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[ipoib] Expose Ethernet-compatible eIPoIB link-layer addresses and headers

Almost all clients of the raw-packet interfaces (UNDI and SNP) can
handle only Ethernet link layers.  Expose an Ethernet-compatible link
layer to local clients, while remaining compatible with IPoIB on the
wire.  This requires manipulation of ARP (but not DHCP) packets within
the IPoIB driver.

This is ugly, but it's the only viable way to allow IPoIB devices to
be driven via the raw-packet interfaces.

Signed-off-by: Michael Brown <mcb30@ipxe.org>
tags/v1.20.1
Michael Brown vor 12 Jahren
Ursprung
Commit
03f0c23f8b

+ 2
- 1
src/arch/i386/interface/pxe/pxe_undi.c Datei anzeigen

@@ -358,7 +358,8 @@ pxenv_undi_transmit ( struct s_PXENV_UNDI_TRANSMIT *undi_transmit ) {
358 358
 	}
359 359
 
360 360
 	/* Allocate and fill I/O buffer */
361
-	iobuf = alloc_iob ( MAX_LL_HEADER_LEN + len );
361
+	iobuf = alloc_iob ( MAX_LL_HEADER_LEN +
362
+			    ( ( len > IOB_ZLEN ) ? len : IOB_ZLEN ) );
362 363
 	if ( ! iobuf ) {
363 364
 		DBGC2 ( &pxe_netdev, " could not allocate iobuf\n" );
364 365
 		undi_transmit->Status = PXENV_STATUS_OUT_OF_RESOURCES;

+ 375
- 260
src/drivers/net/ipoib.c Datei anzeigen

@@ -20,18 +20,23 @@
20 20
 FILE_LICENCE ( GPL2_OR_LATER );
21 21
 
22 22
 #include <stdint.h>
23
+#include <stdlib.h>
23 24
 #include <stdio.h>
24 25
 #include <unistd.h>
25 26
 #include <string.h>
26 27
 #include <byteswap.h>
27 28
 #include <errno.h>
28 29
 #include <ipxe/errortab.h>
30
+#include <ipxe/malloc.h>
29 31
 #include <ipxe/if_arp.h>
32
+#include <ipxe/if_ether.h>
33
+#include <ipxe/ethernet.h>
30 34
 #include <ipxe/iobuf.h>
31 35
 #include <ipxe/netdevice.h>
32 36
 #include <ipxe/infiniband.h>
33 37
 #include <ipxe/ib_pathrec.h>
34 38
 #include <ipxe/ib_mcast.h>
39
+#include <ipxe/retry.h>
35 40
 #include <ipxe/ipoib.h>
36 41
 
37 42
 /** @file
@@ -58,6 +63,8 @@ struct ipoib_device {
58 63
 	struct ib_completion_queue *cq;
59 64
 	/** Queue pair */
60 65
 	struct ib_queue_pair *qp;
66
+	/** Local MAC */
67
+	struct ipoib_mac mac;
61 68
 	/** Broadcast MAC */
62 69
 	struct ipoib_mac broadcast;
63 70
 	/** Joined to IPv4 broadcast multicast group
@@ -68,6 +75,8 @@ struct ipoib_device {
68 75
 	int broadcast_joined;
69 76
 	/** IPv4 broadcast multicast group membership */
70 77
 	struct ib_mc_membership broadcast_membership;
78
+	/** REMAC cache */
79
+	struct list_head peers;
71 80
 };
72 81
 
73 82
 /** Broadcast IPoIB address */
@@ -89,184 +98,140 @@ struct errortab ipoib_errors[] __errortab = {
89 98
 
90 99
 /****************************************************************************
91 100
  *
92
- * IPoIB peer cache
101
+ * IPoIB REMAC cache
93 102
  *
94 103
  ****************************************************************************
95 104
  */
96 105
 
97
-/**
98
- * IPoIB peer address
99
- *
100
- * The IPoIB link-layer header is only four bytes long and so does not
101
- * have sufficient room to store IPoIB MAC address(es).  We therefore
102
- * maintain a cache of MAC addresses identified by a single-byte key,
103
- * and abuse the spare two bytes within the link-layer header to
104
- * communicate these MAC addresses between the link-layer code and the
105
- * netdevice driver.
106
- */
106
+/** An IPoIB REMAC cache entry */
107 107
 struct ipoib_peer {
108
-	/** Key */
109
-	uint8_t key;
108
+	/** List of REMAC cache entries */
109
+	struct list_head list;
110
+	/** Remote Ethermet MAC */
111
+	struct ipoib_remac remac;
110 112
 	/** MAC address */
111 113
 	struct ipoib_mac mac;
112 114
 };
113 115
 
114
-/** Number of IPoIB peer cache entries
115
- *
116
- * Must be a power of two.
117
- */
118
-#define IPOIB_NUM_CACHED_PEERS 4
119
-
120
-/** IPoIB peer address cache */
121
-static struct ipoib_peer ipoib_peer_cache[IPOIB_NUM_CACHED_PEERS];
122
-
123
-/** Oldest IPoIB peer cache entry index */
124
-static unsigned int ipoib_peer_cache_idx = 0;
125
-
126
-/** IPoIB peer cache entry validity flag */
127
-#define IPOIB_PEER_KEY_VALID 0x80
128
-
129 116
 /**
130
- * Look up cached peer by key
117
+ * Find IPoIB MAC from REMAC
131 118
  *
132
- * @v key		Peer cache key
133
- * @ret peer		Peer cache entry, or NULL
119
+ * @v ipoib		IPoIB device
120
+ * @v remac		Remote Ethernet MAC
121
+ * @ret mac		IPoIB MAC (or NULL if not found)
134 122
  */
135
-static struct ipoib_peer * ipoib_lookup_peer_by_key ( unsigned int key ) {
123
+static struct ipoib_mac * ipoib_find_remac ( struct ipoib_device *ipoib,
124
+					     const struct ipoib_remac *remac ) {
136 125
 	struct ipoib_peer *peer;
137
-	unsigned int i;
138 126
 
139
-	if ( ! key )
140
-		return NULL;
141
-
142
-	for ( i = 0 ; i < IPOIB_NUM_CACHED_PEERS ; i++ ) {
143
-		peer = &ipoib_peer_cache[i];
144
-		if ( peer->key == key )
145
-			return peer;
127
+	/* Check for broadcast REMAC */
128
+	if ( is_broadcast_ether_addr ( remac ) )
129
+		return &ipoib->broadcast;
130
+
131
+	/* Try to find via REMAC cache */
132
+	list_for_each_entry ( peer, &ipoib->peers, list ) {
133
+		if ( memcmp ( remac, &peer->remac,
134
+			      sizeof ( peer->remac ) ) == 0 ) {
135
+			/* Move peer to start of list */
136
+			list_del ( &peer->list );
137
+			list_add ( &peer->list, &ipoib->peers );
138
+			return &peer->mac;
139
+		}
146 140
 	}
147 141
 
