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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 | /* linux/net/inet/arp.c * * Version: $Id: arp.c,v 1.86 2000/04/26 09:36:36 davem Exp $ * * Copyright (C) 1994 by Florian La Roche * * This module implements the Address Resolution Protocol ARP (RFC 826), * which is used to convert IP addresses (or in the future maybe other * high-level addresses) into a low-level hardware address (like an Ethernet * address). * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. * * Fixes: * Alan Cox : Removed the Ethernet assumptions in * Florian's code * Alan Cox : Fixed some small errors in the ARP * logic * Alan Cox : Allow >4K in /proc * Alan Cox : Make ARP add its own protocol entry * Ross Martin : Rewrote arp_rcv() and arp_get_info() * Stephen Henson : Add AX25 support to arp_get_info() * Alan Cox : Drop data when a device is downed. * Alan Cox : Use init_timer(). * Alan Cox : Double lock fixes. * Martin Seine : Move the arphdr structure * to if_arp.h for compatibility. * with BSD based programs. * Andrew Tridgell : Added ARP netmask code and * re-arranged proxy handling. * Alan Cox : Changed to use notifiers. * Niibe Yutaka : Reply for this device or proxies only. * Alan Cox : Don't proxy across hardware types! * Jonathan Naylor : Added support for NET/ROM. * Mike Shaver : RFC1122 checks. * Jonathan Naylor : Only lookup the hardware address for * the correct hardware type. * Germano Caronni : Assorted subtle races. * Craig Schlenter : Don't modify permanent entry * during arp_rcv. * Russ Nelson : Tidied up a few bits. * Alexey Kuznetsov: Major changes to caching and behaviour, * eg intelligent arp probing and * generation * of host down events. * Alan Cox : Missing unlock in device events. * Eckes : ARP ioctl control errors. * Alexey Kuznetsov: Arp free fix. * Manuel Rodriguez: Gratuitous ARP. * Jonathan Layes : Added arpd support through kerneld * message queue (960314) * Mike Shaver : /proc/sys/net/ipv4/arp_* support * Mike McLagan : Routing by source * Stuart Cheshire : Metricom and grat arp fixes * *** FOR 2.1 clean this up *** * Lawrence V. Stefani: (08/12/96) Added FDDI support. * Alan Cox : Took the AP1000 nasty FDDI hack and * folded into the mainstream FDDI code. * Ack spit, Linus how did you allow that * one in... * Jes Sorensen : Make FDDI work again in 2.1.x and * clean up the APFDDI & gen. FDDI bits. * Alexey Kuznetsov: new arp state machine; * now it is in net/core/neighbour.c. */ /* RFC1122 Status: 2.3.2.1 (ARP Cache Validation): MUST provide mechanism to flush stale cache entries (OK) SHOULD be able to configure cache timeout (OK) MUST throttle ARP retransmits (OK) 2.3.2.2 (ARP Packet Queue): SHOULD save at least one packet from each "conversation" with an unresolved IP address. (OK) 950727 -- MS */ #include <linux/types.h> #include <linux/string.h> #include <linux/kernel.h> #include <linux/sched.h> #include <linux/config.h> #include <linux/socket.h> #include <linux/sockios.h> #include <linux/errno.h> #include <linux/in.h> #include <linux/mm.h> #include <linux/inet.