffer + (offset - begin);
161 len -= (offset - begin);
162 if(len > length) len = length;
164 spin_unlock_bh(&curr_table->list_lock);
168 /* ip_recent_ctrl provides an interface for users to modify the table
169 * directly. This allows adding entries, removing entries, and
170 * flushing the entire table.
171 * This is done by opening up the appropriate table for writing and
173 * xx.xx.xx.xx -- Add entry to table with current time
174 * +xx.xx.xx.xx -- Add entry to table with current time
175 * -xx.xx.xx.xx -- Remove entry from table
176 * clear -- Flush table, remove all entries
179 static int ip_recent_ctrl(struct file *file, const char __user *input, unsigned long size, void *data)
181 static const u_int32_t max[4] = { 0xffffffff, 0xffffff, 0xffff, 0xff };
189 uint8_t *pp = res.bytes;
193 int len, check_set = 0, count;
196 struct ipt_recent_info *info;
197 struct recent_ip_tables *curr_table;
199 curr_table = (struct recent_ip_tables*) data;
201 if(size > 20) len = 20; else len = size;
203 if(copy_from_user(buffer,input,len)) return -EFAULT;
205 if(len < 20) buffer[len] = '\0';
208 if(debug) printk(KERN_INFO RECENT_NAME ": ip_recent_ctrl len: %d, input: `%.20s'\n",len,buffer);
212 while(isspace(*cp)) { cp++; used++; if(used >= len-5) return used; }
214 /* Check if we are asked to flush the entire table */
215 if(!memcmp(cp,"clear",5)) {
217 spin_lock_bh(&curr_table->list_lock);
218 curr_table->time_pos = 0;
219 for(count = 0; count < ip_list_hash_size; count++) {
220 curr_table->hash_table[count] = -1;
222 for(count = 0; count < ip_list_tot; count++) {
223 curr_table->table[count].last_seen = 0;
224 curr_table->table[count].addr = 0;
225 curr_table->table[count].ttl = 0;
226 memset(curr_table->table[count].last_pkts,0,ip_pkt_list_tot*sizeof(unsigned long));
227 curr_table->table[count].oldest_pkt = 0;
228 curr_table->table[count].time_pos = 0;
229 curr_table->time_info[count].position = count;
230 curr_table->time_info[count].time = 0;
232 spin_unlock_bh(&curr_table->list_lock);
236 check_set = IPT_RECENT_SET;
238 case '+': check_set = IPT_RECENT_SET; cp++; used++; break;
239 case '-': check_set = IPT_RECENT_REMOVE; cp++; used++; break;
240 default: if(!isdigit(*cp)) return (used+1); break;
244 if(debug) printk(KERN_INFO RECENT_NAME ": ip_recent_ctrl cp: `%c', check_set: %d\n",*cp,check_set);
246 /* Get addr (effectively inet_aton()) */
247 /* Shamelessly stolen from libc, a function in the kernel for doing
248 * this would, of course, be greatly preferred, but our options appear
249 * to be rather limited, so we will just do it ourselves here.
255 if(!isdigit(c)) return used;
256 val = 0; base = 10; digit = 0;
259 if(c == 'x' || c == 'X') base = 16, c = *++cp;
260 else { base = 8; digit = 1; }
263 if(isascii(c) && isdigit(c)) {
264 if(base == 8 && (c == '8' || c == '0')) return used;
265 val = (val * base) + (c - '0');
268 } else if(base == 16 && isascii(c) && isxdigit(c)) {
269 val = (val << 4) | (c + 10 - (islower(c) ? 'a' : 'A'));
275 if(pp > res.bytes + 2 || val > 0xff) return used;
281 if(c != '\0' && (!isascii(c) || !isspace(c))) return used;
282 if(c == '\n') used++;
283 if(!digit) return used;
285 if(val > max[pp - res.bytes]) return used;
286 addr = res.word | htonl(val);
288 if(!addr && check_set == IPT_RECENT_SET) return used;
291 if(debug) printk(KERN_INFO RECENT_NAME ": ip_recent_ctrl c: %c, addr: %u used: %d\n",c,addr,used);
294 /* Set up and just call match */
295 info = kmalloc(sizeof(struct ipt_recent_info),GFP_KERNEL);
296 if(!info) { return -ENOMEM; }
299 info->check_set = check_set;
301 info->side = IPT_RECENT_SOURCE;
302 strncpy(info->name,curr_table->name,IPT_RECENT_NAME_LEN);
303 info->name[IPT_RECENT_NAME_LEN-1] = '\0';
305 skb = kmalloc(sizeof(struct sk_buff),GFP_KERNEL);
310 skb->nh.iph = kmalloc(sizeof(struct iphdr),GFP_KERNEL);
316 skb->nh.iph->saddr = addr;
317 skb->nh.iph->daddr = 0;
318 /* Clear ttl since we have no way of knowing it */
319 skb->nh.iph->ttl = 0;
320 match(skb,NULL,NULL,info,0,NULL);
329 if(debug) printk(KERN_INFO RECENT_NAME ": Leaving ip_recent_ctrl addr: %u used: %d\n",addr,used);
334 #endif /* CONFIG_PROC_FS */
336 /* 'match' is our primary function, called by the kernel whenever a rule is
337 * hit with our module as an option to it.