148
-	DBG ( "IPoIB warning: peer cache lost track of key %x while still in "
149
-	      "use\n", key );
142
+	DBGC ( ipoib, "IPoIB %p unknown REMAC %s\n",
143
+	       ipoib, eth_ntoa ( remac ) );
150 144
 	return NULL;
151 145
 }
152 146
 
153 147
 /**
154
- * Store GID and QPN in peer cache
148
+ * Add IPoIB MAC to REMAC cache
155 149
  *
156
- * @v mac		Peer MAC address
157
- * @ret peer		Peer cache entry
150
+ * @v ipoib		IPoIB device
151
+ * @v remac		Remote Ethernet MAC
152
+ * @v mac		IPoIB MAC
153
+ * @ret rc		Return status code
158 154
  */
159
-static struct ipoib_peer * ipoib_cache_peer ( const struct ipoib_mac *mac ) {
155
+static int ipoib_map_remac ( struct ipoib_device *ipoib,
156
+			     const struct ipoib_remac *remac,
157
+			     const struct ipoib_mac *mac ) {
160 158
 	struct ipoib_peer *peer;
161
-	uint8_t key;
162
-	unsigned int i;
163 159
 
164
-	/* Look for existing cache entry */
165
-	for ( i = 0 ; i < IPOIB_NUM_CACHED_PEERS ; i++ ) {
166
-		peer = &ipoib_peer_cache[i];
167
-		if ( memcmp ( &peer->mac, mac, sizeof ( peer->mac ) ) == 0 )
168
-			return peer;
160
+	/* Check for existing entry in REMAC cache */
161
+	list_for_each_entry ( peer, &ipoib->peers, list ) {
162
+		if ( memcmp ( remac, &peer->remac,
163
+			      sizeof ( peer->remac ) ) == 0 ) {
164
+			/* Move peer to start of list */
165
+			list_del ( &peer->list );
166
+			list_add ( &peer->list, &ipoib->peers );
167
+			/* Update MAC */
168
+			memcpy ( &peer->mac, mac, sizeof ( peer->mac ) );
169
+			return 0;
170
+		}
169 171
 	}
170 172
 
171
-	/* No entry found: create a new one */
172
-	key = ( ipoib_peer_cache_idx++ | IPOIB_PEER_KEY_VALID );
173
-	peer = &ipoib_peer_cache[ key % IPOIB_NUM_CACHED_PEERS ];
174
-	if ( peer->key )
175
-		DBG ( "IPoIB peer %x evicted from cache\n", peer->key );
176
-
177
-	memset ( peer, 0, sizeof ( *peer ) );
178
-	peer->key = key;
173
+	/* Create new entry */
174
+	peer = malloc ( sizeof ( *peer ) );
175
+	if ( ! peer )
176
+		return -ENOMEM;
177
+	memcpy ( &peer->remac, remac, sizeof ( peer->remac ) );
179 178
 	memcpy ( &peer->mac, mac, sizeof ( peer->mac ) );
180
-	DBG ( "IPoIB peer %x has MAC %s\n",
181
-	      peer->key, ipoib_ntoa ( &peer->mac ) );
182
-	return peer;
183
-}
179
+	list_add ( &peer->list, &ipoib->peers );
184 180
 
185
-/****************************************************************************
186
- *
187
- * IPoIB link layer
188
- *
189
- ****************************************************************************
190
- */
181
+	return 0;
182
+}
191 183
 
192 184
 /**
193
- * Add IPoIB link-layer header
185
+ * Flush REMAC cache
194 186
  *
195
- * @v netdev		Network device
196
- * @v iobuf		I/O buffer
197
- * @v ll_dest		Link-layer destination address
198
- * @v ll_source		Source link-layer address
199
- * @v net_proto		Network-layer protocol, in network-byte order
200
- * @ret rc		Return status code
187
+ * @v ipoib		IPoIB device
201 188
  */
202
-static int ipoib_push ( struct net_device *netdev __unused,
203
-			struct io_buffer *iobuf, const void *ll_dest,
204
-			const void *ll_source __unused, uint16_t net_proto ) {
205
-	struct ipoib_hdr *ipoib_hdr =
206
-		iob_push ( iobuf, sizeof ( *ipoib_hdr ) );
207
-	const struct ipoib_mac *dest_mac = ll_dest;
208
-	const struct ipoib_mac *src_mac = ll_source;
209
-	struct ipoib_peer *dest;
210
-	struct ipoib_peer *src;
211
-
212
-	/* Add link-layer addresses to cache */
213
-	dest = ipoib_cache_peer ( dest_mac );
214
-	src = ipoib_cache_peer ( src_mac );
215
-
216
-	/* Build IPoIB header */
217
-	ipoib_hdr->proto = net_proto;
218
-	ipoib_hdr->u.peer.dest = dest->key;
219
-	ipoib_hdr->u.peer.src = src->key;
189
+static void ipoib_flush_remac ( struct ipoib_device *ipoib ) {
190
+	struct ipoib_peer *peer;
191
+	struct ipoib_peer *tmp;
220 192
 
221
-	return 0;
193
+	list_for_each_entry_safe ( peer, tmp, &ipoib->peers, list ) {
194
+		list_del ( &peer->list );
195
+		free ( peer );
196
+	}
222 197
 }
223 198
 