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/fddidevice.h> #include <linux/if_arp.h> #include <linux/trdevice.h> #include <linux/skbuff.h> #include <linux/proc_fs.h> #include <linux/stat.h> #include <linux/init.h> #ifdef CONFIG_SYSCTL #include <linux/sysctl.h> #endif #include <net/ip.h> #include <net/icmp.h> #include <net/route.h> #include <net/protocol.h> #include <net/tcp.h> #include <net/sock.h> #include <net/arp.h> #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) #include <net/ax25.h> #if defined(CONFIG_NETROM) || defined(CONFIG_NETROM_MODULE) #include <net/netrom.h> #endif #endif #ifdef CONFIG_ATM_CLIP #include <net/atmclip.h> #endif #include <asm/system.h> #include <asm/uaccess.h> #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) static char *ax2asc2(ax25_address *a, char *buf); #endif /* * Interface to generic neighbour cache. */ static u32 arp_hash(const void *pkey, const struct net_device *dev); static int arp_constructor(struct neighbour *neigh); static void arp_solicit(struct neighbour *neigh, struct sk_buff *skb); static void arp_error_report(struct neighbour *neigh, struct sk_buff *skb); static void parp_redo(struct sk_buff *skb); static struct neigh_ops arp_generic_ops = { AF_INET, NULL, arp_solicit, arp_error_report, neigh_resolve_output, neigh_connected_output, dev_queue_xmit, dev_queue_xmit }; static struct neigh_ops arp_hh_ops = { AF_INET, NULL, arp_solicit, arp_error_report, neigh_resolve_output, neigh_resolve_output, dev_queue_xmit, dev_queue_xmit }; static struct neigh_ops arp_direct_ops = { AF_INET, NULL, NULL, NULL, dev_queue_xmit, dev_queue_xmit, dev_queue_xmit, dev_queue_xmit }; struct neigh_ops arp_broken_ops = { AF_INET, NULL, arp_solicit, arp_error_report, neigh_compat_output, neigh_compat_output, dev_queue_xmit, dev_queue_xmit, }; struct neigh_table arp_tbl = { NULL, AF_INET, sizeof(struct neighbour) + 4, 4, arp_hash, arp_constructor, NULL, NULL, parp_redo, "arp_cache", { NULL, NULL, &arp_tbl, 0, NULL, NULL, 30*HZ, 1*HZ, 60*HZ, 30*HZ, 5*HZ, 3, 3, 0, 3, 1*HZ, (8*HZ)/10, 64, 1*HZ }, 30*HZ, 128, 512, 1024, }; int arp_mc_map(u32 addr, u8 *haddr, struct net_device *dev, int dir) { switch (dev->type) { case ARPHRD_ETHER: case ARPHRD_FDDI: case ARPHRD_IEEE802: ip_eth_mc_map(addr, haddr) ; return 0 ; case ARPHRD_IEEE802_TR: ip_tr_mc_map(addr, haddr) ; return 0; default: if (dir) { memcpy(haddr, dev->broadcast, dev->addr_len); return 0; } } return -EINVAL; } static u32 arp_hash(const void *pkey, const struct net_device *dev) { u32 hash_val; hash_val = *(u32*)pkey; hash_val ^= (hash_val>>16); hash_val ^= hash_val>>8; hash_val ^= hash_val>>3; hash_val = (hash_val^dev->ifindex)&NEIGH_HASHMASK; return hash_val; } static int arp_constructor(struct neighbour *neigh) { u32 addr = *(u32*)neigh->primary_key; struct net_device *dev = neigh->dev; struct in_device *in_dev = in_dev_get(dev); if (in_dev == NULL) return -EINVAL; neigh->type = inet_addr_type(addr); if (in_dev->arp_parms) neigh->parms = in_dev->arp_parms; in_dev_put(in_dev); if (dev->hard_header == NULL) { neigh->nud_state = NUD_NOARP; neigh->ops = &arp_direct_ops; neigh->output = neigh->ops->queue_xmit; } else { /* Good devices (checked by reading texts, but only Ethernet is tested) ARPHRD_ETHER: (ethernet, apfddi) ARPHRD_FDDI: (fddi) ARPHRD_IEEE802: (tr) ARPHRD_METRICOM: (strip) ARPHRD_ARCNET: etc. etc. etc. ARPHRD_IPDDP will also work, if author repairs it. I did not it, because this driver does not work even in old paradigm. */ #if 1 /* So... these "amateur" devices are hopeless. The only thing, that I can say now: It is very sad that we need to keep ugly obsolete code to make them happy. They