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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [net/] [ipv6/] [netfilter/] [ip6_tables.c] - Rev 1765
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/* * Packet matching code. * * Copyright (C) 1999 Paul `Rusty' Russell & Michael J. Neuling * Copyright (C) 2000-2002 Netfilter core team <coreteam@netfilter.org> * * 19 Jan 2002 Harald Welte <laforge@gnumonks.org> * - increase module usage count as soon as we have rules inside * a table * 06 Jun 2002 Andras Kis-Szabo <kisza@sch.bme.hu> * - new extension header parser code */ #include <linux/config.h> #include <linux/skbuff.h> #include <linux/kmod.h> #include <linux/vmalloc.h> #include <linux/netdevice.h> #include <linux/module.h> #include <linux/tcp.h> #include <linux/udp.h> #include <linux/icmpv6.h> #include <net/ip.h> #include <asm/uaccess.h> #include <asm/semaphore.h> #include <linux/proc_fs.h> #include <linux/netfilter_ipv6/ip6_tables.h> #define IPV6_HDR_LEN (sizeof(struct ipv6hdr)) #define IPV6_OPTHDR_LEN (sizeof(struct ipv6_opt_hdr)) /*#define DEBUG_IP_FIREWALL*/ /*#define DEBUG_ALLOW_ALL*/ /* Useful for remote debugging */ /*#define DEBUG_IP_FIREWALL_USER*/ #ifdef DEBUG_IP_FIREWALL #define dprintf(format, args...) printk(format , ## args) #else #define dprintf(format, args...) #endif #ifdef DEBUG_IP_FIREWALL_USER #define duprintf(format, args...) printk(format , ## args) #else #define duprintf(format, args...) #endif #ifdef CONFIG_NETFILTER_DEBUG #define IP_NF_ASSERT(x) \ do { \ if (!(x)) \ printk("IP_NF_ASSERT: %s:%s:%u\n", \ __FUNCTION__, __FILE__, __LINE__); \ } while(0) #else #define IP_NF_ASSERT(x) #endif #define SMP_ALIGN(x) (((x) + SMP_CACHE_BYTES-1) & ~(SMP_CACHE_BYTES-1)) /* Mutex protects lists (only traversed in user context). */ static DECLARE_MUTEX(ip6t_mutex); /* Must have mutex */ #define ASSERT_READ_LOCK(x) IP_NF_ASSERT(down_trylock(&ip6t_mutex) != 0) #define ASSERT_WRITE_LOCK(x) IP_NF_ASSERT(down_trylock(&ip6t_mutex) != 0) #include <linux/netfilter_ipv4/lockhelp.h> #include <linux/netfilter_ipv4/listhelp.h> #if 0 /* All the better to debug you with... */ #define static #define inline #endif /* Locking is simple: we assume at worst case there will be one packet in user context and one from bottom halves (or soft irq if Alexey's softnet patch was applied). We keep a set of rules for each CPU, so we can avoid write-locking them; doing a readlock_bh() stops packets coming through if we're in user context. To be cache friendly on SMP, we arrange them like so: [ n-entries ] ... cache-align padding ... [ n-entries ] Hence the start of any table is given by get_table() below. */ /* The table itself */ struct ip6t_table_info { /* Size per table */ unsigned int size; /* Number of entries: FIXME. --RR */ unsigned int number; /* Initial number of entries. Needed for module usage count */ unsigned int initial_entries; /* Entry points and underflows */ unsigned int hook_entry[NF_IP6_NUMHOOKS]; unsigned int underflow[NF_IP6_NUMHOOKS]; /* ip6t_entry tables: one per CPU */ char entries[0] ____cacheline_aligned; }; static LIST_HEAD(ip6t_target); static LIST_HEAD(ip6t_match); static LIST_HEAD(ip6t_tables); #define ADD_COUNTER(c,b,p) do { (c).bcnt += (b); (c).pcnt += (p); } while(0) #ifdef CONFIG_SMP #define TABLE_OFFSET(t,p) (SMP_ALIGN((t)->size)*(p)) #else #define TABLE_OFFSET(t,p) 0 #endif #if 0 #define down(x) do { printk("DOWN:%u:" #x "\n", __LINE__); down(x); } while(0) #define down_interruptible(x) ({ int __r; printk("DOWNi:%u:" #x "\n", __LINE__); __r = down_interruptible(x); if (__r != 0) printk("ABORT-DOWNi:%u\n", __LINE__); __r; }) #define up(x) do { printk("UP:%u:" #x "\n", __LINE__); up(x); } while(0) #endif static int ip6_masked_addrcmp(struct in6_addr addr1, struct in6_addr mask, struct in6_addr addr2) { int i; for( i = 0; i < 16; i++){ if((addr1.s6_addr[i] & mask.s6_addr[i]) != (addr2.s6_addr[i] & mask.s6_addr[i])) return 1; } return 0; } /* Check for an extension */ int ip6t_ext_hdr(u8 nexthdr) { return ( (nexthdr == IPPROTO_HOPOPTS) || (nexthdr == IPPROTO_ROUTING) || (nexthdr == IPPROTO_FRAGMENT) || (nexthdr == IPPROTO_ESP) || (nexthdr == IPPROTO_AH) || (nexthdr == IPPROTO_NONE) || (nexthdr == IPPROTO_DSTOPTS) ); } /* Returns whether matches rule or not. */ static inline int ip6_packet_match(const struct sk_buff *skb, const struct ipv6hdr *ipv6, const char *indev, const char *outdev, const struct ip6t_ip6 *ip6info, int isfrag) { size_t i; unsigned long ret; #define FWINV(bool,invflg) ((bool) ^ !!(ip6info->invflags & invflg)) if (FWINV(ip6_masked_addrcmp(ipv6->saddr,ip6info->smsk,ip6info->src), IP6T_INV_SRCIP) || FWINV(ip6_masked_addrcmp(ipv6->daddr,ip6info->dmsk,ip6info->dst), IP6T_INV_DSTIP)) { dprintf("Source or dest mismatch.\n"); /* dprintf("SRC: %u. Mask: %u. Target: %u.%s\n", ip->saddr, ipinfo->smsk.s_addr, ipinfo->src.s_addr, ipinfo->invflags & IP6T_INV_SRCIP ? " (INV)" : ""); dprintf("DST: %u. Mask: %u. Target: %u.%s\n", ip->daddr, ipinfo->dmsk.s_addr, ipinfo->dst.s_addr, ipinfo->invflags & IP6T_INV_DSTIP ? " (INV)" : "");*/ return 0; } /* Look for ifname matches; this should unroll nicely. */ for (i = 0, ret = 0; i < IFNAMSIZ/sizeof(unsigned long); i++) { ret |= (((const unsigned long *)indev)[i] ^ ((const unsigned long *)ip6info->iniface)[i]) & ((const unsigned long *)ip6info->iniface_mask)[i]; } if (FWINV(ret != 0, IP6T_INV_VIA_IN)) { dprintf("VIA in mismatch (%s vs %s).%s\n", indev, ip6info->iniface, ip6info->invflags&IP6T_INV_VIA_IN ?" (INV)":""); return 0; } for (i = 0, ret = 0; i < IFNAMSIZ/sizeof(unsigned long); i++) { ret |= (((const unsigned long *)outdev)[i] ^ ((const unsigned long *)ip6info->outiface)[i]) & ((const unsigned long *)ip6info->outiface_mask)[i]; } if (FWINV(ret != 0, IP6T_INV_VIA_OUT)) { dprintf("VIA out mismatch (%s vs %s).