338 * What this function does depends on what was specifically asked of it by
340 * --set -- Add or update last seen time of the source address of the packet
341 * -- matchinfo->check_set == IPT_RECENT_SET
342 * --rcheck -- Just check if the source address is in the list
343 * -- matchinfo->check_set == IPT_RECENT_CHECK
344 * --update -- If the source address is in the list, update last_seen
345 * -- matchinfo->check_set == IPT_RECENT_UPDATE
346 * --remove -- If the source address is in the list, remove it
347 * -- matchinfo->check_set == IPT_RECENT_REMOVE
348 * --seconds -- Option to --rcheck/--update, only match if last_seen within seconds
349 * -- matchinfo->seconds
350 * --hitcount -- Option to --rcheck/--update, only match if seen hitcount times
351 * -- matchinfo->hit_count
352 * --seconds and --hitcount can be combined
355 match(const struct sk_buff *skb,
356 const struct net_device *in,
357 const struct net_device *out,
358 const void *matchinfo,
362 int pkt_count, hits_found, ans;
364 const struct ipt_recent_info *info = matchinfo;
365 u_int32_t addr = 0, time_temp;
366 u_int8_t ttl = skb->nh.iph->ttl;
368 int orig_hash_result, hash_result, temp, location = 0, time_loc, end_collision_chain = -1;
369 struct time_info_list *time_info;
370 struct recent_ip_tables *curr_table;
371 struct recent_ip_tables *last_table;
372 struct recent_ip_list *r_list;
375 if(debug) printk(KERN_INFO RECENT_NAME ": match() called\n");
378 /* Default is false ^ info->invert */
382 if(debug) printk(KERN_INFO RECENT_NAME ": match(): name = '%s'\n",info->name);
385 /* if out != NULL then routing has been done and TTL changed.
386 * We change it back here internally for match what came in before routing. */
389 /* Find the right table */
390 spin_lock_bh(&recent_lock);
391 curr_table = r_tables;
392 while( (last_table = curr_table) && strncmp(info->name,curr_table->name,IPT_RECENT_NAME_LEN) && (curr_table = curr_table->next) );
395 if(debug) printk(KERN_INFO RECENT_NAME ": match(): table found('%s')\n",info->name);
398 spin_unlock_bh(&recent_lock);
400 /* Table with this name not found, match impossible */
401 if(!curr_table) { return ans; }
403 /* Make sure no one is changing the list while we work with it */
404 spin_lock_bh(&curr_table->list_lock);
406 r_list = curr_table->table;
407 if(info->side == IPT_RECENT_DEST) addr = skb->nh.iph->daddr; else addr = skb->nh.iph->saddr;
411 if(debug) printk(KERN_INFO RECENT_NAME ": match() address (%u) invalid, leaving.\n",addr);
413 spin_unlock_bh(&curr_table->list_lock);
418 if(debug) printk(KERN_INFO RECENT_NAME ": match(): checking table, addr: %u, ttl: %u, orig_ttl: %u\n",addr,ttl,skb->nh.iph->ttl);
421 /* Get jiffies now in case they changed while we were waiting for a lock */
423 hash_table = curr_table->hash_table;
424 time_info = curr_table->time_info;
426 orig_hash_result = hash_result = hash_func(addr,ip_list_hash_size);
427 /* Hash entry at this result used */
428 /* Check for TTL match if requested. If TTL is zero then a match would never
429 * happen, so match regardless of existing TTL in that case. Zero means the
430 * entry was added via the /proc interface anyway, so we will just use the
431 * first TTL we get for that IP address. */
432 if(info->check_set & IPT_RECENT_TTL) {
433 while(hash_table[hash_result] != -1 && !(r_list[hash_table[hash_result]].addr == addr &&
434 (!r_list[hash_table[hash_result]].ttl || r_list[hash_table[hash_result]].ttl == ttl))) {
435 /* Collision in hash table */
436 hash_result = (hash_result + 1) % ip_list_hash_size;
439 while(hash_table[hash_result] != -1 && r_list[hash_table[hash_result]].addr != addr) {