should be moved to more reasonable state, now they use rebuild_header INSTEAD OF hard_start_xmit!!! Besides that, they are sort of out of date (a lot of redundant clones/copies, useless in 2.1), I wonder why people believe that they work. */ switch (dev->type) { default: break; case ARPHRD_ROSE: #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) case ARPHRD_AX25: #if defined(CONFIG_NETROM) || defined(CONFIG_NETROM_MODULE) case ARPHRD_NETROM: #endif neigh->ops = &arp_broken_ops; neigh->output = neigh->ops->output; return 0; #endif } #endif if (neigh->type == RTN_MULTICAST) { neigh->nud_state = NUD_NOARP; arp_mc_map(addr, neigh->ha, dev, 1); } else if (dev->flags&(IFF_NOARP|IFF_LOOPBACK)) { neigh->nud_state = NUD_NOARP; memcpy(neigh->ha, dev->dev_addr, dev->addr_len); } else if (neigh->type == RTN_BROADCAST || dev->flags&IFF_POINTOPOINT) { neigh->nud_state = NUD_NOARP; memcpy(neigh->ha, dev->broadcast, dev->addr_len); } if (dev->hard_header_cache) neigh->ops = &arp_hh_ops; else neigh->ops = &arp_generic_ops; if (neigh->nud_state&NUD_VALID) neigh->output = neigh->ops->connected_output; else neigh->output = neigh->ops->output; } return 0; } static void arp_error_report(struct neighbour *neigh, struct sk_buff *skb) { dst_link_failure(skb); kfree_skb(skb); } static void arp_solicit(struct neighbour *neigh, struct sk_buff *skb) { u32 saddr; u8 *dst_ha = NULL; struct net_device *dev = neigh->dev; u32 target = *(u32*)neigh->primary_key; int probes = atomic_read(&neigh->probes); if (skb && inet_addr_type(skb->nh.iph->saddr) == RTN_LOCAL) saddr = skb->nh.iph->saddr; else saddr = inet_select_addr(dev, target, RT_SCOPE_LINK); if ((probes -= neigh->parms->ucast_probes) < 0) { if (!(neigh->nud_state&NUD_VALID)) printk(KERN_DEBUG "trying to ucast probe in NUD_INVALID\n"); dst_ha = neigh->ha; read_lock_bh(&neigh->lock); } else if ((probes -= neigh->parms->app_probes) < 0) { #ifdef CONFIG_ARPD neigh_app_ns(neigh); #endif return; } arp_send(ARPOP_REQUEST, ETH_P_ARP, target, dev, saddr, dst_ha, dev->dev_addr, NULL); if (dst_ha) read_unlock_bh(&neigh->lock); } /* OBSOLETE FUNCTIONS */ /* * Find an arp mapping in the cache. If not found, post a request. * * It is very UGLY routine: it DOES NOT use skb->dst->neighbour, * even if it exists. It is supposed that skb->dev was mangled * by a virtual device (eql, shaper). Nobody but broken devices * is allowed to use this function, it is scheduled to be removed. --ANK */ static int arp_set_predefined(int addr_hint, unsigned char * haddr, u32 paddr, struct net_device * dev) { switch (addr_hint) { case RTN_LOCAL: printk(KERN_DEBUG "ARP: arp called for own IP address\n"); memcpy(haddr, dev->dev_addr, dev->addr_len); return 1; case RTN_MULTICAST: arp_mc_map(paddr, haddr, dev, 1); return 1; case RTN_BROADCAST: memcpy(haddr, dev->broadcast, dev->addr_len); return 1; } return 0; } int arp_find(unsigned char *haddr, struct sk_buff *skb) { struct net_device *dev = skb->dev; u32 paddr; struct neighbour *n; if (!skb->dst) { printk(KERN_DEBUG "arp_find is called with dst==NULL\n"); kfree_skb(skb); return 1; } paddr = ((struct rtable*)skb->dst)->rt_gateway; if (arp_set_predefined(inet_addr_type(paddr), haddr, paddr, dev)) return 0; n = __neigh_lookup(&arp_tbl, &paddr, dev, 1); if (n) { n->used = jiffies; if (n->nud_state&NUD_VALID || neigh_event_send(n, skb) == 