%s\n", outdev, ip6info->outiface, ip6info->invflags&IP6T_INV_VIA_OUT ?" (INV)":""); return 0; } /* ... might want to do something with class and flowlabel here ... */ /* look for the desired protocol header */ if((ip6info->flags & IP6T_F_PROTO)) { u_int8_t currenthdr = ipv6->nexthdr; struct ipv6_opt_hdr *hdrptr; u_int16_t ptr; /* Header offset in skb */ u_int16_t hdrlen; /* Header */ ptr = IPV6_HDR_LEN; while (ip6t_ext_hdr(currenthdr)) { /* Is there enough space for the next ext header? */ if (skb->len - ptr < IPV6_OPTHDR_LEN) return 0; /* NONE or ESP: there isn't protocol part */ /* If we want to count these packets in '-p all', * we will change the return 0 to 1*/ if ((currenthdr == IPPROTO_NONE) || (currenthdr == IPPROTO_ESP)) return 0; hdrptr = (struct ipv6_opt_hdr *)(skb->data + ptr); /* Size calculation */ if (currenthdr == IPPROTO_FRAGMENT) { hdrlen = 8; } else if (currenthdr == IPPROTO_AH) hdrlen = (hdrptr->hdrlen+2)<<2; else hdrlen = ipv6_optlen(hdrptr); currenthdr = hdrptr->nexthdr; ptr += hdrlen; /* ptr is too large */ if ( ptr > skb->len ) return 0; } /* currenthdr contains the protocol header */ dprintf("Packet protocol %hi ?= %s%hi.\n", currenthdr, ip6info->invflags & IP6T_INV_PROTO ? "!":"", ip6info->proto); if (ip6info->proto == currenthdr) { if(ip6info->invflags & IP6T_INV_PROTO) { return 0; } return 1; } /* We need match for the '-p all', too! */ if ((ip6info->proto != 0) && !(ip6info->invflags & IP6T_INV_PROTO)) return 0; } return 1; } /* should be ip6 safe */ static inline int ip6_checkentry(const struct ip6t_ip6 *ipv6) { if (ipv6->flags & ~IP6T_F_MASK) { duprintf("Unknown flag bits set: %08X\n", ipv6->flags & ~IP6T_F_MASK); return 0; } if (ipv6->invflags & ~IP6T_INV_MASK) { duprintf("Unknown invflag bits set: %08X\n", ipv6->invflags & ~IP6T_INV_MASK); return 0; } return 1; } static unsigned int ip6t_error(struct sk_buff **pskb, unsigned int hooknum, const struct net_device *in, const struct net_device *out, const void *targinfo, void *userinfo) { if (net_ratelimit()) printk("ip6_tables: error: `%s'\n", (char *)targinfo); return NF_DROP; } static inline int do_match(struct ip6t_entry_match *m, const struct sk_buff *skb, const struct net_device *in, const struct net_device *out, int offset, const void *hdr, u_int16_t datalen, int *hotdrop) { /* Stop iteration if it doesn't match */ if (!m->u.kernel.match->match(skb, in, out, m->data, offset, hdr, datalen, hotdrop)) return 1; else return 0; } static inline struct ip6t_entry * get_entry(void *base, unsigned int offset) { return (struct ip6t_entry *)(base + offset); } /* Returns one of the generic firewall policies, like NF_ACCEPT. */ unsigned int ip6t_do_table(struct sk_buff **pskb, unsigned int hook, const struct net_device *in, const struct net_device *out, struct ip6t_table *table, void *userdata) { static const char nulldevname[IFNAMSIZ] = { 0 }; u_int16_t offset = 0; struct ipv6hdr *ipv6; void *protohdr; u_int16_t datalen; int hotdrop = 0; /* Initializing verdict to NF_DROP keeps gcc happy. */ unsigned int verdict = NF_DROP; const char *indev, *outdev; void *table_base; struct ip6t_entry *e, *back; /* Initialization */ ipv6 = (*pskb)->nh.ipv6h; protohdr = (u_int32_t *)((char *)ipv6 + IPV6_HDR_LEN); datalen = (*pskb)->len - IPV6_HDR_LEN; indev = in ? in->name : nulldevname; outdev = out ? out->name : nulldevname; /* We handle fragments by dealing with the first fragment as * if it was a normal packet. All other fragments are treated * normally, except that they will NEVER match rules that ask * things we don't know, ie. tcp syn flag or ports). If the * rule is also a fragment-specific rule, non-fragments won't * match it. */ read_lock_bh(&table->lock); IP_NF_ASSERT(table->valid_hooks & (1 << hook)); table_base = (void *)table->private->entries + TABLE_OFFSET(table->private, cpu_number_map(smp_processor_id())); e = get_entry(table_base, table->private->hook_entry[hook]); #ifdef CONFIG_NETFILTER_DEBUG /* Check noone else using our table */ if (((struct ip6t_entry *)table_base)->comefrom != 0xdead57ac && ((struct ip6t_entry *)table_base)->comefrom != 0xeeeeeeec) { printk("ASSERT: CPU #%u, %s comefrom(%p) = %X\n", smp_processor_id(), table->name, &((struct ip6t_entry *)table_base)->comefrom, ((struct ip6t_entry *)table_base)->comefrom); } ((struct ip6t_entry *)table_base)->comefrom = 0x57acc001; #endif /* For return from builtin chain */ back = get_entry(table_base, table->private->underflow[hook]); do { IP_NF_ASSERT(e); IP_NF_ASSERT(back); (*pskb)->nfcache |= e->nfcache; if (ip6_packet_match(*pskb, ipv6, indev, outdev, &e->ipv6, offset)) { struct ip6t_entry_target *t; if (IP6T_MATCH_ITERATE(e, do_match, *pskb, in, out, offset, protohdr, datalen, &hotdrop) != 0) goto no_match; ADD_COUNTER(e->counters, ntohs(ipv6->payload_len) + IPV6_HDR_LEN, 1); t = ip6t_get_target(e); IP_NF_ASSERT(t->u.kernel.target); /* Standard target? */ if (!t->u.kernel.target->target) { int v; v = ((struct ip6t_standard_target *)t)->verdict; if (v < 0) { /* Pop from stack? */ if (v != IP6T_RETURN) { verdict = (unsigned)(-v) - 1; break; } e = back; back = get_entry(table_base, back->comefrom); continue; } if (table_base + v != (void *)e + e->next_offset) { /* Save old back ptr in next entry */ struct ip6t_entry *next = (void *)e + e->next_offset; next->comefrom = (void *)back - table_base; /* set back pointer to next entry */ back = next; } e = get_entry(table_base, v); } else { /* Targets which reenter must return abs. verdicts */ #ifdef CONFIG_NETFILTER_DEBUG ((struct ip6t_entry *)table_base)->comefrom = 0xeeeeeeec; #endif verdict = t->u.kernel.target->target(pskb, hook, in, out, t->data, userdata); #ifdef CONFIG_NETFILTER_DEBUG if (((struct ip6t_entry *)table_base)->comefrom != 0xeeeeeeec && verdict == IP6T_CONTINUE) { printk("Target %s reentered!