440 /* Collision in hash table */
441 hash_result = (hash_result + 1) % ip_list_hash_size;
445 if(hash_table[hash_result] == -1 && !(info->check_set & IPT_RECENT_SET)) {
446 /* IP not in list and not asked to SET */
447 spin_unlock_bh(&curr_table->list_lock);
451 /* Check if we need to handle the collision, do not need to on REMOVE */
452 if(orig_hash_result != hash_result && !(info->check_set & IPT_RECENT_REMOVE)) {
454 if(debug) printk(KERN_INFO RECENT_NAME ": match(): Collision in hash table. (or: %d,hr: %d,oa: %u,ha: %u)\n",
457 r_list[hash_table[orig_hash_result]].addr,
461 /* We had a collision.
462 * orig_hash_result is where we started, hash_result is where we ended up.
463 * So, swap them because we are likely to see the same guy again sooner */
466 printk(KERN_INFO RECENT_NAME ": match(): Collision; hash_table[orig_hash_result] = %d\n",hash_table[orig_hash_result]);
467 printk(KERN_INFO RECENT_NAME ": match(): Collision; r_list[hash_table[orig_hash_result]].hash_entry = %d\n",
468 r_list[hash_table[orig_hash_result]].hash_entry);
472 r_list[hash_table[orig_hash_result]].hash_entry = hash_result;
475 temp = hash_table[orig_hash_result];
477 if(debug) printk(KERN_INFO RECENT_NAME ": match(): Collision; hash_table[hash_result] = %d\n",hash_table[hash_result]);
479 hash_table[orig_hash_result] = hash_table[hash_result];
480 hash_table[hash_result] = temp;
482 hash_result = orig_hash_result;
483 orig_hash_result = temp;
484 time_info[r_list[hash_table[orig_hash_result]].time_pos].position = hash_table[orig_hash_result];
485 if(hash_table[hash_result] != -1) {
486 r_list[hash_table[hash_result]].hash_entry = hash_result;
487 time_info[r_list[hash_table[hash_result]].time_pos].position = hash_table[hash_result];
491 if(debug) printk(KERN_INFO RECENT_NAME ": match(): Collision handled.\n");
495 if(hash_table[hash_result] == -1) {
497 if(debug) printk(KERN_INFO RECENT_NAME ": match(): New table entry. (hr: %d,ha: %u)\n",
501 /* New item found and IPT_RECENT_SET, so we need to add it */
502 location = time_info[curr_table->time_pos].position;
503 hash_table[r_list[location].hash_entry] = -1;
504 hash_table[hash_result] = location;
505 memset(r_list[location].last_pkts,0,ip_pkt_list_tot*sizeof(unsigned long));
506 r_list[location].time_pos = curr_table->time_pos;
507 r_list[location].addr = addr;
508 r_list[location].ttl = ttl;
509 r_list[location].last_seen = now;
510 r_list[location].oldest_pkt = 1;
511 r_list[location].last_pkts[0] = now;
512 r_list[location].hash_entry = hash_result;
513 time_info[curr_table->time_pos].time = r_list[location].last_seen;
514 curr_table->time_pos = (curr_table->time_pos + 1) % ip_list_tot;
519 if(debug) printk(KERN_INFO RECENT_NAME ": match(): Existing table entry. (hr: %d,ha: %u)\n",
524 /* Existing item found */
525 location = hash_table[hash_result];
526 /* We have a match on address, now to make sure it meets all requirements for a
528 if(info->check_set & IPT_RECENT_CHECK || info->check_set & IPT_RECENT_UPDATE) {
529 if(!info->seconds && !info->hit_count) ans = !info->invert; else ans = info->invert;
530 if(info->seconds && !info->hit_count) {
531 if(time_before_eq(now,r_list[location].last_seen+info->seconds*HZ)) ans = !info->invert; else ans = info->invert;
533 if(info->seconds && info->hit_count) {
534 for(pkt_count = 0, hits_found = 0; pkt_count < ip_pkt_list_tot; pkt_count++) {
535 if(r_list[location].last_pkts[pkt_count] == 0) break;
536 if(time_before_eq(now,r_list[location].last_pkts[pkt_count]+info->seconds*HZ)) hits_found++;
538 if(hits_found >= info->hit_count) ans = !info->invert; else ans = info->invert;
540 if(info->hit_count && !info->seconds) {