0) { read_lock_bh(&n->lock); memcpy(haddr, n->ha, dev->addr_len); read_unlock_bh(&n->lock); neigh_release(n); return 0; } neigh_release(n); } else kfree_skb(skb); return 1; } /* END OF OBSOLETE FUNCTIONS */ int arp_bind_neighbour(struct dst_entry *dst) { struct net_device *dev = dst->dev; if (dev == NULL) return 0; if (dst->neighbour == NULL) { u32 nexthop = ((struct rtable*)dst)->rt_gateway; if (dev->flags&(IFF_LOOPBACK|IFF_POINTOPOINT)) nexthop = 0; dst->neighbour = __neigh_lookup( #ifdef CONFIG_ATM_CLIP dev->type == ARPHRD_ATM ? &clip_tbl : #endif &arp_tbl, &nexthop, dev, 1); } return (dst->neighbour != NULL); } /* * Interface to link layer: send routine and receive handler. */ /* * Create and send an arp packet. If (dest_hw == NULL), we create a broadcast * message. */ void arp_send(int type, int ptype, u32 dest_ip, struct net_device *dev, u32 src_ip, unsigned char *dest_hw, unsigned char *src_hw, unsigned char *target_hw) { struct sk_buff *skb; struct arphdr *arp; unsigned char *arp_ptr; /* * No arp on this interface. */ if (dev->flags&IFF_NOARP) return; /* * Allocate a buffer */ skb = alloc_skb(sizeof(struct arphdr)+ 2*(dev->addr_len+4) + dev->hard_header_len + 15, GFP_ATOMIC); if (skb == NULL) return; skb_reserve(skb, (dev->hard_header_len+15)&~15); skb->nh.raw = skb->data; arp = (struct arphdr *) skb_put(skb,sizeof(struct arphdr) + 2*(dev->addr_len+4)); skb->dev = dev; skb->protocol = __constant_htons (ETH_P_ARP); if (src_hw == NULL) src_hw = dev->dev_addr; if (dest_hw == NULL) dest_hw = dev->broadcast; /* * Fill the device header for the ARP frame */ if (dev->hard_header && dev->hard_header(skb,dev,ptype,dest_hw,src_hw,skb->len) < 0) goto out; /* * Fill out the arp protocol part. * * The arp hardware type should match the device type, except for FDDI, * which (according to RFC 1390) should always equal 1 (Ethernet). */ /* * Exceptions everywhere. AX.25 uses the AX.25 PID value not the * DIX code for the protocol. Make these device structure fields. */ switch (dev->type) { default: arp->ar_hrd = htons(dev->type); arp->ar_pro = __constant_htons(ETH_P_IP); break; #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) case ARPHRD_AX25: arp->ar_hrd = __constant_htons(ARPHRD_AX25); arp->ar_pro = __constant_htons(AX25_P_IP); break; #if defined(CONFIG_NETROM) || defined(CONFIG_NETROM_MODULE) case ARPHRD_NETROM: arp->ar_hrd = __constant_htons(ARPHRD_NETROM); arp->ar_pro = __constant_htons(AX25_P_IP); break; #endif #endif #ifdef CONFIG_FDDI case ARPHRD_FDDI: arp->ar_hrd = __constant_htons(ARPHRD_ETHER); arp->ar_pro = __constant_htons(ETH_P_IP); break; #endif #ifdef CONFIG_TR case ARPHRD_IEEE802_TR: arp->ar_hrd = __constant_htons(ARPHRD_IEEE802); arp->ar_pro = __constant_htons(ETH_P_IP); break; #endif } arp->ar_hln = dev->addr_len; arp->ar_pln = 4; arp->ar_op = htons(type); arp_ptr=(unsigned char *)(arp+1); memcpy(arp_ptr, src_hw, dev->addr_len); arp_ptr+=dev->addr_len; memcpy(arp_ptr, &src_ip,4); arp_ptr+=4; if (target_hw != NULL) memcpy(arp_ptr, target_hw, dev->addr_len); else memset(arp_ptr, 0, dev->addr_len); arp_ptr+=dev->addr_len; memcpy(arp_ptr, &dest_ip, 4); skb->dev = dev; dev_queue_xmit(skb); return; out: kfree_skb(skb); } static void parp_redo(struct sk_buff *skb) { arp_rcv(skb, skb->dev, NULL); } /* * Receive an arp request by the device layer. */ int arp_rcv(struct sk_buff *skb, struct net_device *dev, struct packet_type *pt) { struct