\n", t->u.kernel.target->name); verdict = NF_DROP; } ((struct ip6t_entry *)table_base)->comefrom = 0x57acc001; #endif /* Target might have changed stuff. */ ipv6 = (*pskb)->nh.ipv6h; protohdr = (u_int32_t *)((void *)ipv6 + IPV6_HDR_LEN); datalen = (*pskb)->len - IPV6_HDR_LEN; if (verdict == IP6T_CONTINUE) e = (void *)e + e->next_offset; else /* Verdict */ break; } } else { no_match: e = (void *)e + e->next_offset; } } while (!hotdrop); #ifdef CONFIG_NETFILTER_DEBUG ((struct ip6t_entry *)table_base)->comefrom = 0xdead57ac; #endif read_unlock_bh(&table->lock); #ifdef DEBUG_ALLOW_ALL return NF_ACCEPT; #else if (hotdrop) return NF_DROP; else return verdict; #endif } /* If it succeeds, returns element and locks mutex */ static inline void * find_inlist_lock_noload(struct list_head *head, const char *name, int *error, struct semaphore *mutex) { void *ret; #if 1 duprintf("find_inlist: searching for `%s' in %s.\n", name, head == &ip6t_target ? "ip6t_target" : head == &ip6t_match ? "ip6t_match" : head == &ip6t_tables ? "ip6t_tables" : "UNKNOWN"); #endif *error = down_interruptible(mutex); if (*error != 0) return NULL; ret = list_named_find(head, name); if (!ret) { *error = -ENOENT; up(mutex); } return ret; } #ifndef CONFIG_KMOD #define find_inlist_lock(h,n,p,e,m) find_inlist_lock_noload((h),(n),(e),(m)) #else static void * find_inlist_lock(struct list_head *head, const char *name, const char *prefix, int *error, struct semaphore *mutex) { void *ret; ret = find_inlist_lock_noload(head, name, error, mutex); if (!ret) { char modulename[IP6T_FUNCTION_MAXNAMELEN + strlen(prefix) + 1]; strcpy(modulename, prefix); strcat(modulename, name); duprintf("find_inlist: loading `%s'.\n", modulename); request_module(modulename); ret = find_inlist_lock_noload(head, name, error, mutex); } return ret; } #endif static inline struct ip6t_table * find_table_lock(const char *name, int *error, struct semaphore *mutex) { return find_inlist_lock(&ip6t_tables, name, "ip6table_", error, mutex); } static inline struct ip6t_match * find_match_lock(const char *name, int *error, struct semaphore *mutex) { return find_inlist_lock(&ip6t_match, name, "ip6t_", error, mutex); } static inline struct ip6t_target * find_target_lock(const char *name, int *error, struct semaphore *mutex) { return find_inlist_lock(&ip6t_target, name, "ip6t_", error, mutex); } /* All zeroes == unconditional rule. */ static inline int unconditional(const struct ip6t_ip6 *ipv6) { unsigned int i; for (i = 0; i < sizeof(*ipv6); i++) if (((char *)ipv6)[i]) break; return (i == sizeof(*ipv6)); } /* Figures out from what hook each rule can be called: returns 0 if there are loops. Puts hook bitmask in comefrom. */ static int mark_source_chains(struct ip6t_table_info *newinfo, unsigned int valid_hooks) { unsigned int hook; /* No recursion; use packet counter to save back ptrs (reset to 0 as we leave), and comefrom to save source hook bitmask */ for (hook = 0; hook < NF_IP6_NUMHOOKS; hook++) { unsigned int pos = newinfo->hook_entry[hook]; struct ip6t_entry *e = (struct ip6t_entry *)(newinfo->entries + pos); if (!(valid_hooks & (1 << hook))) continue; /* Set initial back pointer. */ e->counters.pcnt = pos; for (;;) { struct ip6t_standard_target *t = (void *)ip6t_get_target(e); if (e->comefrom & (1 << NF_IP6_NUMHOOKS)) { printk("iptables: loop hook %u pos %u %08X.\n", hook, pos, e->comefrom); return 0; } e->comefrom |= ((1 << hook) | (1 << NF_IP6_NUMHOOKS)); /* Unconditional return/END. */ if (e->target_offset == sizeof(struct ip6t_entry) && (strcmp(t->target.u.user.name, IP6T_STANDARD_TARGET) == 0) && t->verdict < 0 && unconditional(&e->ipv6)) { unsigned int oldpos, size; /* Return: backtrack through the last big jump. */ do { e->comefrom ^= (1<<NF_IP6_NUMHOOKS); #ifdef DEBUG_IP_FIREWALL_USER if (e->comefrom & (1 << NF_IP6_NUMHOOKS)) { duprintf("Back unset " "on hook %u " "rule %u\n", hook, pos); } #endif oldpos = pos; pos = e->counters.pcnt; e->counters.pcnt = 0; /* We're at the start. */ if (pos == oldpos) goto next; e = (struct ip6t_entry *) (newinfo->entries + pos); } while (oldpos == pos + e->next_offset); /* Move along one */ size = e->next_offset; e = (struct ip6t_entry *) (newinfo->entries + pos + size); e->counters.pcnt = pos; pos += size; } else { int newpos = t->verdict; if (strcmp(t->target.u.user.name, IP6T_STANDARD_TARGET) == 0 && newpos >= 0) { /* This a jump; chase it. */ duprintf("Jump rule %u -> %u\n", pos, newpos); } else { /* ... this is a fallthru */ newpos = pos + e->next_offset; } e = (struct ip6t_entry *) (newinfo->entries + newpos); e->counters.pcnt = pos; pos = newpos; } } next: duprintf("Finished chain %u\n", hook); } return 1; } static inline int cleanup_match(struct ip6t_entry_match *m, unsigned int *i) { if (i && (*i)-- == 0) return 1; if (m->u.kernel.match->destroy) m->u.kernel.match->destroy(m->data, m->u.match_size - sizeof(*m)); if (m->u.kernel.match->me) __MOD_DEC_USE_COUNT(m->u.kernel.match->me); return 0; } static inline int standard_check(const struct ip6t_entry_target *t, unsigned int max_offset) { struct ip6t_standard_target *targ = (void *)t; /* Check standard info. */ if (t->u.target_size != IP6T_ALIGN(sizeof(struct ip6t_standard_target))) { duprintf("standard_check: target size %u != %u\n", t->u.target_size, IP6T_ALIGN(sizeof(struct ip6t_standard_target))); return 0; } if (targ->verdict >= 0 && targ->verdict > max_offset - sizeof(struct ip6t_entry)) { duprintf("ip6t_standard_check: bad verdict (%i)\n", targ->verdict); return 0; } if (targ->verdict < -NF_MAX_VERDICT - 1) { duprintf("ip6t_standard_check: bad negative verdict (%i)\n", targ->verdict); return 0; } return 1; } static inline int check_match(struct ip6t_entry_match *m, const char *name, const struct ip6t_ip6 *ipv6, unsigned int hookmask, unsigned int *i) { int ret; struct ip6t_match *match; match = find_match_lock(m->u.user.name, &ret, &ip6t_mutex); if (!match) { // duprintf("check_match: `%s' not found\n", m->u.name); return ret; } if (match->me) __MOD_INC_USE_COUNT(match->me); m->u.kernel.match = match; up(&ip6t_mutex); if (m->u.kernel.match->checkentry && !m->u.kernel.match->checkentry(name, ipv6, m->data, m->u.match_size - sizeof(*m), hookmask)) { if (m->u.kernel.match->me) __MOD_DEC_USE_COUNT(m->u.kernel.match->me); duprintf("ip_tables: check failed for `%s'.\n", m->u.kernel.match->name); return -EINVAL; } (*i)++; return 0; } static struct ip6t_target ip6t_standard_target; static inline int check_entry(struct ip6t_entry *e, const char *name, unsigned int size, unsigned int *i) { struct ip6t_entry_target *t; struct ip6t_target *target; int ret; unsigned int j; if (!ip6_checkentry(&e->ipv6)) { duprintf("ip_tables: ip check failed %p %s.\n", e, name); return -EINVAL; } j = 0; ret = IP6T_MATCH_ITERATE(e, check_match, name, &e->ipv6, e->comefrom, &j); if (ret != 0) goto cleanup_matches; t = ip6t_get_target(e); target = find_target_lock(t->u.user.name, &ret, &ip6t_mutex); if (!target) { duprintf("check_entry: `%s' not found\n", t->u.user.name); goto cleanup_matches; } if (target->me) __MOD_INC_USE_COUNT(target->me); t->u.kernel.target = target; up(&ip6t_mutex); if (t->u.kernel.target == &ip6t_standard_target) { if (!standard_check(t, size)) { ret = -EINVAL; goto cleanup_matches; } } else if (t->u.kernel.target->checkentry && !t->u.kernel.target->checkentry(name, e, t->data, t->u.target_size - sizeof(*t), e->comefrom)) { if (t->u.kernel.target->me) __MOD_DEC_USE_COUNT(t->u.kernel.target->me); duprintf("ip_tables: check failed for `%s'.\n", t->u.kernel.target->name); ret = -EINVAL; goto cleanup_matches; } (*i)++; return 0; cleanup_matches: IP6T_MATCH_ITERATE(e, cleanup_match, &j); return ret; } static inline int check_entry_size_and_hooks(struct ip6t_entry *e, struct ip6t_table_info *newinfo, unsigned char *base, unsigned char *limit, const unsigned int *hook_entries, const unsigned int *underflows, unsigned int *i) { unsigned int h; if ((unsigned long)e % __alignof__(struct ip6t_entry) != 0 || (unsigned char *)e + sizeof(struct ip6t_entry) >= limit) { duprintf("Bad offset %p\n", e); return -EINVAL; } if (e->next_offset < sizeof(struct ip6t_entry) + sizeof(struct ip6t_entry_target)) { duprintf("checking: element %p size %u\n", e, e->next_offset); return -EINVAL; } /* Check hooks & underflows */ for (h = 0; h < NF_IP6_NUMHOOKS; h++) { if ((unsigned char *)e - base == hook_entries[h]) newinfo->hook_entry[h] = hook_entries[h]; if ((unsigned char *)e - base == underflows[h]) newinfo->underflow[h] = underflows[h]; } /* FIXME: underflows must be unconditional, standard verdicts < 0 (not IP6T_RETURN). --RR */ /* Clear counters and comefrom */ e->counters = ((struct ip6t_counters) { 0, 0 }); e->comefrom = 0; (*i)++; return 0; } static inline int cleanup_entry(struct ip6t_entry *e, unsigned int *i) { struct ip6t_entry_target *t; if (i && (*i)-- == 0) return 1; /* Cleanup all matches */ IP6T_MATCH_ITERATE(e, cleanup_match, NULL); t = ip6t_get_target(e); if (t->u.kernel.target->destroy) t->u.kernel.target->destroy(t->data, t->u.target_size - sizeof(*t)); if (t->u.kernel.target->me) __MOD_DEC_USE_COUNT(t->u.kernel.target->me); return 0; } /* Checks and translates the user-supplied table segment (held in newinfo) */ static int translate_table(const char *name, unsigned int valid_hooks, struct ip6t_table_info *newinfo, unsigned int size, unsigned int number, const unsigned int *hook_entries, const unsigned int *underflows) { unsigned int i; int ret; newinfo->size = size; newinfo->number = number; /* Init all hooks to impossible value. */ for (i = 0; i < NF_IP6_NUMHOOKS; i++) { newinfo->hook_entry[i] = 0xFFFFFFFF; newinfo->underflow[i] = 0xFFFFFFFF; } duprintf("translate_table: size %u\n", newinfo->size); i = 0; /* Walk through entries, checking offsets. */ ret = IP6T_ENTRY_ITERATE(newinfo->entries, newinfo->size, check_entry_size_and_hooks, newinfo, newinfo->entries, newinfo->entries + size, hook_entries, underflows, &i); if (ret != 0) return ret; if (i != number) { duprintf("translate_table: %u not %u entries\n", i, number); return -EINVAL; } /* Check hooks all assigned */ for (i = 0; i < NF_IP6_NUMHOOKS; i++) { /* Only hooks which are valid */ if (!(valid_hooks & (1 << i))) continue; if (newinfo->hook_entry[i] == 0xFFFFFFFF) { duprintf("Invalid hook entry %u %u\n", i, hook_entries[i]); return -EINVAL; } if (newinfo->underflow[i] == 0xFFFFFFFF) { duprintf("Invalid underflow %u %u\n", i, underflows[i]); return -EINVAL; } } if (!mark_source_chains(newinfo, valid_hooks)) return -ELOOP; /* Finally, each sanity check must pass */ i = 0; ret = IP6T_ENTRY_ITERATE(newinfo->entries, newinfo->size, check_entry, name, size, &i); if (ret != 0) { IP6T_ENTRY_ITERATE(newinfo->entries, newinfo->size, cleanup_entry, &i); return ret; } /* And one copy for every other CPU */ for (i = 1; i < smp_num_cpus; i++) { memcpy(newinfo->entries + SMP_ALIGN(newinfo->size)*i, newinfo->entries, SMP_ALIGN(newinfo->size)); } return ret; } static struct ip6t_table_info * replace_table(struct ip6t_table *table, unsigned int num_counters, struct