541 for(pkt_count = 0, hits_found = 0; pkt_count < ip_pkt_list_tot; pkt_count++) {
542 if(r_list[location].last_pkts[pkt_count] == 0) break;
545 if(hits_found >= info->hit_count) ans = !info->invert; else ans = info->invert;
551 printk(KERN_INFO RECENT_NAME ": match(): match addr: %u\n",addr);
553 printk(KERN_INFO RECENT_NAME ": match(): no match addr: %u\n",addr);
557 /* If and only if we have been asked to SET, or to UPDATE (on match) do we add the
558 * current timestamp to the last_seen. */
559 if((info->check_set & IPT_RECENT_SET && (ans = !info->invert)) || (info->check_set & IPT_RECENT_UPDATE && ans)) {
561 if(debug) printk(KERN_INFO RECENT_NAME ": match(): SET or UPDATE; updating time info.\n");
563 /* Have to update our time info */
564 time_loc = r_list[location].time_pos;
565 time_info[time_loc].time = now;
566 time_info[time_loc].position = location;
567 while((time_info[(time_loc+1) % ip_list_tot].time < time_info[time_loc].time) && ((time_loc+1) % ip_list_tot) != curr_table->time_pos) {
568 time_temp = time_info[time_loc].time;
569 time_info[time_loc].time = time_info[(time_loc+1)%ip_list_tot].time;
570 time_info[(time_loc+1)%ip_list_tot].time = time_temp;
571 time_temp = time_info[time_loc].position;
572 time_info[time_loc].position = time_info[(time_loc+1)%ip_list_tot].position;
573 time_info[(time_loc+1)%ip_list_tot].position = time_temp;
574 r_list[time_info[time_loc].position].time_pos = time_loc;
575 r_list[time_info[(time_loc+1)%ip_list_tot].position].time_pos = (time_loc+1)%ip_list_tot;
576 time_loc = (time_loc+1) % ip_list_tot;
578 r_list[location].time_pos = time_loc;
579 r_list[location].ttl = ttl;
580 r_list[location].last_pkts[r_list[location].oldest_pkt] = now;
581 r_list[location].oldest_pkt = ++r_list[location].oldest_pkt % ip_pkt_list_tot;
582 r_list[location].last_seen = now;
584 /* If we have been asked to remove the entry from the list, just set it to 0 */
585 if(info->check_set & IPT_RECENT_REMOVE) {
587 if(debug) printk(KERN_INFO RECENT_NAME ": match(): REMOVE; clearing entry (or: %d, hr: %d).\n",orig_hash_result,hash_result);
589 /* Check if this is part of a collision chain */
590 while(hash_table[(orig_hash_result+1) % ip_list_hash_size] != -1) {
592 if(hash_func(r_list[hash_table[orig_hash_result]].addr,ip_list_hash_size) == hash_result) {
593 /* Found collision chain, how deep does this rabbit hole go? */
595 if(debug) printk(KERN_INFO RECENT_NAME ": match(): REMOVE; found collision chain.\n");
597 end_collision_chain = orig_hash_result;
600 if(end_collision_chain != -1) {
602 if(debug) printk(KERN_INFO RECENT_NAME ": match(): REMOVE; part of collision chain, moving to end.\n");
604 /* Part of a collision chain, swap it with the end of the chain
605 * before removing. */
606 r_list[hash_table[end_collision_chain]].hash_entry = hash_result;
607 temp = hash_table[end_collision_chain];
608 hash_table[end_collision_chain] = hash_table[hash_result];
609 hash_table[hash_result] = temp;
610 time_info[r_list[hash_table[hash_result]].time_pos].position = hash_table[hash_result];
611 hash_result = end_collision_chain;
612 r_list[hash_table[hash_result]].hash_entry = hash_result;
613 time_info[r_list[hash_table[hash_result]].time_pos].position = hash_table[hash_result];
615 location = hash_table[hash_result];
616 hash_table[r_list[location].hash_entry] = -1;
617 time_loc = r_list[location].time_pos;
618 time_info[time_loc].time = 0;
619 time_info[time_loc].position = location;
620 while((time_info[(time_loc+1) % ip_list_tot].time < time_info[time_loc].time) && ((time_loc+1) % ip_list_tot) != curr_table->time_pos) {
621 time_temp = time_info[time_loc].time;
