3 * - Address Resolution Protocol
4 * - Part of the IPv4 protocol
12 #define ARP_CACHE_SIZE 64
13 #define ARP_MAX_AGE (60*60*1000) // 1Hr
16 extern tInterface *IPv4_GetInterface(tAdapter *Adapter, tIPv4 Address, int Broadcast);
18 extern tInterface *IPv6_GetInterface(tAdapter *Adapter, tIPv6 Address, int Broadcast);
23 tMacAddr ARP_Resolve4(tInterface *Interface, tIPv4 Address);
24 void ARP_int_GetPacket(tAdapter *Adapter, tMacAddr From, int Length, void *Buffer);
33 int giARP_Cache4Space;
42 int giARP_Cache6Space;
45 int giARP_LastUpdateID = 0;
49 * \fn int ARP_Initialise()
50 * \brief Initalise the ARP section
54 gaARP_Cache4 = malloc( ARP_CACHE_SIZE * sizeof(struct sARP_Cache4) );
55 memset( gaARP_Cache4, 0, ARP_CACHE_SIZE * sizeof(struct sARP_Cache4) );
56 giARP_Cache4Space = ARP_CACHE_SIZE;
59 gaARP_Cache6 = malloc( ARP_CACHE_SIZE * sizeof(struct sARP_Cache6) );
60 memset( gaARP_Cache6, 0, ARP_CACHE_SIZE * sizeof(struct sARP_Cache6) );
61 giARP_Cache6Space = ARP_CACHE_SIZE;
64 Link_RegisterType(0x0806, ARP_int_GetPacket);
69 * \brief Resolves a MAC address from an IPv4 address
71 tMacAddr ARP_Resolve4(tInterface *Interface, tIPv4 Address)
75 struct sArpRequest4 req;
77 ENTER("pInterface xAddress", Interface, Address);
79 // Check routing tables if not on this subnet
80 if( IPStack_CompareAddress(4, &Address, Interface->Address, Interface->SubnetBits) == 0 )
82 tRoute *route = IPStack_FindRoute(4, Interface, &Address);
84 // If the next hop is defined, use it
85 // - 0.0.0.0 as the next hop means "no next hop / direct"
86 if( ((tIPv4*)route->NextHop)->L != 0 ) {
87 // Recursion: see /Recursion/
88 return ARP_Resolve4(Interface, *(tIPv4*)route->NextHop);
94 Mutex_Acquire( &glARP_Cache4 );
95 for( i = 0; i < giARP_Cache4Space; i++ )
97 if(gaARP_Cache4[i].IP.L != Address.L) continue;
99 // Check if the entry needs to be refreshed
100 if( now() - gaARP_Cache4[i].LastUpdate > ARP_MAX_AGE ) break;
102 Mutex_Release( &glARP_Cache4 );
103 LOG("Return %x:%x:%x:%x:%x:%x",
104 gaARP_Cache4[i].MAC.B[0], gaARP_Cache4[i].MAC.B[1],
105 gaARP_Cache4[i].MAC.B[2], gaARP_Cache4[i].MAC.B[3],
106 gaARP_Cache4[i].MAC.B[4], gaARP_Cache4[i].MAC.B[5]
109 return gaARP_Cache4[i].MAC;
111 Mutex_Release( &glARP_Cache4 );
113 lastID = giARP_LastUpdateID;
116 Log_Log("ARP4", "Asking for address %i.%i.%i.%i",
117 Address.B[0], Address.B[1], Address.B[2], Address.B[3]
119 req.HWType = htons(0x0001); // Ethernet
120 req.Type = htons(0x0800);
123 req.Request = htons(1);
124 req.SourceMac = Interface->Adapter->MacAddr;
125 req.SourceIP = *(tIPv4*)Interface->Address;
126 req.DestMac = cMAC_BROADCAST;
127 req.DestIP = Address;
130 Link_SendPacket(Interface->Adapter, 0x0806, req.DestMac, sizeof(struct sArpRequest4), &req);
135 while(lastID == giARP_LastUpdateID) Threads_Yield();
136 lastID = giARP_LastUpdateID;
138 Mutex_Acquire( &glARP_Cache4 );