ip6t_table_info *newinfo, int *error) { struct ip6t_table_info *oldinfo; #ifdef CONFIG_NETFILTER_DEBUG { struct ip6t_entry *table_base; unsigned int i; for (i = 0; i < smp_num_cpus; i++) { table_base = (void *)newinfo->entries + TABLE_OFFSET(newinfo, i); table_base->comefrom = 0xdead57ac; } } #endif /* Do the substitution. */ write_lock_bh(&table->lock); /* Check inside lock: is the old number correct? */ if (num_counters != table->private->number) { duprintf("num_counters != table->private->number (%u/%u)\n", num_counters, table->private->number); write_unlock_bh(&table->lock); *error = -EAGAIN; return NULL; } oldinfo = table->private; table->private = newinfo; newinfo->initial_entries = oldinfo->initial_entries; write_unlock_bh(&table->lock); return oldinfo; } /* Gets counters. */ static inline int add_entry_to_counter(const struct ip6t_entry *e, struct ip6t_counters total[], unsigned int *i) { ADD_COUNTER(total[*i], e->counters.bcnt, e->counters.pcnt); (*i)++; return 0; } static void get_counters(const struct ip6t_table_info *t, struct ip6t_counters counters[]) { unsigned int cpu; unsigned int i; for (cpu = 0; cpu < smp_num_cpus; cpu++) { i = 0; IP6T_ENTRY_ITERATE(t->entries + TABLE_OFFSET(t, cpu), t->size, add_entry_to_counter, counters, &i); } } static int copy_entries_to_user(unsigned int total_size, struct ip6t_table *table, void *userptr) { unsigned int off, num, countersize; struct ip6t_entry *e; struct ip6t_counters *counters; int ret = 0; /* We need atomic snapshot of counters: rest doesn't change (other than comefrom, which userspace doesn't care about). */ countersize = sizeof(struct ip6t_counters) * table->private->number; counters = vmalloc(countersize); if (counters == NULL) return -ENOMEM; /* First, sum counters... */ memset(counters, 0, countersize); write_lock_bh(&table->lock); get_counters(table->private, counters); write_unlock_bh(&table->lock); /* ... then copy entire thing from CPU 0... */ if (copy_to_user(userptr, table->private->entries, total_size) != 0) { ret = -EFAULT; goto free_counters; } /* FIXME: use iterator macros --RR */ /* ... then go back and fix counters and names */ for (off = 0, num = 0; off < total_size; off += e->next_offset, num++){ unsigned int i; struct ip6t_entry_match *m; struct ip6t_entry_target *t; e = (struct ip6t_entry *)(table->private->entries + off); if (copy_to_user(userptr + off + offsetof(struct ip6t_entry, counters), &counters[num], sizeof(counters[num])) != 0) { ret = -EFAULT; goto free_counters; } for (i = sizeof(struct ip6t_entry); i < e->target_offset; i += m->u.match_size) { m = (void *)e + i; if (copy_to_user(userptr + off + i + offsetof(struct ip6t_entry_match, u.user.name), m->u.kernel.match->name, strlen(m->u.kernel.match->name)+1) != 0) { ret = -EFAULT; goto free_counters; } } t = ip6t_get_target(e); if (copy_to_user(userptr + off + e->target_offset + offsetof(struct ip6t_entry_target, u.user.name), t->u.kernel.target->name, strlen(t->u.kernel.target->name)+1) != 0) { ret = -EFAULT; goto free_counters; } } free_counters: vfree(counters); return ret; } static int get_entries(const struct ip6t_get_entries *entries, struct ip6t_get_entries *uptr) { int ret; struct ip6t_table *t; t = find_table_lock(entries->name, &ret, &ip6t_mutex); if (t) { duprintf("t->private->number = %u\n", t->private->number); if (entries->size == t->private->size) ret = copy_entries_to_user(t->private->size, t, uptr->entrytable); else { duprintf("get_entries: I've got %u not %u!\n", t->private->size, entries->size); ret = -EINVAL; } up(&ip6t_mutex); } else duprintf("get_entries: Can't find %s!\n", entries->name); return ret; } static int do_replace(void *user, unsigned int len) { int ret; struct ip6t_replace tmp; struct ip6t_table *t; struct ip6t_table_info *newinfo, *oldinfo; struct ip6t_counters *counters; if (copy_from_user(&tmp, user, sizeof(tmp)) != 0) return -EFAULT; /* Pedantry: prevent them from hitting BUG() in vmalloc.c --RR */ if ((SMP_ALIGN(tmp.size) >> PAGE_SHIFT) + 2 > num_physpages) return -ENOMEM; newinfo = vmalloc(sizeof(struct ip6t_table_info) + SMP_ALIGN(tmp.size) * smp_num_cpus); if (!newinfo) return -ENOMEM; if (copy_from_user(newinfo->entries, user + sizeof(tmp), tmp.size) != 0) { ret = -EFAULT; goto free_newinfo; } counters = vmalloc(tmp.num_counters * sizeof(struct ip6t_counters)); if (!counters) { ret = -ENOMEM; goto free_newinfo; } memset(counters, 0, tmp.num_counters * sizeof(struct ip6t_counters)); ret = translate_table(tmp.name, tmp.valid_hooks, newinfo, tmp.size, tmp.num_entries, tmp.hook_entry, tmp.underflow); if (ret != 0) goto free_newinfo_counters; duprintf("ip_tables: Translated table\n"); t = find_table_lock(tmp.name, &ret, &ip6t_mutex); if (!t) goto free_newinfo_counters_untrans; /* You lied! */ if (tmp.valid_hooks != t->valid_hooks) { duprintf("Valid hook crap: %08X vs %08X\n", tmp.valid_hooks, t->valid_hooks); ret = -EINVAL; goto free_newinfo_counters_untrans_unlock; } oldinfo = replace_table(t, tmp.num_counters, newinfo, &ret); if (!oldinfo) goto free_newinfo_counters_untrans_unlock; /* Update module usage count based on number of rules */ duprintf("do_replace: oldnum=%u, initnum=%u, newnum=%u\n", oldinfo->number, oldinfo->initial_entries, newinfo->number); if (t->me && (oldinfo->number <= oldinfo->initial_entries) && (newinfo->number > oldinfo->initial_entries)) __MOD_INC_USE_COUNT(t->me); else if (t->me && (oldinfo->number > oldinfo->initial_entries) && (newinfo->number <= oldinfo->initial_entries)) __MOD_DEC_USE_COUNT(t->me); /* Get the old counters. */ get_counters(oldinfo, counters); /* Decrease module usage counts and free resource */ IP6T_ENTRY_ITERATE(oldinfo->entries, oldinfo->size, cleanup_entry,NULL); vfree(oldinfo); /* Silent error: too late now. */ copy_to_user(tmp.counters, counters, sizeof(struct ip6t_counters) * tmp.num_counters); vfree(counters); up(&ip6t_mutex); return 0; free_newinfo_counters_untrans_unlock: up(&ip6t_mutex); free_newinfo_counters_untrans: IP6T_ENTRY_ITERATE(newinfo->entries, newinfo->size, cleanup_entry,NULL); free_newinfo_counters: vfree(counters); free_newinfo: vfree(newinfo); return ret; } /* We're lazy, and add to the first CPU; overflow works its fey magic * and everything is OK. */ static inline int add_counter_to_entry(struct ip6t_entry *e, const struct ip6t_counters addme[], unsigned int *i) { #if 0 duprintf("add_counter: Entry %u %lu/%lu + %lu/%lu\n", *i, (long unsigned int)e->counters.pcnt, (long unsigned int)e->counters.bcnt, (long unsigned int)addme[*i].pcnt, (long unsigned int)addme[*i].bcnt); #endif ADD_COUNTER(e->counters, addme[*i].bcnt, addme[*i].pcnt); (*i)++; return 0; } static int do_add_counters(void *user, unsigned int len) { unsigned int i; struct ip6t_counters_info tmp, *paddc; struct ip6t_table *t; int ret; if (copy_from_user(&tmp, user, sizeof(tmp)) != 0) return -EFAULT; if (len != sizeof(tmp) + tmp.num_counters*sizeof(struct ip6t_counters)) return -EINVAL; paddc = vmalloc(len); if (!paddc) return -ENOMEM; if (copy_from_user(paddc, user, len) != 0) { ret = -EFAULT; goto free; } t = find_table_lock(tmp.name, &ret, &ip6t_mutex); if (!t) goto free; write_lock_bh(&t->lock); if (t->private->number != paddc->num_counters) { ret = -EINVAL; goto unlock_up_free; } i = 0; IP6T_ENTRY_ITERATE(t->private->entries, t->private->size, add_counter_to_entry, paddc->counters, &i); unlock_up_free: write_unlock_bh(&t->lock); up(&ip6t_mutex); free: vfree(paddc); return ret; } static int do_ip6t_set_ctl(struct sock *sk, int cmd, void *user, unsigned int len) { int ret; if (!capable(CAP_NET_ADMIN)) return -EPERM; switch (cmd) { case IP6T_SO_SET_REPLACE: ret = do_replace(user, len); break; case IP6T_SO_SET_ADD_COUNTERS: ret = do_add_counters(user, len); break; default: duprintf("do_ip6t_set_ctl: unknown request %i\n", cmd); ret = -EINVAL; } return ret; } static int do_ip6t_get_ctl(struct sock *sk, int cmd, void *user, int *len) { int ret; if (!capable(CAP_NET_ADMIN)) return -EPERM; switch (cmd) { case IP6T_SO_GET_INFO: { char name[IP6T_TABLE_MAXNAMELEN]; struct ip6t_table *t; if (*len != sizeof(struct ip6t_getinfo)) { duprintf("length %u != %u\n", *len, sizeof(struct ip6t_getinfo)); ret = -EINVAL; break; } if (copy_from_user(name, user, sizeof(name)) != 0) { ret = -EFAULT; break; } name[IP6T_TABLE_MAXNAMELEN-1] = '\0'; t = find_table_lock(name, &ret, &ip6t_mutex); if (t) { struct ip6t_getinfo info; info.valid_hooks = t->valid_hooks; memcpy(info.hook_entry, t->private->hook_entry, sizeof(info.hook_entry)); memcpy(info.underflow, t->private->underflow, sizeof(info.underflow)); info.num_entries = t->private->number; info.size = t->private->size; strcpy(info.name, name); if (copy_to_user(user, &info, *len) != 0) ret = -EFAULT; else ret = 0; up(&ip6t_mutex); } } break; case IP6T_SO_GET_ENTRIES: { struct ip6t_get_entries get; if (*len < sizeof(get)) { duprintf("get_entries: %u < %u\n", *len, sizeof(get)); ret = -EINVAL; } else if (copy_from_user(&get, user, sizeof(get)) != 0) { ret = -EFAULT; } else if (*len != sizeof(struct ip6t_get_entries) + get.size) { duprintf("get_entries: %u != %u\n", *len, sizeof(struct ip6t_get_entries) + get.size); ret = -EINVAL; } else ret = get_entries(&get, user); break; } default: duprintf("do_ip6t_get_ctl: unknown request %i\n", cmd); ret = -EINVAL; } return ret; } /* Registration hooks for targets. */ int ip6t_register_target(struct ip6t_target *target) { int ret; MOD_INC_USE_COUNT; ret = down_interruptible(&ip6t_mutex); if (ret != 0) { MOD_DEC_USE_COUNT; return ret; } if (!list_named_insert(&ip6t_target, target)) { duprintf("ip6t_register_target: `%s' already in list!\n", target->name); ret = -EINVAL; MOD_DEC_USE_COUNT; } up(&ip6t_mutex); return ret; } void ip6t_unregister_target(struct ip6t_target *target) { down(&ip6t_mutex); LIST_DELETE(&ip6t_target, target); up(&ip6t_mutex); MOD_DEC_USE_COUNT; } int ip6t_register_match(struct ip6t_match *match) { int ret; MOD_INC_USE_COUNT; ret = down_interruptible(&ip6t_mutex); if (ret != 0) { MOD_DEC_USE_COUNT; return ret; } if (!list_named_insert(&ip6t_match, match)) { duprintf("ip6t_register_match: `%s' already in list!\n", match->name); MOD_DEC_USE_COUNT; ret = -EINVAL; } up(&ip6t_mutex); return ret; } void ip6t_unregister_match(struct ip6t_match *match) { down(&ip6t_mutex); LIST_DELETE(&ip6t_match, match); up(&ip6t_mutex); MOD_DEC_USE_COUNT; } int ip6t_register_table(struct ip6t_table *table) { int ret; struct ip6t_table_info *newinfo; static struct ip6t_table_info bootstrap = { 0, 0, 0, { 0 }, { 0 }, { } }; MOD_INC_USE_COUNT; newinfo = vmalloc(sizeof(struct ip6t_table_info) + SMP_ALIGN(table->table->size) * smp_num_cpus); if (!newinfo) { ret = -ENOMEM; MOD_DEC_USE_COUNT; return ret; } memcpy(newinfo->entries, table->table->entries, table->table->size); ret = translate_table(table->name, table->valid_hooks, newinfo, table->table->size, table->table->num_entries, table->table->hook_entry, table->table->underflow); if (ret != 0) { vfree(newinfo); MOD_DEC_USE_COUNT; return ret; } ret = down_interruptible(&ip6t_mutex); if (ret != 0) { vfree(newinfo); MOD_DEC_USE_COUNT; return ret; } /* Don't autoload: we'd eat our tail... */ if (list_named_find(&ip6t_tables, table->name)) { ret = -EEXIST; goto free_unlock; } /* Simplifies replace_table code. */ table->private = &bootstrap; if (!replace_table(table, 