224 199
 /**
225
- * Remove IPoIB link-layer header
200
+ * Discard some entries from the REMAC cache
226 201
  *
227
- * @v netdev		Network device
228
- * @v iobuf		I/O buffer
229
- * @ret ll_dest		Link-layer destination address
230
- * @ret ll_source	Source link-layer address
231
- * @ret net_proto	Network-layer protocol, in network-byte order
232
- * @ret flags		Packet flags
233
- * @ret rc		Return status code
202
+ * @ret discarded	Number of cached items discarded
234 203
  */
235
-static int ipoib_pull ( struct net_device *netdev,
236
-			struct io_buffer *iobuf, const void **ll_dest,
237
-			const void **ll_source, uint16_t *net_proto,
238
-			unsigned int *flags ) {
239
-	struct ipoib_device *ipoib = netdev->priv;
240
-	struct ipoib_hdr *ipoib_hdr = iobuf->data;
241
-	struct ipoib_peer *dest;
242
-	struct ipoib_peer *source;
243
-
244
-	/* Sanity check */
245
-	if ( iob_len ( iobuf ) < sizeof ( *ipoib_hdr ) ) {
246
-		DBG ( "IPoIB packet too short for link-layer header\n" );
247
-		DBG_HD ( iobuf->data, iob_len ( iobuf ) );
248
-		return -EINVAL;
204
+static unsigned int ipoib_discard_remac ( void ) {
205
+	struct ib_device *ibdev;
206
+	struct ipoib_device *ipoib;
207
+	struct ipoib_peer *peer;
208
+	unsigned int discarded = 0;
209
+
210
+	/* Try to discard one cache entry for each IPoIB device */
211
+	for_each_ibdev ( ibdev ) {
212
+		ipoib = ib_get_ownerdata ( ibdev );
213
+		list_for_each_entry_reverse ( peer, &ipoib->peers, list ) {
214
+			list_del ( &peer->list );
215
+			free ( peer );
216
+			discarded++;
217
+			break;
218
+		}
249 219
 	}
250 220
 
251
-	/* Strip off IPoIB header */
252
-	iob_pull ( iobuf, sizeof ( *ipoib_hdr ) );
253
-
254
-	/* Identify source and destination addresses, and clear
255
-	 * reserved word in IPoIB header
256
-	 */
257
-	dest = ipoib_lookup_peer_by_key ( ipoib_hdr->u.peer.dest );
258
-	source = ipoib_lookup_peer_by_key ( ipoib_hdr->u.peer.src );
259
-	ipoib_hdr->u.reserved = 0;
221
+	return discarded;
222
+}
260 223
 
261
-	/* Fill in required fields */
262
-	*ll_dest = ( dest ? &dest->mac : &ipoib->broadcast );
263
-	*ll_source = ( source ? &source->mac : &ipoib->broadcast );
264
-	*net_proto = ipoib_hdr->proto;
265
-	*flags = ( ( *ll_dest == &ipoib->broadcast ) ?
266
-		   ( LL_MULTICAST | LL_BROADCAST ) : 0 );
224
+/** IPoIB cache discarder */
225
+struct cache_discarder ipoib_discarder __cache_discarder ( CACHE_NORMAL ) = {
226
+	.discard = ipoib_discard_remac,
227
+};
267 228
 
268
-	return 0;
269
-}
229
+/****************************************************************************
230
+ *
231
+ * IPoIB link layer
232
+ *
233
+ ****************************************************************************
234
+ */
270 235
 
271 236
 /**
272 237
  * Initialise IPoIB link-layer address
@@ -275,133 +240,205 @@ static int ipoib_pull ( struct net_device *netdev,
275 240
  * @v ll_addr		Link-layer address
276 241
  */
277 242
 static void ipoib_init_addr ( const void *hw_addr, void *ll_addr ) {
278
-	const union ib_guid *guid = hw_addr;
279
-	struct ipoib_mac *mac = ll_addr;
243
+	const uint8_t *guid = hw_addr;
244
+	uint8_t *eth_addr = ll_addr;
245
+	uint8_t guid_mask = IPOIB_GUID_MASK;
246
+	unsigned int i;
280 247
 
281
-	memset ( mac, 0, sizeof ( *mac ) );
282
-	memcpy ( &mac->gid.s.guid, guid, sizeof ( mac->gid.s.guid ) );
248
+	/* Extract bytes from GUID according to mask */
249
+	for ( i = 0 ; i < 8 ; i++, guid++, guid_mask <<= 1 ) {
250
+		if ( guid_mask & 0x80 )
251
+			*(eth_addr++) = *guid;
252
+	}
283 253
 }
284 254
 
255
+/** IPoIB protocol */
256
+struct ll_protocol ipoib_protocol __ll_protocol = {
257
+	.name		= "IPoIB",
258
+	.ll_proto	= htons ( ARPHRD_ETHER ),
259
+	.hw_addr_len	= sizeof ( union ib_guid ),
260
+	.ll_addr_len	= ETH_ALEN,
261
+	.ll_header_len	= ETH_HLEN,
262
+	.push		= eth_push,
263
+	.pull		= eth_pull,
264
+	.init_addr	= ipoib_init_addr,
265
+	.ntoa		= eth_ntoa,
266
+	.mc_hash	= eth_mc_hash,
267
+	.eth_addr	= eth_eth_addr,
268
+	.flags		= LL_NAME_ONLY,
269
+};
270
+
285 271
 /**
286
- * Transcribe IPoIB link-layer address
272
+ * Allocate IPoIB device
287 273
  *
288
- * @v ll_addr	Link-layer address
289
- * @ret string	Link-layer address in human-readable format
274
+ * @v priv_size		Size of driver private data
275
+ * @ret netdev		Network device, or NULL
290 276
  */
291
-const char * ipoib_ntoa ( const void *ll_addr ) {
292
-	static char buf[45];
293
-	const struct ipoib_mac *mac = ll_addr;
294
-
295
-	snprintf ( buf, sizeof ( buf ), "%08x:%08x:%08x:%08x:%08x",
296
-		   htonl ( mac->flags__qpn ), htonl ( mac->gid.dwords[0] ),
297
-		   htonl ( mac->gid.dwords[1] ),
298
-		   htonl ( mac->gid.dwords[2] ),
299
-		   htonl ( mac->gid.dwords[3] ) );
300
-	return buf;
277
+struct net_device * alloc_ipoibdev ( size_t priv_size ) {
278
+	struct net_device *netdev;
279
+
280
+	netdev = alloc_netdev ( priv_size );
281
+	if ( netdev ) {
282
+		netdev->ll_protocol = &ipoib_protocol;
283
+		netdev->ll_broadcast = eth_broadcast;
284
+		netdev->max_pkt_len = IB_MAX_PAYLOAD_SIZE;
285
+	}
286
+	return netdev;
301 287
 }
302 288
 