139 for( i = 0; i < giARP_Cache4Space; i++ )
141 if(gaARP_Cache4[i].IP.L != Address.L) continue;
143 Mutex_Release( &glARP_Cache4 );
144 return gaARP_Cache4[i].MAC;
146 Mutex_Release( &glARP_Cache4 );
151 * \brief Updates the ARP Cache entry for an IPv4 Address
153 void ARP_UpdateCache4(tIPv4 SWAddr, tMacAddr HWAddr)
159 // Find an entry for the IP address in the cache
160 Mutex_Acquire(&glARP_Cache4);
161 for( i = giARP_Cache4Space; i--; )
163 if(gaARP_Cache4[oldest].LastUpdate > gaARP_Cache4[i].LastUpdate) {
166 if( gaARP_Cache4[i].IP.L == SWAddr.L ) break;
167 if( gaARP_Cache4[i].LastUpdate == 0 && free == -1 ) free = i;
169 // If there was no match, we need to make one
175 gaARP_Cache4[i].IP = SWAddr;
178 Log_Log("ARP4", "Caching %i.%i.%i.%i (%02x:%02x:%02x:%02x:%02x:%02x) in %i",
179 SWAddr.B[0], SWAddr.B[1], SWAddr.B[2], SWAddr.B[3],
180 HWAddr.B[0], HWAddr.B[1], HWAddr.B[2], HWAddr.B[3], HWAddr.B[4], HWAddr.B[5],
184 gaARP_Cache4[i].MAC = HWAddr;
185 gaARP_Cache4[i].LastUpdate = now();
186 giARP_LastUpdateID ++;
187 Mutex_Release(&glARP_Cache4);
192 * \brief Updates the ARP Cache entry for an IPv6 Address
194 void ARP_UpdateCache6(tIPv6 SWAddr, tMacAddr HWAddr)
200 // Find an entry for the MAC address in the cache
201 Mutex_Acquire(&glARP_Cache6);
202 for( i = giARP_Cache6Space; i--; )
204 if(gaARP_Cache6[oldest].LastUpdate > gaARP_Cache6[i].LastUpdate) {
207 if( MAC_EQU(gaARP_Cache6[i].MAC, HWAddr) ) break;
208 if( gaARP_Cache6[i].LastUpdate == 0 && free == -1 ) free = i;
210 // If there was no match, we need to make one
216 gaARP_Cache6[i].MAC = HWAddr;
219 gaARP_Cache6[i].IP = SWAddr;
220 gaARP_Cache6[i].LastUpdate = now();
221 giARP_LastUpdateID ++;
222 Mutex_Release(&glARP_Cache6);
227 * \fn void ARP_int_GetPacket(tAdapter *Adapter, tMacAddr From, int Length, void *Buffer)
228 * \brief Called when an ARP packet is recieved
230 void ARP_int_GetPacket(tAdapter *Adapter, tMacAddr From, int Length, void *Buffer)
232 tArpRequest4 *req4 = Buffer;
234 tArpRequest6 *req6 = Buffer;
238 // Sanity Check Packet
239 if( Length < (int)sizeof(tArpRequest4) ) {
240 Log_Log("ARP", "Recieved undersized packet");
243 if( ntohs(req4->Type) != 0x0800 ) {
244 Log_Log("ARP", "Recieved a packet with a bad type (0x%x)", ntohs(req4->Type));
247 if( req4->HWSize != 6 ) {
248 Log_Log("ARP", "Recieved a packet with HWSize != 6 (%i)", req4->HWSize);
251 #if ARP_DETECT_SPOOFS
252 if( !MAC_EQU(req4->SourceMac, From) ) {
253 Log_Log("ARP", "ARP spoofing detected "
254 "(%02x%02x:%02x%02x:%02x%02x != %02x%02x:%02x%02x:%02x%02x)",
255 req4->SourceMac.B[0], req4->SourceMac.B[1], req4->SourceMac.B[2],
256 req4->SourceMac.B[3], req4->SourceMac.B[4], req4->SourceMac.B[5],
257 From.B[0], From.B[1], From.B[2],
258 From.B[3], From.B[4], From.B[5]
264 Log_Debug("ARP", "Request ID %i", ntohs(req4->Request));
266 switch( ntohs(req4->Request) )
268 case 1: // You want my IP?