arphdr *arp = skb->nh.arph; unsigned char *arp_ptr= (unsigned char *)(arp+1); struct rtable *rt; unsigned char *sha, *tha; u32 sip, tip; u16 dev_type = dev->type; int addr_type; struct in_device *in_dev = in_dev_get(dev); struct neighbour *n; /* * The hardware length of the packet should match the hardware length * of the device. Similarly, the hardware types should match. The * device should be ARP-able. Also, if pln is not 4, then the lookup * is not from an IP number. We can't currently handle this, so toss * it. */ if (in_dev == NULL || arp->ar_hln != dev->addr_len || dev->flags & IFF_NOARP || skb->pkt_type == PACKET_OTHERHOST || skb->pkt_type == PACKET_LOOPBACK || arp->ar_pln != 4) goto out; if ((skb = skb_share_check(skb, GFP_ATOMIC)) == NULL) goto out_of_mem; switch (dev_type) { default: if (arp->ar_pro != __constant_htons(ETH_P_IP)) goto out; if (htons(dev_type) != arp->ar_hrd) goto out; break; #ifdef CONFIG_NET_ETHERNET case ARPHRD_ETHER: /* * ETHERNET devices will accept ARP hardware types of either * 1 (Ethernet) or 6 (IEEE 802.2). */ if (arp->ar_hrd != __constant_htons(ARPHRD_ETHER) && arp->ar_hrd != __constant_htons(ARPHRD_IEEE802)) goto out; if (arp->ar_pro != __constant_htons(ETH_P_IP)) goto out; break; #endif #ifdef CONFIG_TR case ARPHRD_IEEE802_TR: /* * Token ring devices will accept ARP hardware types of either * 1 (Ethernet) or 6 (IEEE 802.2). */ if (arp->ar_hrd != __constant_htons(ARPHRD_ETHER) && arp->ar_hrd != __constant_htons(ARPHRD_IEEE802)) goto out; if (arp->ar_pro != __constant_htons(ETH_P_IP)) goto out; break; #endif #ifdef CONFIG_FDDI case ARPHRD_FDDI: /* * According to RFC 1390, FDDI devices should accept ARP hardware types * of 1 (Ethernet). However, to be more robust, we'll accept hardware * types of either 1 (Ethernet) or 6 (IEEE 802.2). */ if (arp->ar_hrd != __constant_htons(ARPHRD_ETHER) && arp->ar_hrd != __constant_htons(ARPHRD_IEEE802)) goto out; if (arp->ar_pro != __constant_htons(ETH_P_IP)) goto out; break; #endif #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) case ARPHRD_AX25: if (arp->ar_pro != __constant_htons(AX25_P_IP)) goto out; if (arp->ar_hrd != __constant_htons(ARPHRD_AX25)) goto out; break; #if defined(CONFIG_NETROM) || defined(CONFIG_NETROM_MODULE) case ARPHRD_NETROM: if (arp->ar_pro != __constant_htons(AX25_P_IP)) goto out; if (arp->ar_hrd != __constant_htons(ARPHRD_NETROM)) goto out; break; #endif #endif } /* Understand only these message types */ if (arp->ar_op != __constant_htons(ARPOP_REPLY) && arp->ar_op != __constant_htons(ARPOP_REQUEST)) goto out; /* * Extract fields */ sha=arp_ptr; arp_ptr += dev->addr_len; memcpy(&sip, arp_ptr, 4); arp_ptr += 4; tha=arp_ptr; arp_ptr += dev->addr_len; memcpy(&tip, arp_ptr, 4); /* * Check for bad requests for 127.x.x.x and requests for multicast * addresses. If this is one such, delete it. */ if (LOOPBACK(tip) || MULTICAST(tip)) goto out; /* * Process entry. The idea here is we want to send a reply if it is a * request for us or if it is a request for someone else that we hold * a proxy for. We want to add an entry to our cache if it is a reply * to us or if it is a request for our address. * (The assumption for this last is that if someone is requesting our * address, they are probably intending to talk to us, so it saves time * if we cache their address. Their address is also probably not in * our cache, since