289
+/****************************************************************************
290
+ *
291
+ * IPoIB translation layer
292
+ *
293
+ ****************************************************************************
294
+ */
295
+
303 296
 /**
304
- * Hash multicast address
297
+ * Translate transmitted ARP packet
305 298
  *
306
- * @v af		Address family
307
- * @v net_addr		Network-layer address
308
- * @v ll_addr		Link-layer address to fill in
299
+ * @v netdev		Network device
300
+ * @v iobuf		Packet to be transmitted (with no link-layer headers)
309 301
  * @ret rc		Return status code
310 302
  */
311
-static int ipoib_mc_hash ( unsigned int af __unused,
312
-			   const void *net_addr __unused,
313
-			   void *ll_addr __unused ) {
303
+static int ipoib_translate_tx_arp ( struct net_device *netdev,
304
+				    struct io_buffer *iobuf ) {
305
+	struct ipoib_device *ipoib = netdev->priv;
306
+	struct arphdr *arphdr = iobuf->data;
307
+	struct ipoib_mac *target_ha = NULL;
308
+	void *sender_pa;
309
+	void *target_pa;
310
+
311
+	/* Do nothing unless ARP contains eIPoIB link-layer addresses */
312
+	if ( arphdr->ar_hln != ETH_ALEN )
313
+		return 0;
314
+
315
+	/* Fail unless we have room to expand packet */
316
+	if ( iob_tailroom ( iobuf ) < ( 2 * ( sizeof ( ipoib->mac ) -
317
+					      ETH_ALEN ) ) ) {
318
+		DBGC ( ipoib, "IPoIB %p insufficient space in TX ARP\n",
319
+		       ipoib );
320
+		return -ENOBUFS;
321
+	}
314 322
 
315
-	return -ENOTSUP;
323
+	/* Look up REMAC, if applicable */
324
+	if ( arphdr->ar_op == ARPOP_REPLY ) {
325
+		target_ha = ipoib_find_remac ( ipoib, arp_target_pa ( arphdr ));
326
+		if ( ! target_ha )
327
+			return -ENXIO;
328
+	}
329
+
330
+	/* Construct new packet */
331
+	iob_put ( iobuf, ( 2 * ( sizeof ( ipoib->mac ) - ETH_ALEN ) ) );
332
+	sender_pa = arp_sender_pa ( arphdr );
333
+	target_pa = arp_target_pa ( arphdr );
334
+	arphdr->ar_hrd = htons ( ARPHRD_INFINIBAND );
335
+	arphdr->ar_hln = sizeof ( ipoib->mac );
336
+	memcpy ( arp_target_pa ( arphdr ), target_pa, arphdr->ar_pln );
337
+	memcpy ( arp_sender_pa ( arphdr ), sender_pa, arphdr->ar_pln );
338
+	memcpy ( arp_sender_ha ( arphdr ), &ipoib->mac, sizeof ( ipoib->mac ) );
339
+	memset ( arp_target_ha ( arphdr ), 0, sizeof ( ipoib->mac ) );
340
+	if ( target_ha ) {
341
+		memcpy ( arp_target_ha ( arphdr ), target_ha,
342
+			 sizeof ( *target_ha ) );
343
+	}
344
+
345
+	return 0;
316 346
 }
317 347
 
318 348
 /**
319
- * Generate Mellanox Ethernet-compatible compressed link-layer address
349
+ * Translate transmitted packet
320 350
  *
321
- * @v ll_addr		Link-layer address
322
- * @v eth_addr		Ethernet-compatible address to fill in
351
+ * @v netdev		Network device
352
+ * @v iobuf		Packet to be transmitted (with no link-layer headers)
353
+ * @v net_proto		Network-layer protocol (in network byte order)
354
+ * @ret rc		Return status code
323 355
  */
324
-static int ipoib_mlx_eth_addr ( const union ib_guid *guid,
325
-				uint8_t *eth_addr ) {
326
-	eth_addr[0] = ( ( guid->bytes[3] == 2 ) ? 0x00 : 0x02 );
327
-	eth_addr[1] = guid->bytes[1];
328
-	eth_addr[2] = guid->bytes[2];
329
-	eth_addr[3] = guid->bytes[5];
330
-	eth_addr[4] = guid->bytes[6];
331
-	eth_addr[5] = guid->bytes[7];
332
-	return 0;
356
+static int ipoib_translate_tx ( struct net_device *netdev,
357
+				struct io_buffer *iobuf, uint16_t net_proto ) {
358
+
359
+	switch ( net_proto ) {
360
+	case htons ( ETH_P_ARP ) :
361
+		return ipoib_translate_tx_arp ( netdev, iobuf );
362
+	case htons ( ETH_P_IP ) :
363
+		/* No translation needed */
364
+		return 0;
365
+	default:
366
+		/* Cannot handle other traffic via eIPoIB */
367
+		return -ENOTSUP;
368
+	}
333 369
 }
334 370
 
335
-/** An IPoIB Ethernet-compatible compressed link-layer address generator */
336
-struct ipoib_eth_addr_handler {
337
-	/** GUID byte 1 */
338
-	uint8_t byte1;
339
-	/** GUID byte 2 */
340
-	uint8_t byte2;
341
-	/** Handler */
342
-	int ( * eth_addr ) ( const union ib_guid *guid,
343
-			     uint8_t *eth_addr );
344
-};
345
-
346
-/** IPoIB Ethernet-compatible compressed link-layer address generators */
347
-static struct ipoib_eth_addr_handler ipoib_eth_addr_handlers[] = {
348
-	{ 0x02, 0xc9, ipoib_mlx_eth_addr },
349
-};
350
-
351 371
 /**
352
- * Generate Ethernet-compatible compressed link-layer address
372
+ * Translate received ARP packet
353 373
  *
354
- * @v ll_addr		Link-layer address
355
- * @v eth_addr		Ethernet-compatible address to fill in
374
+ * @v netdev		Network device
375
+ * @v iobuf		Received packet (with no link-layer headers)
376
+ * @v remac		Constructed Remote Ethernet MAC
377
+ * @ret rc		Return status code
356 378
  */
357
-static int ipoib_eth_addr ( const void *ll_addr, void *eth_addr ) {
358
-	const struct ipoib_mac *ipoib_addr = ll_addr;
359
-	const union ib_guid *guid = &ipoib_addr->gid.s.guid;
360
-	struct ipoib_eth_addr_handler *handler;
361
-	unsigned int i;
379
+static int ipoib_translate_rx_arp ( struct net_device *netdev,
380
+				    struct io_buffer *iobuf,
381
+				    struct ipoib_remac *remac ) {
382
+	struct ipoib_device *ipoib = netdev->priv;
383
+	struct arphdr *arphdr = iobuf->data;
384
+	void *sender_pa;
385
+	void *target_pa;
386
+	int rc;
362 387
 