269 Log_Debug("ARP", "ARP Request Address class %i", req4->SWSize);
270 // Check what type of IP it is
271 switch( req4->SWSize )
274 Log_Debug("ARP", "From MAC %02x:%02x:%02x:%02x:%02x:%02x",
275 req4->SourceMac.B[0], req4->SourceMac.B[1],
276 req4->SourceMac.B[2], req4->SourceMac.B[3],
277 req4->SourceMac.B[4], req4->SourceMac.B[5]);
278 //Log_Debug("ARP", "to MAC %02x:%02x:%02x:%02x:%02x:%02x",
279 // req4->DestMac.B[0], req4->DestMac.B[1],
280 // req4->DestMac.B[2], req4->DestMac.B[3],
281 // req4->DestMac.B[4], req4->DestMac.B[5]);
282 Log_Debug("ARP", "ARP Request IPv4 Address %i.%i.%i.%i from %i.%i.%i.%i",
283 req4->DestIP.B[0], req4->DestIP.B[1], req4->DestIP.B[2],
285 req4->SourceIP.B[0], req4->SourceIP.B[1],
286 req4->SourceIP.B[2], req4->SourceIP.B[3]);
287 iface = IPv4_GetInterface(Adapter, req4->DestIP, 0);
290 Log_Debug("ARP", "Caching sender's IP Address");
291 ARP_UpdateCache4(req4->SourceIP, req4->SourceMac);
293 req4->DestIP = req4->SourceIP;
294 req4->DestMac = req4->SourceMac;
295 req4->SourceIP = *(tIPv4*)iface->Address;;
296 req4->SourceMac = Adapter->MacAddr;
297 req4->Request = htons(2);
298 Log_Debug("ARP", "Sending back us (%02x:%02x:%02x:%02x:%02x:%02x)",
299 req4->SourceMac.B[0], req4->SourceMac.B[1],
300 req4->SourceMac.B[2], req4->SourceMac.B[3],
301 req4->SourceMac.B[4], req4->SourceMac.B[5]);
302 Link_SendPacket(Adapter, 0x0806, req4->DestMac, sizeof(tArpRequest4), req4);
307 if( Length < (int)sizeof(tArpRequest6) ) {
308 Log_Log("ARP", "Recieved undersized packet (IPv6)");
311 Log_Debug("ARP", "ARP Request IPv6 Address %08x:%08x:%08x:%08x",
312 ntohl(req6->DestIP.L[0]), ntohl(req6->DestIP.L[1]),
313 ntohl(req6->DestIP.L[2]), ntohl(req6->DestIP.L[3])
315 iface = IPv6_GetInterface(Adapter, req6->DestIP, 0);
318 req6->DestIP = req6->SourceIP;
319 req6->DestMac = req6->SourceMac;
320 req6->SourceIP = *(tIPv6*)iface->Address;
321 req6->SourceMac = Adapter->MacAddr;
322 req6->Request = htons(2);
323 Log_Debug("ARP", "Sending back us (%02x:%02x:%02x:%02x:%02x:%02x)",
324 req4->SourceMac.B[0], req4->SourceMac.B[1],
325 req4->SourceMac.B[2], req4->SourceMac.B[3],
326 req4->SourceMac.B[4], req4->SourceMac.B[5]);
327 Link_SendPacket(Adapter, 0x0806, req6->DestMac, sizeof(tArpRequest6), req6);
332 Log_Debug("ARP", "Unknown Protocol Address size (%i)", req4->SWSize);
338 case 2: // Ooh! A response!
339 // Check what type of IP it is
340 switch( req4->SWSize )
343 ARP_UpdateCache4( req4->SourceIP, From );
347 if( Length < (int)sizeof(tArpRequest6) ) {
348 Log_Debug("ARP", "Recieved undersized packet (IPv6)");
351 ARP_UpdateCache6( req6->SourceIP, From );
355 Log_Debug("ARP", "Unknown Protocol Address size (%i)", req4->SWSize);
362 Log_Warning("ARP", "Unknown Request ID %i", ntohs(req4->Request));