622 time_info[time_loc].time = time_info[(time_loc+1)%ip_list_tot].time;
623 time_info[(time_loc+1)%ip_list_tot].time = time_temp;
624 time_temp = time_info[time_loc].position;
625 time_info[time_loc].position = time_info[(time_loc+1)%ip_list_tot].position;
626 time_info[(time_loc+1)%ip_list_tot].position = time_temp;
627 r_list[time_info[time_loc].position].time_pos = time_loc;
628 r_list[time_info[(time_loc+1)%ip_list_tot].position].time_pos = (time_loc+1)%ip_list_tot;
629 time_loc = (time_loc+1) % ip_list_tot;
631 r_list[location].time_pos = time_loc;
632 r_list[location].last_seen = 0;
633 r_list[location].addr = 0;
634 r_list[location].ttl = 0;
635 memset(r_list[location].last_pkts,0,ip_pkt_list_tot*sizeof(unsigned long));
636 r_list[location].oldest_pkt = 0;
639 spin_unlock_bh(&curr_table->list_lock);
643 spin_unlock_bh(&curr_table->list_lock);
645 if(debug) printk(KERN_INFO RECENT_NAME ": match() left.\n");
650 /* This function is to verify that the rule given during the userspace iptables
651 * command is correct.
652 * If the command is valid then we check if the table name referred to by the
653 * rule exists, if not it is created.
656 checkentry(const char *tablename,
657 const struct ipt_ip *ip,
659 unsigned int matchsize,
660 unsigned int hook_mask)
664 const struct ipt_recent_info *info = matchinfo;
665 struct recent_ip_tables *curr_table, *find_table, *last_table;
668 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry() entered.\n");
671 if (matchsize != IPT_ALIGN(sizeof(struct ipt_recent_info))) return 0;
673 /* seconds and hit_count only valid for CHECK/UPDATE */
674 if(info->check_set & IPT_RECENT_SET) { flag++; if(info->seconds || info->hit_count) return 0; }
675 if(info->check_set & IPT_RECENT_REMOVE) { flag++; if(info->seconds || info->hit_count) return 0; }
676 if(info->check_set & IPT_RECENT_CHECK) flag++;
677 if(info->check_set & IPT_RECENT_UPDATE) flag++;
679 /* One and only one of these should ever be set */
680 if(flag != 1) return 0;
682 /* Name must be set to something */
683 if(!info->name || !info->name[0]) return 0;
685 /* Things look good, create a list for this if it does not exist */
686 /* Lock the linked list while we play with it */
687 spin_lock_bh(&recent_lock);
689 /* Look for an entry with this name already created */
690 /* Finds the end of the list and the entry before the end if current name does not exist */
691 find_table = r_tables;
692 while( (last_table = find_table) && strncmp(info->name,find_table->name,IPT_RECENT_NAME_LEN) && (find_table = find_table->next) );
694 /* If a table already exists just increment the count on that table and return */
697 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: table found (%s), incrementing count.\n",info->name);
700 spin_unlock_bh(&recent_lock);
704 spin_unlock_bh(&recent_lock);
706 /* Table with this name not found */
707 /* Allocate memory for new linked list item */
711 printk(KERN_INFO RECENT_NAME ": checkentry: no table found (%s)\n",info->name);
712 printk(KERN_INFO RECENT_NAME ": checkentry: Allocationg %d for link-list entry.\n",sizeof(struct recent_ip_tables));
716 curr_table = vmalloc(sizeof(struct recent_ip_tables));
717 if(curr_table == NULL) return 0;
719 spin_lock_init(&curr_table->list_lock);
720 curr_table->next = NULL;
721 curr_table->count = 1;
722 curr_table->time_pos = 0;
723 strncpy(curr_table->name,info->name,IPT_RECENT_NAME_LEN);
724 curr_table->name[IPT_RECENT_NAME_LEN-1] = '\0';
726 /* Allocate memory for this table and the list of packets in each entry. */
728 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: Allocating %d for table (%s).\n",
729 sizeof(struct recent_ip_list)*ip_list_tot,