363
-	for ( i = 0 ; i < ( sizeof ( ipoib_eth_addr_handlers ) /
364
-			    sizeof ( ipoib_eth_addr_handlers[0] ) ) ; i++ ) {
365
-		handler = &ipoib_eth_addr_handlers[i];
366
-		if ( ( handler->byte1 == guid->bytes[1] ) &&
367
-		     ( handler->byte2 == guid->bytes[2] ) ) {
368
-			return handler->eth_addr ( guid, eth_addr );
369
-		}
388
+	/* Do nothing unless ARP contains IPoIB link-layer addresses */
389
+	if ( arphdr->ar_hln != sizeof ( ipoib->mac ) )
390
+		return 0;
391
+
392
+	/* Create REMAC cache entry */
393
+	if ( ( rc = ipoib_map_remac ( ipoib, remac,
394
+				      arp_sender_ha ( arphdr ) ) ) != 0 ) {
395
+		DBGC ( ipoib, "IPoIB %p could not map REMAC: %s\n",
396
+		       ipoib, strerror ( rc ) );
397
+		return rc;
370 398
 	}
371
-	return -ENOTSUP;
372
-}
373 399
 
374
-/** IPoIB protocol */
375
-struct ll_protocol ipoib_protocol __ll_protocol = {
376
-	.name		= "IPoIB",
377
-	.ll_proto	= htons ( ARPHRD_INFINIBAND ),
378
-	.hw_addr_len	= sizeof ( union ib_guid ),
379
-	.ll_addr_len	= IPOIB_ALEN,
380
-	.ll_header_len	= IPOIB_HLEN,
381
-	.push		= ipoib_push,
382
-	.pull		= ipoib_pull,
383
-	.init_addr	= ipoib_init_addr,
384
-	.ntoa		= ipoib_ntoa,
385
-	.mc_hash	= ipoib_mc_hash,
386
-	.eth_addr	= ipoib_eth_addr,
387
-};
400
+	/* Construct new packet */
401
+	sender_pa = arp_sender_pa ( arphdr );
402
+	target_pa = arp_target_pa ( arphdr );
403
+	arphdr->ar_hrd = htons ( ARPHRD_ETHER );
404
+	arphdr->ar_hln = ETH_ALEN;
405
+	memcpy ( arp_sender_pa ( arphdr ), sender_pa, arphdr->ar_pln );
406
+	memcpy ( arp_target_pa ( arphdr ), target_pa, arphdr->ar_pln );
407
+	memcpy ( arp_sender_ha ( arphdr ), remac, ETH_ALEN );
408
+	memset ( arp_target_ha ( arphdr ), 0, ETH_ALEN );
409
+	if ( arphdr->ar_op == ARPOP_REPLY ) {
410
+		/* Assume received replies were directed to us */
411
+		memcpy ( arp_target_ha ( arphdr ), netdev->ll_addr, ETH_ALEN );
412
+	}
413
+	iob_unput ( iobuf, ( 2 * ( sizeof ( ipoib->mac ) - ETH_ALEN ) ) );
414
+
415
+	return 0;
416
+}
388 417
 
389 418
 /**
390
- * Allocate IPoIB device
419
+ * Translate received packet
391 420
  *
392
- * @v priv_size		Size of driver private data
393
- * @ret netdev		Network device, or NULL
421
+ * @v netdev		Network device
422
+ * @v iobuf		Received packet (with no link-layer headers)
423
+ * @v remac		Constructed Remote Ethernet MAC
424
+ * @v net_proto		Network-layer protocol (in network byte order)
425
+ * @ret rc		Return status code
394 426
  */
395
-struct net_device * alloc_ipoibdev ( size_t priv_size ) {
396
-	struct net_device *netdev;
397
-
398
-	netdev = alloc_netdev ( priv_size );
399
-	if ( netdev ) {
400
-		netdev->ll_protocol = &ipoib_protocol;
401
-		netdev->ll_broadcast = ( uint8_t * ) &ipoib_broadcast;
402
-		netdev->max_pkt_len = IB_MAX_PAYLOAD_SIZE;
427
+static int ipoib_translate_rx ( struct net_device *netdev,
428
+				struct io_buffer *iobuf,
429
+				struct ipoib_remac *remac,
430
+				uint16_t net_proto ) {
431
+
432
+	switch ( net_proto ) {
433
+	case htons ( ETH_P_ARP ) :
434
+		return ipoib_translate_rx_arp ( netdev, iobuf, remac );
435
+	case htons ( ETH_P_IP ) :
436
+		/* No translation needed */
437
+		return 0;
438
+	default:
439
+		/* Cannot handle other traffic via eIPoIB */
440
+		return -ENOTSUP;
403 441
 	}
404
-	return netdev;
405 442
 }
406 443
 
407 444
 /****************************************************************************
@@ -422,17 +459,18 @@ static int ipoib_transmit ( struct net_device *netdev,
422 459
 			    struct io_buffer *iobuf ) {
423 460
 	struct ipoib_device *ipoib = netdev->priv;
424 461
 	struct ib_device *ibdev = ipoib->ibdev;
462
+	struct ethhdr *ethhdr;
425 463
 	struct ipoib_hdr *ipoib_hdr;
426
-	struct ipoib_peer *peer;
464
+	struct ipoib_mac *mac;
427 465
 	struct ib_address_vector dest;
466
+	uint16_t net_proto;
428 467
 	int rc;
429 468
 
430 469
 	/* Sanity check */
431
-	if ( iob_len ( iobuf ) < sizeof ( *ipoib_hdr ) ) {
470
+	if ( iob_len ( iobuf ) < sizeof ( *ethhdr ) ) {
432 471
 		DBGC ( ipoib, "IPoIB %p buffer too short\n", ipoib );
433 472
 		return -EINVAL;
434 473
 	}
435
-	ipoib_hdr = iobuf->data;
436 474
 
437 475
 	/* Attempting transmission while link is down will put the
438 476
 	 * queue pair into an error state, so don't try it.
@@ -440,17 +478,30 @@ static int ipoib_transmit ( struct net_device *netdev,
440 478
 	if ( ! ib_link_ok ( ibdev ) )
441 479
 		return -ENETUNREACH;
442 480
 
481
+	/* Strip eIPoIB header */
482
+	ethhdr = iobuf->data;
483
+	net_proto = ethhdr->h_protocol;
484
+	iob_pull ( iobuf, sizeof ( *ethhdr ) );
485
+
443 486
 	/* Identify destination address */
444
-	peer = ipoib_lookup_peer_by_key ( ipoib_hdr->u.peer.dest );
445
-	if ( ! peer )
487
+	mac = ipoib_find_remac ( ipoib, ( ( void *) ethhdr->h_dest ) );
488
+	if ( ! mac )
446 489
 		return -ENXIO;
447
-	ipoib_hdr->u.reserved = 0;
490
+
491
+	/* Translate packet if applicable */
492
+	if ( ( rc = ipoib_translate_tx ( netdev, iobuf, net_proto ) ) != 0 )
493
+		return rc;
494
+
495
+	/* Prepend real IPoIB header */
496
+	ipoib_hdr = iob_push ( iobuf, sizeof ( *ipoib_hdr ) );
497
+	ipoib_hdr->proto = net_proto;
498
+	ipoib_hdr->reserved = 0;
448 499
 