ours is not in their cache.) * * Putting this another way, we only care about replies if they are to * us, in which case we add them to the cache. For requests, we care * about those for us and those for our proxies. We reply to both, * and in the case of requests for us we add the requester to the arp * cache. */ /* Special case: IPv4 duplicate address detection packet (RFC2131) */ if (sip == 0) { if (arp->ar_op == __constant_htons(ARPOP_REQUEST) && inet_addr_type(tip) == RTN_LOCAL) arp_send(ARPOP_REPLY,ETH_P_ARP,tip,dev,tip,sha,dev->dev_addr,dev->dev_addr); goto out; } if (arp->ar_op == __constant_htons(ARPOP_REQUEST) && ip_route_input(skb, tip, sip, 0, dev) == 0) { rt = (struct rtable*)skb->dst; addr_type = rt->rt_type; if (addr_type == RTN_LOCAL) { n = neigh_event_ns(&arp_tbl, sha, &sip, dev); if (n) { arp_send(ARPOP_REPLY,ETH_P_ARP,sip,dev,tip,sha,dev->dev_addr,sha); neigh_release(n); } goto out; } else if (IN_DEV_FORWARD(in_dev)) { if ((rt->rt_flags&RTCF_DNAT) || (addr_type == RTN_UNICAST && rt->u.dst.dev != dev && (IN_DEV_PROXY_ARP(in_dev) || pneigh_lookup(&arp_tbl, &tip, dev, 0)))) { n = neigh_event_ns(&arp_tbl, sha, &sip, dev); if (n) neigh_release(n); if (skb->stamp.tv_sec == 0 || skb->pkt_type == PACKET_HOST || in_dev->arp_parms->proxy_delay == 0) { arp_send(ARPOP_REPLY,ETH_P_ARP,sip,dev,tip,sha,dev->dev_addr,sha); } else { pneigh_enqueue(&arp_tbl, in_dev->arp_parms, skb); in_dev_put(in_dev); return 0; } goto out; } } } /* Update our ARP tables */ n = __neigh_lookup(&arp_tbl, &sip, dev, 0); #ifdef CONFIG_IP_ACCEPT_UNSOLICITED_ARP /* Unsolicited ARP is not accepted by default. It is possible, that this option should be enabled for some devices (strip is candidate) */ if (n == NULL && arp->ar_op == __constant_htons(ARPOP_REPLY) && inet_addr_type(sip) == RTN_UNICAST) n = __neigh_lookup(&arp_tbl, &sip, dev, -1); #endif if (n) { int state = NUD_REACHABLE; int override = 0; /* If several different ARP replies follows back-to-back, use the FIRST one. It is possible, if several proxy agents are active. Taking the first reply prevents arp trashing and chooses the fastest router. */ if (jiffies - n->updated >= n->parms->locktime) override = 1; /* Broadcast replies and request packets do not assert neighbour reachability. */ if (arp->ar_op != __constant_htons(ARPOP_REPLY) || skb->pkt_type != PACKET_HOST) state = NUD_STALE; neigh_update(n, sha, state, override, 1); neigh_release(n); } out: kfree_skb(skb); if (in_dev) in_dev_put(in_dev); out_of_mem: return 0; } /* * User level interface (ioctl, /proc) */ /* * Set (create) an ARP cache entry. */ int arp_req_set(struct arpreq *r, struct net_device * dev) { u32 ip = ((struct sockaddr_in *) &r->arp_pa)->sin_addr.s_addr; struct neighbour *neigh; int err; if (r->arp_flags&ATF_PUBL) { u32 mask = ((struct sockaddr_in *) &r->arp_netmask)->sin_addr.s_addr; if (mask && mask != 0xFFFFFFFF) return -EINVAL; if (!dev && (r->arp_flags & ATF_COM)) { dev = dev_getbyhwaddr(r->arp_ha.sa_family, r->arp_ha.sa_data); if (!dev) return -ENODEV; } if (mask) { if (pneigh_lookup(&arp_tbl, &ip, dev, 1) == NULL) return -ENOBUFS; return 0; } if (dev == NULL) { ipv4_devconf.proxy_arp = 1; return 0; } if (__in_dev_get(dev)) { __in_dev_get(dev)->cnf.proxy_arp = 1; return 0; } return -ENXIO; } if (r->arp_flags & ATF_PERM) r->arp_flags |= ATF_COM; if (dev == NULL) { struct rtable * rt; if ((err = ip_route_output(&rt, ip, 0, RTO_ONLINK, 0)) != 0) return err; dev = rt->u.dst.dev; ip_rt_put(rt); if (!dev) return -EINVAL; } if (r->arp_ha.sa_family != dev->type) return -EINVAL; err = -ENOBUFS; neigh = __neigh_lookup(&arp_tbl, &ip, dev, 1); if (neigh) { unsigned state = NUD_STALE; if (r->arp_flags & ATF_PERM) state = NUD_PERMANENT; err = neigh_update(neigh, (r->arp_flags&ATF_COM) ? r->arp_ha.sa_data : NULL, state, 1, 0); neigh_release(neigh); } return err; } static unsigned arp_state_to_flags(struct neighbour *neigh) { unsigned flags = 0; if (neigh->nud_state&NUD_PERMANENT) flags = ATF_PERM|ATF_COM; else if (neigh->nud_state&NUD_VALID) flags = ATF_COM; return flags; } /* * Get an ARP cache entry. */ static int arp_req_get(struct arpreq *r, struct net_device *dev) { u32 ip = ((struct sockaddr_in *) &r->arp_pa)->sin_addr.s_addr; struct neighbour *neigh; int err = -ENXIO; neigh = neigh_lookup(&arp_tbl, &ip, dev); if (neigh) { read_lock_bh(&neigh->lock); memcpy(r->arp_ha.sa_data, neigh->ha, dev->addr_len); r->arp_flags = arp_state_to_flags(neigh); read_unlock_bh(&neigh->lock); r->arp_ha.sa_family = dev->type; strncpy(r->arp_dev, dev->name, sizeof(r->arp_dev)); neigh_release(neigh); err = 0; } return err; } int arp_req_delete(struct arpreq *r, struct net_device * dev) { int err; u32 ip = ((struct sockaddr_in *)&r->arp_pa)->sin_addr.s_addr; struct neighbour *neigh; if (r->arp_flags & ATF_PUBL) { u32 mask = ((struct sockaddr_in *) &r->arp_netmask)->sin_addr.s_addr; if (mask == 0xFFFFFFFF) return pneigh_delete(&arp_tbl, &ip, dev); if (mask == 0) { if (dev == NULL) { ipv4_devconf.proxy_arp = 0; return 0; } if (__in_dev_get(dev)) { __in_dev_get(dev)->cnf.proxy_arp = 0; return 0; } return -ENXIO; } return -EINVAL; } if (dev == NULL) { struct rtable * rt; if ((err = ip_route_output(&rt, ip, 0, RTO_ONLINK, 0)) != 0) return err; dev = rt->u.dst.dev; ip_rt_put(rt); if (!dev) return -EINVAL; } err = -ENXIO; neigh = neigh_lookup(&arp_tbl, &ip, dev); if (neigh) { if (neigh->nud_state&~NUD_NOARP) err = neigh_update(neigh, NULL, NUD_FAILED, 1, 0); neigh_release(neigh); } return err; } /* * Handle an ARP layer I/O control request. */ int arp_ioctl(unsigned int cmd, void *arg) { int err; struct arpreq r; struct net_device * dev = NULL; switch(cmd) { case SIOCDARP: case SIOCSARP: if (!capable(CAP_NET_ADMIN)) return -EPERM; case SIOCGARP: err = copy_from_user(&r, arg, sizeof(struct arpreq)); if (err) return -EFAULT; break; default: return -EINVAL; } if (r.arp_pa.sa_family != AF_INET) return -EPFNOSUPPORT; if (!(r.arp_flags & ATF_PUBL) && (r.arp_flags & (ATF_NETMASK|ATF_DONTPUB))) return -EINVAL; if (!(r.arp_flags & ATF_NETMASK)) ((struct sockaddr_in *)&r.arp_netmask)->sin_addr.s_addr=__constant_htonl(0xFFFFFFFFUL); rtnl_lock(); if (r.arp_dev[0]) { err = -ENODEV; if ((dev = __dev_get_by_name(r.arp_dev)) == NULL) goto out; /* Mmmm... It is wrong... ARPHRD_NETROM==0 */ if (!r.arp_ha.sa_family) r.arp_ha.sa_family = dev->type; err = -EINVAL; if ((r.arp_flags & ATF_COM) && r.arp_ha.sa_family != dev->type) goto out; } else if (cmd == SIOCGARP) { err = -ENODEV; goto out; } switch(cmd) { case SIOCDARP: err = arp_req_delete(&r, dev); break; case SIOCSARP: err = arp_req_set(&r, dev); break; case SIOCGARP: err = arp_req_get(&r, dev); if (!err && copy_to_user(arg, &r, sizeof(r))) err = -EFAULT; break; } out: rtnl_unlock(); return err; } /* * Write