0, newinfo, &ret)) goto free_unlock; duprintf("table->private->number = %u\n", table->private->number); /* save number of initial entries */ table->private->initial_entries = table->private->number; table->lock = RW_LOCK_UNLOCKED; list_prepend(&ip6t_tables, table); unlock: up(&ip6t_mutex); return ret; free_unlock: vfree(newinfo); MOD_DEC_USE_COUNT; goto unlock; } void ip6t_unregister_table(struct ip6t_table *table) { down(&ip6t_mutex); LIST_DELETE(&ip6t_tables, table); up(&ip6t_mutex); /* Decrease module usage counts and free resources */ IP6T_ENTRY_ITERATE(table->private->entries, table->private->size, cleanup_entry, NULL); vfree(table->private); MOD_DEC_USE_COUNT; } /* Returns 1 if the port is matched by the range, 0 otherwise */ static inline int port_match(u_int16_t min, u_int16_t max, u_int16_t port, int invert) { int ret; ret = (port >= min && port <= max) ^ invert; return ret; } static int tcp_find_option(u_int8_t option, const struct tcphdr *tcp, u_int16_t datalen, int invert, int *hotdrop) { unsigned int i = sizeof(struct tcphdr); const u_int8_t *opt = (u_int8_t *)tcp; duprintf("tcp_match: finding option\n"); /* If we don't have the whole header, drop packet. */ if (tcp->doff * 4 < sizeof(struct tcphdr) || tcp->doff * 4 > datalen) { *hotdrop = 1; return 0; } while (i < tcp->doff * 4) { if (opt[i] == option) return !invert; if (opt[i] < 2) i++; else i += opt[i+1]?:1; } return invert; } static int tcp_match(const struct sk_buff *skb, const struct net_device *in, const struct net_device *out, const void *matchinfo, int offset, const void *hdr, u_int16_t datalen, int *hotdrop) { const struct tcphdr *tcp; const struct ip6t_tcp *tcpinfo = matchinfo; int tcpoff; u8 nexthdr = skb->nh.ipv6h->nexthdr; /* To quote Alan: Don't allow a fragment of TCP 8 bytes in. Nobody normal causes this. Its a cracker trying to break in by doing a flag overwrite to pass the direction checks. */ if (offset == 1) { duprintf("Dropping evil TCP offset=1 frag.\n"); *hotdrop = 1; return 0; } else if (offset == 0 && datalen < sizeof(struct tcphdr)) { /* We've been asked to examine this packet, and we can't. Hence, no choice but to drop. */ duprintf("Dropping evil TCP offset=0 tinygram.\n"); *hotdrop = 1; return 0; } tcpoff = (u8*)(skb->nh.ipv6h + 1) - skb->data; tcpoff = ipv6_skip_exthdr(skb, tcpoff, &nexthdr, skb->len - tcpoff); if (tcpoff < 0 || tcpoff > skb->len) { duprintf("tcp_match: cannot skip exthdr. Dropping.\n"); *hotdrop = 1; return 0; } else if (nexthdr == IPPROTO_FRAGMENT) return 0; else if (nexthdr != IPPROTO_TCP || skb->len - tcpoff < sizeof(struct tcphdr)) { /* cannot be occured */ duprintf("tcp_match: cannot get TCP header. Dropping.\n"); *hotdrop = 1; return 0; } tcp = (struct tcphdr *)(skb->data + tcpoff); /* FIXME: Try tcp doff >> packet len against various stacks --RR */ #define FWINVTCP(bool,invflg) ((bool) ^ !!(tcpinfo->invflags & invflg)) /* Must not be a fragment. */ return !offset && port_match(tcpinfo->spts[0], tcpinfo->spts[1], ntohs(tcp->source), !!(tcpinfo->invflags & IP6T_TCP_INV_SRCPT)) && port_match(tcpinfo->dpts[0], tcpinfo->dpts[1], ntohs(tcp->dest), !!(tcpinfo->invflags & IP6T_TCP_INV_DSTPT)) && FWINVTCP((((unsigned char *)tcp)[13] & tcpinfo->flg_mask) == tcpinfo->flg_cmp, IP6T_TCP_INV_FLAGS) && (!tcpinfo->option || tcp_find_option(tcpinfo->option, tcp, datalen, tcpinfo->invflags & IP6T_TCP_INV_OPTION, hotdrop)); } /* Called when user tries to insert an entry of this type. */ static int tcp_checkentry(const char *tablename, const struct ip6t_ip6 *ipv6, void *matchinfo, unsigned int matchsize, unsigned int hook_mask) { const struct ip6t_tcp *tcpinfo = matchinfo; /* Must specify proto == TCP, and no unknown invflags */ return ipv6->proto == IPPROTO_TCP && !(ipv6->invflags & IP6T_INV_PROTO) && matchsize == IP6T_ALIGN(sizeof(struct ip6t_tcp)) && !(tcpinfo->invflags & ~IP6T_TCP_INV_MASK); } static int udp_match(const struct sk_buff *skb, const struct net_device *in, const struct net_device *out, const void *matchinfo, int offset, const void *hdr, u_int16_t datalen, int *hotdrop) { const struct udphdr *udp; const struct ip6t_udp *udpinfo = matchinfo; int udpoff; u8 nexthdr = skb->nh.ipv6h->nexthdr; if (offset == 0 && datalen < sizeof(struct udphdr)) { /* We've been asked to examine this packet, and we can't. Hence, no choice but to drop. */ duprintf("Dropping evil UDP tinygram.\n"); *hotdrop = 1; return 0; } udpoff = (u8*)(skb->nh.ipv6h + 1) - skb->data; udpoff = ipv6_skip_exthdr(skb, udpoff, &nexthdr, skb->len - udpoff); if (udpoff < 0 || udpoff > skb->len) { duprintf("udp_match: cannot skip exthdr. Dropping.\n"); *hotdrop = 1; return 0; } else if (nexthdr == IPPROTO_FRAGMENT) return 0; else if (nexthdr != IPPROTO_UDP || skb->len - udpoff < sizeof(struct udphdr)) { duprintf("udp_match: cannot get UDP header. Dropping.\n"); *hotdrop = 1; return 0; } udp = (struct udphdr *)(skb->data + udpoff); /* Must not be a fragment. */ return !offset && port_match(udpinfo->spts[0], udpinfo->spts[1], ntohs(udp->source), !!(udpinfo->invflags & IP6T_UDP_INV_SRCPT)) && port_match(udpinfo->dpts[0], udpinfo->dpts[1], ntohs(udp->dest), !!