449 500
 	/* Construct address vector */
450 501
 	memset ( &dest, 0, sizeof ( dest ) );
451
-	dest.qpn = ( ntohl ( peer->mac.flags__qpn ) & IB_QPN_MASK );
502
+	dest.qpn = ( ntohl ( mac->flags__qpn ) & IB_QPN_MASK );
452 503
 	dest.gid_present = 1;
453
-	memcpy ( &dest.gid, &peer->mac.gid, sizeof ( dest.gid ) );
504
+	memcpy ( &dest.gid, &mac->gid, sizeof ( dest.gid ) );
454 505
 	if ( ( rc = ib_resolve_path ( ibdev, &dest ) ) != 0 ) {
455 506
 		/* Path not resolved yet */
456 507
 		return rc;
@@ -487,14 +538,15 @@ static void ipoib_complete_send ( struct ib_device *ibdev __unused,
487 538
  */
488 539
 static void ipoib_complete_recv ( struct ib_device *ibdev __unused,
489 540
 				  struct ib_queue_pair *qp,
490
-				  struct ib_address_vector *dest __unused,
541
+				  struct ib_address_vector *dest,
491 542
 				  struct ib_address_vector *source,
492 543
 				  struct io_buffer *iobuf, int rc ) {
493 544
 	struct ipoib_device *ipoib = ib_qp_get_ownerdata ( qp );
494 545
 	struct net_device *netdev = ipoib->netdev;
495 546
 	struct ipoib_hdr *ipoib_hdr;
496
-	struct ipoib_mac ll_src;
497
-	struct ipoib_peer *src;
547
+	struct ethhdr *ethhdr;
548
+	struct ipoib_remac remac;
549
+	uint16_t net_proto;
498 550
 
499 551
 	/* Record errors */
500 552
 	if ( rc != 0 ) {
@@ -510,7 +562,6 @@ static void ipoib_complete_recv ( struct ib_device *ibdev __unused,
510 562
 		netdev_rx_err ( netdev, iobuf, -EIO );
511 563
 		return;
512 564
 	}
513
-	ipoib_hdr = iobuf->data;
514 565
 	if ( ! source ) {
515 566
 		DBGC ( ipoib, "IPoIB %p received packet without address "
516 567
 		       "vector\n", ipoib );
@@ -518,12 +569,37 @@ static void ipoib_complete_recv ( struct ib_device *ibdev __unused,
518 569
 		return;
519 570
 	}
520 571
 
521
-	/* Parse source address */
522
-	if ( source->gid_present ) {
523
-		ll_src.flags__qpn = htonl ( source->qpn );
524
-		memcpy ( &ll_src.gid, &source->gid, sizeof ( ll_src.gid ) );
525
-		src = ipoib_cache_peer ( &ll_src );
526
-		ipoib_hdr->u.peer.src = src->key;
572
+	/* Strip real IPoIB header */
573
+	ipoib_hdr = iobuf->data;
574
+	net_proto = ipoib_hdr->proto;
575
+	iob_pull ( iobuf, sizeof ( *ipoib_hdr ) );
576
+
577
+	/* Construct source address from remote QPN and LID */
578
+	remac.qpn = htonl ( source->qpn | EIPOIB_QPN_LA );
579
+	remac.lid = htons ( source->lid );
580
+
581
+	/* Translate packet if applicable */
582
+	if ( ( rc = ipoib_translate_rx ( netdev, iobuf, &remac,
583
+					 net_proto ) ) != 0 ) {
584
+		netdev_rx_err ( netdev, iobuf, rc );
585
+		return;
586
+	}
587
+
588
+	/* Prepend eIPoIB header */
589
+	ethhdr = iob_push ( iobuf, sizeof ( *ethhdr ) );
590
+	memcpy ( &ethhdr->h_source, &remac, sizeof ( ethhdr->h_source ) );
591
+	ethhdr->h_protocol = net_proto;
592
+
593
+	/* Construct destination address */
594
+	if ( dest->gid_present && ( memcmp ( &dest->gid, &ipoib->broadcast.gid,
595
+					     sizeof ( dest->gid ) ) == 0 ) ) {
596
+		/* Broadcast GID; use the Ethernet broadcast address */
597
+		memcpy ( &ethhdr->h_dest, eth_broadcast,
598
+			 sizeof ( ethhdr->h_dest ) );
599
+	} else {
600
+		/* Assume destination address is local Ethernet MAC */
601
+		memcpy ( &ethhdr->h_dest, netdev->ll_addr,
602
+			 sizeof ( ethhdr->h_dest ) );
527 603
 	}
528 604
 
529 605
 	/* Hand off to network layer */
@@ -536,9 +612,40 @@ static struct ib_completion_queue_operations ipoib_cq_op = {
536 612
 	.complete_recv = ipoib_complete_recv,
537 613
 };
538 614
 
615
+/**
616
+ * Allocate IPoIB receive I/O buffer
617
+ *
618
+ * @v len		Length of buffer
619
+ * @ret iobuf		I/O buffer, or NULL
620
+ *
621
+ * Some Infiniband hardware requires 2kB alignment of receive buffers
622
+ * and provides no way to disable header separation.  The result is
623
+ * that there are only four bytes of link-layer header (the real IPoIB
624
+ * header) before the payload.  This is not sufficient space to insert
625
+ * an eIPoIB link-layer pseudo-header.
626
+ *
627
+ * We therefore allocate I/O buffers offset to start slightly before
628
+ * the natural alignment boundary, in order to allow sufficient space.
629
+ */
630
+static struct io_buffer * ipoib_alloc_iob ( size_t len ) {
631
+	struct io_buffer *iobuf;
632
+	size_t reserve_len;
633
+
634
+	/* Calculate additional length required at start of buffer */
635
+	reserve_len = ( sizeof ( struct ethhdr ) -
636
+			sizeof ( struct ipoib_hdr ) );
637
+
638
+	/* Allocate buffer */
639
+	iobuf = alloc_iob_raw ( ( len + reserve_len ), len, -reserve_len );
640
+	if ( iobuf ) {
641
+		iob_reserve ( iobuf, reserve_len );
642
+	}
643
+	return iobuf;
644
+}
645
+
539 646
 /** IPoIB queue pair operations */
540 647
 static struct ib_queue_pair_operations ipoib_qp_op = {
541
-	.alloc_iob = alloc_iob,
648
+	.alloc_iob = ipoib_alloc_iob,
542 649
 };
543 650
 