the contents of the ARP cache to a PROCfs file. */ #ifndef CONFIG_PROC_FS static int arp_get_info(char *buffer, char **start, off_t offset, int length) { return 0; } #else #define HBUFFERLEN 30 static int arp_get_info(char *buffer, char **start, off_t offset, int length) { int len=0; off_t pos=0; int size; char hbuffer[HBUFFERLEN]; int i,j,k; const char hexbuf[] = "0123456789ABCDEF"; size = sprintf(buffer,"IP address HW type Flags HW address Mask Device\n"); pos+=size; len+=size; for(i=0; i<=NEIGH_HASHMASK; i++) { struct neighbour *n; read_lock_bh(&arp_tbl.lock); for (n=arp_tbl.hash_buckets[i]; n; n=n->next) { struct net_device *dev = n->dev; int hatype = dev->type; /* Do not confuse users "arp -a" with magic entries */ if (!(n->nud_state&~NUD_NOARP)) continue; read_lock(&n->lock); /* * Convert hardware address to XX:XX:XX:XX ... form. */ #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) if (hatype == ARPHRD_AX25 || hatype == ARPHRD_NETROM) ax2asc2((ax25_address *)n->ha, hbuffer); else { #endif for (k=0,j=0;k<HBUFFERLEN-3 && j<dev->addr_len;j++) { hbuffer[k++]=hexbuf[(n->ha[j]>>4)&15 ]; hbuffer[k++]=hexbuf[n->ha[j]&15 ]; hbuffer[k++]=':'; } hbuffer[--k]=0; #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) } #endif { char tbuf[16]; sprintf(tbuf, "%u.%u.%u.%u", NIPQUAD(*(u32*)n->primary_key)); size = sprintf(buffer+len, "%-16s 0x%-10x0x%-10x%s", tbuf, hatype, arp_state_to_flags(n), hbuffer); size += sprintf(buffer+len+size, " %-8s %s\n", "*", dev->name); } read_unlock(&n->lock); len += size; pos += size; if (pos <= offset) len=0; if (pos >= offset+length) { read_unlock_bh(&arp_tbl.lock); goto done; } } read_unlock_bh(&arp_tbl.lock); } for (i=0; i<=PNEIGH_HASHMASK; i++) { struct pneigh_entry *n; for (n=arp_tbl.phash_buckets[i]; n; n=n->next) { struct net_device *dev = n->dev; int hatype = dev ? dev->type : 0; size = sprintf(buffer+len, "%u.%u.%u.%u0x%-10x0x%-10x%s", NIPQUAD(*(u32*)n->key), hatype, ATF_PUBL|ATF_PERM, "00:00:00:00:00:00"); size += sprintf(buffer+len+size, " %-17s %s\n", "*", dev ? dev->name : "*"); len += size; pos += size; if (pos <= offset) len=0; if (pos >= offset+length) goto done; } } done: *start = buffer+len-(pos-offset); /* Start of wanted data */ len = pos-offset; /* Start slop */ if (len>length) len = length; /* Ending slop */ if (len<0) len = 0; return len; } #endif /* Note, that it is not on notifier chain. It is necessary, that this routine was called after route cache will be flushed. */ void arp_ifdown(struct net_device *dev) { neigh_ifdown(&arp_tbl, dev); } /* * Called once on startup. */ static struct packet_type arp_packet_type = { __constant_htons(ETH_P_ARP), NULL, /* All devices */ arp_rcv, (void*)1, NULL }; void __init arp_init (void) { neigh_table_init(&arp_tbl); dev_add_pack(&arp_packet_type); proc_net_create ("arp", 0, arp_get_info); #ifdef CONFIG_SYSCTL neigh_sysctl_register(NULL, &arp_tbl.parms, NET_IPV4, NET_IPV4_NEIGH, "ipv4"); #endif } #if defined(CONFIG_AX25) || defined(CONFIG_AX25_MODULE) /* * ax25 -> ASCII conversion */ char *ax2asc2(ax25_address *a, char *buf) { char c, *s; int n; for (n = 0, s = buf; n < 6; n++) { c = (a->ax25_call[n] >> 1) & 0x7F; if (c != ' ') *s++ = c; } *s++ = '-'; if ((n = ((a->ax25_call[6] >> 1) & 0x0F)) > 9) { *s++ = '1'; n -= 10; } *s++ = n + '0'; *s++ = '\0'; if (*buf == '\0' || *buf == '-') return "*"; return buf; } #endif |