733 curr_table->table = vmalloc(sizeof(struct recent_ip_list)*ip_list_tot);
734 if(curr_table->table == NULL) { vfree(curr_table); return 0; }
735 memset(curr_table->table,0,sizeof(struct recent_ip_list)*ip_list_tot);
737 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: Allocating %d for pkt_list.\n",
738 sizeof(unsigned long)*ip_pkt_list_tot*ip_list_tot);
741 hold = vmalloc(sizeof(unsigned long)*ip_pkt_list_tot*ip_list_tot);
743 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: After pkt_list allocation.\n");
746 printk(KERN_INFO RECENT_NAME ": checkentry: unable to allocate for pkt_list.\n");
747 vfree(curr_table->table);
751 for(c = 0; c < ip_list_tot; c++) {
752 curr_table->table[c].last_pkts = hold + c*ip_pkt_list_tot;
755 /* Allocate memory for the hash table */
757 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: Allocating %d for hash_table.\n",
758 sizeof(int)*ip_list_hash_size);
761 curr_table->hash_table = vmalloc(sizeof(int)*ip_list_hash_size);
762 if(!curr_table->hash_table) {
763 printk(KERN_INFO RECENT_NAME ": checkentry: unable to allocate for hash_table.\n");
765 vfree(curr_table->table);
770 for(c = 0; c < ip_list_hash_size; c++) {
771 curr_table->hash_table[c] = -1;
774 /* Allocate memory for the time info */
776 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: Allocating %d for time_info.\n",
777 sizeof(struct time_info_list)*ip_list_tot);
780 curr_table->time_info = vmalloc(sizeof(struct time_info_list)*ip_list_tot);
781 if(!curr_table->time_info) {
782 printk(KERN_INFO RECENT_NAME ": checkentry: unable to allocate for time_info.\n");
783 vfree(curr_table->hash_table);
785 vfree(curr_table->table);
789 for(c = 0; c < ip_list_tot; c++) {
790 curr_table->time_info[c].position = c;
791 curr_table->time_info[c].time = 0;
794 /* Put the new table in place */
795 spin_lock_bh(&recent_lock);
796 find_table = r_tables;
797 while( (last_table = find_table) && strncmp(info->name,find_table->name,IPT_RECENT_NAME_LEN) && (find_table = find_table->next) );
799 /* If a table already exists just increment the count on that table and return */
802 spin_unlock_bh(&recent_lock);
804 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry: table found (%s), created by other process.\n",info->name);
806 vfree(curr_table->time_info);
807 vfree(curr_table->hash_table);
809 vfree(curr_table->table);
813 if(!last_table) r_tables = curr_table; else last_table->next = curr_table;
815 spin_unlock_bh(&recent_lock);
817 #ifdef CONFIG_PROC_FS
818 /* Create our proc 'status' entry. */
819 curr_table->status_proc = create_proc_entry(curr_table->name, ip_list_perms, proc_net_ipt_recent);
820 if (!curr_table->status_proc) {
821 printk(KERN_INFO RECENT_NAME ": checkentry: unable to allocate for /proc entry.\n");
822 /* Destroy the created table */
823 spin_lock_bh(&recent_lock);
825 curr_table = r_tables;
828 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry() create_proc failed, no tables.\n");
830 spin_unlock_bh(&recent_lock);
833 while( strncmp(info->name,curr_table->name,IPT_RECENT_NAME_LEN) && (last_table = curr_table) && (curr_table = curr_table->next) );
836 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry() create_proc failed, table already destroyed.\n");
838 spin_unlock_bh(&recent_lock);
841 if(last_table) last_table->next = curr_table->next; else r_tables = curr_table->next;
842 spin_unlock_bh(&recent_lock);
843 vfree(curr_table->time_info);
844 vfree(curr_table->hash_table);
846 vfree(curr_table->table);
851 curr_table->status_proc->owner = THIS_MODULE;
852 curr_table->status_proc->data = curr_table;
854 curr_table->status_proc->read_proc = ip_recent_get_info;