544 651
 /**
@@ -550,7 +657,11 @@ static void ipoib_poll ( struct net_device *netdev ) {
550 657
 	struct ipoib_device *ipoib = netdev->priv;
551 658
 	struct ib_device *ibdev = ipoib->ibdev;
552 659
 
660
+	/* Poll Infiniband device */
553 661
 	ib_poll_eq ( ibdev );
662
+
663
+	/* Poll the retry timers (required for IPoIB multicast join) */
664
+	retry_poll();
554 665
 }
555 666
 
556 667
 /**
@@ -617,15 +728,14 @@ static void ipoib_leave_broadcast_group ( struct ipoib_device *ipoib ) {
617 728
 static void ipoib_link_state_changed ( struct ib_device *ibdev ) {
618 729
 	struct net_device *netdev = ib_get_ownerdata ( ibdev );
619 730
 	struct ipoib_device *ipoib = netdev->priv;
620
-	struct ipoib_mac *mac = ( ( struct ipoib_mac * ) netdev->ll_addr );
621 731
 	int rc;
622 732
 
623 733
 	/* Leave existing broadcast group */
624 734
 	ipoib_leave_broadcast_group ( ipoib );
625 735
 
626 736
 	/* Update MAC address based on potentially-new GID prefix */
627
-	memcpy ( &mac->gid.s.prefix, &ibdev->gid.s.prefix,
628
-		 sizeof ( mac->gid.s.prefix ) );
737
+	memcpy ( &ipoib->mac.gid.s.prefix, &ibdev->gid.s.prefix,
738
+		 sizeof ( ipoib->mac.gid.s.prefix ) );
629 739
 
630 740
 	/* Update broadcast GID based on potentially-new partition key */
631 741
 	ipoib->broadcast.gid.words[2] =
@@ -654,7 +764,6 @@ static void ipoib_link_state_changed ( struct ib_device *ibdev ) {
654 764
 static int ipoib_open ( struct net_device *netdev ) {
655 765
 	struct ipoib_device *ipoib = netdev->priv;
656 766
 	struct ib_device *ibdev = ipoib->ibdev;
657
-	struct ipoib_mac *mac = ( ( struct ipoib_mac * ) netdev->ll_addr );
658 767
 	int rc;
659 768
 
660 769
 	/* Open IB device */
@@ -686,7 +795,7 @@ static int ipoib_open ( struct net_device *netdev ) {
686 795
 	ib_qp_set_ownerdata ( ipoib->qp, ipoib );
687 796
 
688 797
 	/* Update MAC address with QPN */
689
-	mac->flags__qpn = htonl ( ipoib->qp->qpn );
798
+	ipoib->mac.flags__qpn = htonl ( ipoib->qp->qpn );
690 799
 
691 800
 	/* Fill receive rings */
692 801
 	ib_refill_recv ( ibdev, ipoib->qp );
@@ -713,13 +822,15 @@ static int ipoib_open ( struct net_device *netdev ) {
713 822
 static void ipoib_close ( struct net_device *netdev ) {
714 823
 	struct ipoib_device *ipoib = netdev->priv;
715 824
 	struct ib_device *ibdev = ipoib->ibdev;
716
-	struct ipoib_mac *mac = ( ( struct ipoib_mac * ) netdev->ll_addr );
825
+
826
+	/* Flush REMAC cache */
827
+	ipoib_flush_remac ( ipoib );
717 828
 
718 829
 	/* Leave broadcast group */
719 830
 	ipoib_leave_broadcast_group ( ipoib );
720 831
 
721 832
 	/* Remove QPN from MAC address */
722
-	mac->flags__qpn = 0;
833
+	ipoib->mac.flags__qpn = 0;
723 834
 
724 835
 	/* Tear down the queues */
725 836
 	ib_destroy_qp ( ibdev, ipoib->qp );
@@ -759,15 +870,19 @@ static int ipoib_probe ( struct ib_device *ibdev ) {
759 870
 	memset ( ipoib, 0, sizeof ( *ipoib ) );
760 871
 	ipoib->netdev = netdev;
761 872
 	ipoib->ibdev = ibdev;
873
+	INIT_LIST_HEAD ( &ipoib->peers );
762 874
 
763 875
 	/* Extract hardware address */
764 876
 	memcpy ( netdev->hw_addr, &ibdev->gid.s.guid,
765 877
 		 sizeof ( ibdev->gid.s.guid ) );
766 878
 
767
-	/* Set default broadcast address */
879
+	/* Set local MAC address */
880
+	memcpy ( &ipoib->mac.gid.s.guid, &ibdev->gid.s.guid,
881
+		 sizeof ( ipoib->mac.gid.s.guid ) );
882
+
883
+	/* Set default broadcast MAC address */
768 884
 	memcpy ( &ipoib->broadcast, &ipoib_broadcast,
769 885
 		 sizeof ( ipoib->broadcast ) );
770
-	netdev->ll_broadcast = ( ( uint8_t * ) &ipoib->broadcast );
771 886
 
772 887
 	/* Register network device */
773 888
 	if ( ( rc = register_netdev ( netdev ) ) != 0 )

+ 0
- 2
src/include/ipxe/dhcp.h Datei anzeigen

@@ -651,8 +651,6 @@ struct dhcphdr {
651 651
 #define PXEBS_SETTINGS_NAME "pxebs"
652 652
 
653 653
 extern uint32_t dhcp_last_xid;
654
-extern unsigned int dhcp_chaddr ( struct net_device *netdev, void *chaddr,
655
-				  uint16_t *flags );
656 654
 extern int dhcp_create_packet ( struct dhcp_packet *dhcppkt,
657 655
 				struct net_device *netdev, uint8_t msgtype,
658 656
 				uint32_t xid, const void *options,