(udpinfo->invflags & IP6T_UDP_INV_DSTPT)); } /* Called when user tries to insert an entry of this type. */ static int udp_checkentry(const char *tablename, const struct ip6t_ip6 *ipv6, void *matchinfo, unsigned int matchinfosize, unsigned int hook_mask) { const struct ip6t_udp *udpinfo = matchinfo; /* Must specify proto == UDP, and no unknown invflags */ if (ipv6->proto != IPPROTO_UDP || (ipv6->invflags & IP6T_INV_PROTO)) { duprintf("ip6t_udp: Protocol %u != %u\n", ipv6->proto, IPPROTO_UDP); return 0; } if (matchinfosize != IP6T_ALIGN(sizeof(struct ip6t_udp))) { duprintf("ip6t_udp: matchsize %u != %u\n", matchinfosize, IP6T_ALIGN(sizeof(struct ip6t_udp))); return 0; } if (udpinfo->invflags & ~IP6T_UDP_INV_MASK) { duprintf("ip6t_udp: unknown flags %X\n", udpinfo->invflags); return 0; } return 1; } /* Returns 1 if the type and code is matched by the range, 0 otherwise */ static inline int icmp6_type_code_match(u_int8_t test_type, u_int8_t min_code, u_int8_t max_code, u_int8_t type, u_int8_t code, int invert) { return (type == test_type && code >= min_code && code <= max_code) ^ invert; } static int icmp6_match(const struct sk_buff *skb, const struct net_device *in, const struct net_device *out, const void *matchinfo, int offset, const void *hdr, u_int16_t datalen, int *hotdrop) { const struct icmp6hdr *icmp = hdr; const struct ip6t_icmp *icmpinfo = matchinfo; if (offset == 0 && datalen < 2) { /* We've been asked to examine this packet, and we can't. Hence, no choice but to drop. */ duprintf("Dropping evil ICMP tinygram.\n"); *hotdrop = 1; return 0; } /* Must not be a fragment. */ return !offset && icmp6_type_code_match(icmpinfo->type, icmpinfo->code[0], icmpinfo->code[1], icmp->icmp6_type, icmp->icmp6_code, !!(icmpinfo->invflags&IP6T_ICMP_INV)); } /* Called when user tries to insert an entry of this type. */ static int icmp6_checkentry(const char *tablename, const struct ip6t_ip6 *ipv6, void *matchinfo, unsigned int matchsize, unsigned int hook_mask) { const struct ip6t_icmp *icmpinfo = matchinfo; /* Must specify proto == ICMP, and no unknown invflags */ return ipv6->proto == IPPROTO_ICMPV6 && !(ipv6->invflags & IP6T_INV_PROTO) && matchsize == IP6T_ALIGN(sizeof(struct ip6t_icmp)) && !(icmpinfo->invflags & ~IP6T_ICMP_INV); } /* The built-in targets: standard (NULL) and error. */ static struct ip6t_target ip6t_standard_target = { { NULL, NULL }, IP6T_STANDARD_TARGET, NULL, NULL, NULL }; static struct ip6t_target ip6t_error_target = { { NULL, NULL }, IP6T_ERROR_TARGET, ip6t_error, NULL, NULL }; static struct nf_sockopt_ops ip6t_sockopts = { { NULL, NULL }, PF_INET6, IP6T_BASE_CTL, IP6T_SO_SET_MAX+1, do_ip6t_set_ctl, IP6T_BASE_CTL, IP6T_SO_GET_MAX+1, do_ip6t_get_ctl, 0, NULL }; static struct ip6t_match tcp_matchstruct = { { NULL, NULL }, "tcp", &tcp_match, &tcp_checkentry, NULL }; static struct ip6t_match udp_matchstruct = { { NULL, NULL }, "udp", &udp_match, &udp_checkentry, NULL }; static struct ip6t_match icmp6_matchstruct = { { NULL, NULL }, "icmp6", &icmp6_match, &icmp6_checkentry, NULL }; #ifdef CONFIG_PROC_FS static inline int print_name(const char *i, off_t start_offset, char *buffer, int length, off_t *pos, unsigned int *count) { if ((*count)++ >= start_offset) { unsigned int namelen; namelen = sprintf(buffer + *pos, "%s\n", i + sizeof(struct list_head)); if (*pos + namelen > length) { /* Stop iterating */ return 1; } *pos += namelen; } return 0; } static int ip6t_get_tables(char *buffer, char **start, off_t offset, int length) { off_t pos = 0; unsigned int count = 0; if (down_interruptible(&ip6t_mutex) != 0) return 0; LIST_FIND(&ip6t_tables, print_name, char *, offset, buffer, length, &pos, &count); up(&ip6t_mutex); /* `start' hack - see fs/proc/generic.c line ~105 */ *start=(char *)((unsigned long)count-offset); return pos; } static int ip6t_get_targets(char *buffer, char **start, off_t offset, int length) { off_t pos = 0; unsigned int count = 0; if (down_interruptible(&ip6t_mutex) != 0) return 0; LIST_FIND(&ip6t_target, print_name, char *, offset, buffer, length, &pos, &count); up(&ip6t_mutex); *start = (char *)((unsigned long)count - offset); return pos; } static int ip6t_get_matches(char *buffer, char **start, off_t offset, int length) { off_t pos = 0; unsigned int count = 0; if (down_interruptible(&ip6t_mutex) != 0) return 0; LIST_FIND(&ip6t_match, print_name, char *, offset, buffer, length, &pos, &count); up(&ip6t_mutex); *start = (char *)((unsigned long)count - offset); return pos; } static struct { char *name; get_info_t *get_info; } ip6t_proc_entry[] = { { "ip6_tables_names", ip6t_get_tables }, { "ip6_tables_targets", ip6t_get_targets }, { "ip6_tables_matches", ip6t_get_matches }, { NULL, NULL} }; #endif /*CONFIG_PROC_FS*/ static int __init init(void) { int ret; /* Noone else will be downing sem now, so we won't sleep */ down(&ip6t_mutex); list_append(&ip6t_target, &ip6t_standard_target); list_append(&ip6t_target, &ip6t_error_target); list_append(&ip6t_match, &tcp_matchstruct); list_append(&ip6t_match, &udp_matchstruct); list_append(&ip6t_match, &icmp6_matchstruct); up(&ip6t_mutex); /* Register setsockopt */ ret = nf_register_sockopt(&ip6t_sockopts); if (ret < 0) { duprintf("Unable to register sockopts.\n"); return ret; } #ifdef CONFIG_PROC_FS { struct proc_dir_entry *proc; int i; for (i = 0; ip6t_proc_entry[i].name; i++) { proc = proc_net_create(ip6t_proc_entry[i].name, 0, ip6t_proc_entry[i].get_info); if (!proc) { while (--i >= 0) proc_net_remove(ip6t_proc_entry[i].name); nf_unregister_sockopt(&ip6t_sockopts); return -ENOMEM; } proc->owner = THIS_MODULE; } } #endif printk("ip6_tables: (C) 2000-2002 Netfilter core team\n"); return 0; } static void __exit fini(void) { nf_unregister_sockopt(&ip6t_sockopts); #ifdef CONFIG_PROC_FS { int i; for (i = 0; ip6t_proc_entry[i].name; i++) proc_net_remove(ip6t_proc_entry[i].name); } #endif } EXPORT_SYMBOL(ip6t_register_table); EXPORT_SYMBOL(ip6t_unregister_table); EXPORT_SYMBOL(ip6t_do_table); EXPORT_SYMBOL(ip6t_register_match); EXPORT_SYMBOL(ip6t_unregister_match); EXPORT_SYMBOL(ip6t_register_target); EXPORT_SYMBOL(ip6t_unregister_target); EXPORT_SYMBOL(ip6t_ext_hdr); module_init(init); module_exit(fini); MODULE_LICENSE("GPL");