855 curr_table->status_proc->write_proc = ip_recent_ctrl;
856 #endif /* CONFIG_PROC_FS */
859 if(debug) printk(KERN_INFO RECENT_NAME ": checkentry() left.\n");
865 /* This function is called in the event that a rule matching this module is
867 * When this happens we need to check if there are no other rules matching
868 * the table given. If that is the case then we remove the table and clean
872 destroy(void *matchinfo, unsigned int matchsize)
874 const struct ipt_recent_info *info = matchinfo;
875 struct recent_ip_tables *curr_table, *last_table;
878 if(debug) printk(KERN_INFO RECENT_NAME ": destroy() entered.\n");
881 if(matchsize != IPT_ALIGN(sizeof(struct ipt_recent_info))) return;
883 /* Lock the linked list while we play with it */
884 spin_lock_bh(&recent_lock);
886 /* Look for an entry with this name already created */
887 /* Finds the end of the list and the entry before the end if current name does not exist */
889 curr_table = r_tables;
892 if(debug) printk(KERN_INFO RECENT_NAME ": destroy() No tables found, leaving.\n");
894 spin_unlock_bh(&recent_lock);
897 while( strncmp(info->name,curr_table->name,IPT_RECENT_NAME_LEN) && (last_table = curr_table) && (curr_table = curr_table->next) );
899 /* If a table does not exist then do nothing and return */
902 if(debug) printk(KERN_INFO RECENT_NAME ": destroy() table not found, leaving.\n");
904 spin_unlock_bh(&recent_lock);
910 /* If count is still non-zero then there are still rules referenceing it so we do nothing */
911 if(curr_table->count) {
913 if(debug) printk(KERN_INFO RECENT_NAME ": destroy() table found, non-zero count, leaving.\n");
915 spin_unlock_bh(&recent_lock);
920 if(debug) printk(KERN_INFO RECENT_NAME ": destroy() table found, zero count, removing.\n");
923 /* Count must be zero so we remove this table from the list */
924 if(last_table) last_table->next = curr_table->next; else r_tables = curr_table->next;
926 spin_unlock_bh(&recent_lock);
928 /* lock to make sure any late-runners still using this after we removed it from
929 * the list finish up then remove everything */
930 spin_lock_bh(&curr_table->list_lock);
931 spin_unlock_bh(&curr_table->list_lock);
933 #ifdef CONFIG_PROC_FS
934 if(curr_table->status_proc) remove_proc_entry(curr_table->name,proc_net_ipt_recent);
935 #endif /* CONFIG_PROC_FS */
936 vfree(curr_table->table[0].last_pkts);
937 vfree(curr_table->table);
938 vfree(curr_table->hash_table);
939 vfree(curr_table->time_info);
943 if(debug) printk(KERN_INFO RECENT_NAME ": destroy() left.\n");
949 /* This is the structure we pass to ipt_register to register our
950 * module with iptables.
952 static struct ipt_match recent_match = {
955 .checkentry = &checkentry,
960 /* Kernel module initialization. */
961 static int __init init(void)
966 #ifdef CONFIG_PROC_FS
967 proc_net_ipt_recent = proc_mkdir("ipt_recent",proc_net);
968 if(!proc_net_ipt_recent) return -ENOMEM;
971 if(ip_list_hash_size && ip_list_hash_size <= ip_list_tot) {
972 printk(KERN_WARNING RECENT_NAME ": ip_list_hash_size too small, resetting to default.\n");
973 ip_list_hash_size = 0;
976 if(!ip_list_hash_size) {
977 ip_list_hash_size = ip_list_tot*3;
979 while(ip_list_hash_size > count) count = count*2;
980 ip_list_hash_size = count;
984 if(debug) printk(KERN_INFO RECENT_NAME ": ip_list_hash_size: %d\n",ip_list_hash_size);
987 err = ipt_register_match(&recent_match);
989 remove_proc_entry("ipt_recent", proc_net);
993 /* Kernel module destruction. */
994 static void __exit fini(void)
996 ipt_unregister_match(&recent_match);
998 remove_proc_entry("ipt_recent",proc_net);
1001 /* Register our module with the kernel. */