+ 25
- 17
src/include/ipxe/ipoib.h Datei anzeigen

@@ -8,6 +8,7 @@
8 8
 
9 9
 FILE_LICENCE ( GPL2_OR_LATER );
10 10
 
11
+#include <ipxe/if_arp.h>
11 12
 #include <ipxe/infiniband.h>
12 13
 
13 14
 /** IPoIB MAC address length */
@@ -33,25 +34,32 @@ struct ipoib_hdr {
33 34
 	/** Network-layer protocol */
34 35
 	uint16_t proto;
35 36
 	/** Reserved, must be zero */
36
-	union {
37
-		/** Reserved, must be zero */
38
-		uint16_t reserved;
39
-		/** Peer addresses
40
-		 *
41
-		 * We use these fields internally to represent the
42
-		 * peer addresses using a lookup key.  There simply
43
-		 * isn't enough room in the IPoIB header to store
44
-		 * literal source or destination MAC addresses.
45
-		 */
46
-		struct {
47
-			/** Destination address key */
48
-			uint8_t dest;
49
-			/** Source address key */
50
-			uint8_t src;
51
-		} __attribute__ (( packed )) peer;
52
-	} __attribute__ (( packed )) u;
37
+	uint16_t reserved;
53 38
 } __attribute__ (( packed ));
54 39
 
40
+/** GUID mask used for constructing eIPoIB Local Ethernet MAC address (LEMAC) */
41
+#define IPOIB_GUID_MASK 0xe7
42
+
43
+/** eIPoIB Remote Ethernet MAC address
44
+ *
45
+ * An eIPoIB REMAC address is an Ethernet-like (6 byte) link-layer
46
+ * pseudo-address used to look up a full IPoIB link-layer address.
47
+ */
48
+struct ipoib_remac {
49
+	/** Remote QPN
50
+	 *
51
+	 * Must be ORed with EIPOIB_QPN_LA so that eIPoIB REMAC
52
+	 * addresses are considered as locally-assigned Ethernet MAC
53
+	 * addreses.
54
+	 */
55
+	uint32_t qpn;
56
+	/** Remote LID */
57
+	uint16_t lid;
58
+} __attribute__ (( packed ));
59
+
60
+/** eIPoIB REMAC locally-assigned address indicator */
61
+#define EIPOIB_QPN_LA 0x02000000UL
62
+
55 63
 extern const char * ipoib_ntoa ( const void *ll_addr );
56 64
 extern struct net_device * alloc_ipoibdev ( size_t priv_size );
57 65
 

+ 9
- 0
src/include/ipxe/netdevice.h Datei anzeigen

@@ -188,8 +188,17 @@ struct ll_protocol {
188 188
 	uint8_t ll_addr_len;
189 189
 	/** Link-layer header length */
190 190
 	uint8_t ll_header_len;
191
+	/** Flags */
192
+	unsigned int flags;
191 193
 };
192 194
 
195
+/** Local link-layer address functions only as a name
196
+ *
197
+ * This flag indicates that the local link-layer address cannot
198
+ * directly be used as a destination address by a remote node.
199
+ */
200
+#define LL_NAME_ONLY 0x0001
201
+
193 202
 /** Network device operations */
194 203
 struct net_device_operations {
195 204
 	/** Open network device

+ 2
- 1
src/interface/efi/efi_snp.c Datei anzeigen

@@ -590,7 +590,8 @@ efi_snp_transmit ( EFI_SIMPLE_NETWORK_PROTOCOL *snp,
590 590
 
591 591
 	/* Allocate buffer */
592 592
 	ll_headroom = ( MAX_LL_HEADER_LEN - ll_header_len );
593
-	iobuf = alloc_iob ( ll_headroom + len );
593
+	iobuf = alloc_iob ( ll_headroom +
594
+			    ( ( len > IOB_ZLEN ) ? len : IOB_ZLEN ) );
594 595
 	if ( ! iobuf ) {
595 596
 		DBGC ( snpdev, "SNPDEV %p TX could not allocate %ld-byte "
596 597
 		       "buffer\n", snpdev, ( ( unsigned long ) len ) );

+ 10
- 2
src/net/udp/dhcp.c Datei anzeigen

@@ -938,10 +938,18 @@ int dhcp_create_packet ( struct dhcp_packet *dhcppkt,
938 938
 	dhcphdr->magic = htonl ( DHCP_MAGIC_COOKIE );
939 939
 	dhcphdr->htype = ntohs ( netdev->ll_protocol->ll_proto );
940 940
 	dhcphdr->op = dhcp_op[msgtype];
941
-	dhcphdr->hlen = dhcp_chaddr ( netdev, dhcphdr->chaddr,
942
-				      &dhcphdr->flags );
941
+	dhcphdr->hlen = netdev->ll_protocol->ll_addr_len;
942
+	memcpy ( dhcphdr->chaddr, netdev->ll_addr,
943
+		 netdev->ll_protocol->ll_addr_len );
943 944
 	memcpy ( dhcphdr->options, options, options_len );
944 945
 
946
+	/* If the local link-layer address functions only as a name
947
+	 * (i.e. cannot be used as a destination address), then
948
+	 * request broadcast responses.
949
+	 */
950
+	if ( netdev->ll_protocol->flags & LL_NAME_ONLY )
951
+		dhcphdr->flags |= htons ( BOOTP_FL_BROADCAST );
952
+
945 953
 	/* If the network device already has an IPv4 address then
946 954
 	 * unicast responses from the DHCP server may be rejected, so
947 955
 	 * request broadcast responses.

+ 2
- 10
src/usr/dhcpmgmt.c Datei anzeigen

@@ -38,10 +38,6 @@ FILE_LICENCE ( GPL2_OR_LATER );
38 38
  */
39 39
 
40 40
 int dhcp ( struct net_device *netdev ) {
41
-	struct dhcphdr *dhcphdr;
42
-	typeof ( dhcphdr->chaddr ) chaddr;
43
-	unsigned int hlen;
44
-	unsigned int i;
45 41
 	int rc;
46 42
 
47 43
 	/* Check we can open the interface first */
@@ -53,12 +49,8 @@ int dhcp ( struct net_device *netdev ) {
53 49
 		return rc;
54 50
 
55 51
 	/* Perform DHCP */
56
-	printf ( "DHCP (%s", netdev->name );
57
-	hlen = dhcp_chaddr ( netdev, chaddr, NULL );
58
-	for ( i = 0 ; i < hlen ; i++ )
59
-		printf ( "%c%02x", ( i ? ':' : ' ' ), chaddr[i] );
60
-	printf ( ")" );
61
-
52
+	printf ( "DHCP (%s %s)", netdev->name,
53
+		 netdev->ll_protocol->ntoa ( netdev->ll_addr ) );
62 54
 	if ( ( rc = start_dhcp ( &monojob, netdev ) ) == 0 ) {
63 55
 		rc = monojob_wait ( "" );
64 56
 	} else if ( rc > 0 ) {

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