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1 /** @file
2  *
3  * PXE UDP API
4  *
5  */
6 
7 #include <string.h>
8 #include <byteswap.h>
9 #include <gpxe/xfer.h>
10 #include <gpxe/udp.h>
11 #include <gpxe/uaccess.h>
12 #include <gpxe/process.h>
13 #include <pxe.h>
14 
15 /*
16  * Copyright (C) 2004 Michael Brown <mbrown@fensystems.co.uk>.
17  *
18  * This program is free software; you can redistribute it and/or
19  * modify it under the terms of the GNU General Public License as
20  * published by the Free Software Foundation; either version 2 of the
21  * License, or any later version.
22  *
23  * This program is distributed in the hope that it will be useful, but
24  * WITHOUT ANY WARRANTY; without even the implied warranty of
25  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
26  * General Public License for more details.
27  *
28  * You should have received a copy of the GNU General Public License
29  * along with this program; if not, write to the Free Software
30  * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
31  */
32 
33 FILE_LICENCE ( GPL2_OR_LATER );
34 
35 /** A PXE UDP connection */
36 struct pxe_udp_connection {
37 	/** Data transfer interface to UDP stack */
38 	struct xfer_interface xfer;
39 	/** Local address */
40 	struct sockaddr_in local;
41 	/** Current PXENV_UDP_READ parameter block */
42 	struct s_PXENV_UDP_READ *pxenv_udp_read;
43 };
44 
45 /**
46  * Receive PXE UDP data
47  *
48  * @v xfer			Data transfer interface
49  * @v iobuf			I/O buffer
50  * @v meta			Data transfer metadata
51  * @ret rc			Return status code
52  *
53  * Receives a packet as part of the current pxenv_udp_read()
54  * operation.
55  */
pxe_udp_deliver_iob(struct xfer_interface * xfer,struct io_buffer * iobuf,struct xfer_metadata * meta)56 static int pxe_udp_deliver_iob ( struct xfer_interface *xfer,
57 				 struct io_buffer *iobuf,
58 				 struct xfer_metadata *meta ) {
59 	struct pxe_udp_connection *pxe_udp =
60 		container_of ( xfer, struct pxe_udp_connection, xfer );
61 	struct s_PXENV_UDP_READ *pxenv_udp_read = pxe_udp->pxenv_udp_read;
62 	struct sockaddr_in *sin_src;
63 	struct sockaddr_in *sin_dest;
64 	userptr_t buffer;
65 	size_t len;
66 	int rc = 0;
67 
68 	if ( ! pxenv_udp_read ) {
69 		DBG ( "PXE discarded UDP packet\n" );
70 		rc = -ENOBUFS;
71 		goto done;
72 	}
73 
74 	/* Copy packet to buffer and record length */
75 	buffer = real_to_user ( pxenv_udp_read->buffer.segment,
76 				pxenv_udp_read->buffer.offset );
77 	len = iob_len ( iobuf );
78 	if ( len > pxenv_udp_read->buffer_size )
79 		len = pxenv_udp_read->buffer_size;
80 	copy_to_user ( buffer, 0, iobuf->data, len );
81 	pxenv_udp_read->buffer_size = len;
82 
83 	/* Fill in source/dest information */
84 	assert ( meta );
85 	sin_src = ( struct sockaddr_in * ) meta->src;
86 	assert ( sin_src );
87 	assert ( sin_src->sin_family == AF_INET );
88 	pxenv_udp_read->src_ip = sin_src->sin_addr.s_addr;
89 	pxenv_udp_read->s_port = sin_src->sin_port;
90 	sin_dest = ( struct sockaddr_in * ) meta->dest;
91 	assert ( sin_dest );
92 	assert ( sin_dest->sin_family == AF_INET );
93 	pxenv_udp_read->dest_ip = sin_dest->sin_addr.s_addr;
94 	pxenv_udp_read->d_port = sin_dest->sin_port;
95 
96 	/* Mark as received */
97 	pxe_udp->pxenv_udp_read = NULL;
98 
99  done:
100 	free_iob ( iobuf );
101 	return rc;
102 }
103 
104 /** PXE UDP data transfer interface operations */
105 static struct xfer_interface_operations pxe_udp_xfer_operations = {
106 	.close		= ignore_xfer_close,
107 	.vredirect	= ignore_xfer_vredirect,
108 	.window		= unlimited_xfer_window,
109 	.alloc_iob	= default_xfer_alloc_iob,
110 	.deliver_iob	= pxe_udp_deliver_iob,
111 	.deliver_raw	= xfer_deliver_as_iob,
112 };
113 
114 /** The PXE UDP connection */
115 static struct pxe_udp_connection pxe_udp = {
116 	.xfer = XFER_INIT ( &pxe_udp_xfer_operations ),
117 	.local = {
118 		.sin_family = AF_INET,
119 	},
120 };
121 
122 /**
123  * UDP OPEN
124  *
125  * @v pxenv_udp_open			Pointer to a struct s_PXENV_UDP_OPEN
126  * @v s_PXENV_UDP_OPEN::src_ip		IP address of this station, or 0.0.0.0
127  * @ret #PXENV_EXIT_SUCCESS		Always
128  * @ret s_PXENV_UDP_OPEN::Status	PXE status code
129  * @err #PXENV_STATUS_UDP_OPEN		UDP connection already open
130  * @err #PXENV_STATUS_OUT_OF_RESOURCES	Could not open connection
131  *
132  * Prepares the PXE stack for communication using pxenv_udp_write()
133  * and pxenv_udp_read().
134  *
135  * The IP address supplied in s_PXENV_UDP_OPEN::src_ip will be
136  * recorded and used as the local station's IP address for all further
137  * communication, including communication by means other than
138  * pxenv_udp_write() and pxenv_udp_read().  (If
139  * s_PXENV_UDP_OPEN::src_ip is 0.0.0.0, the local station's IP address
140  * will remain unchanged.)
141  *
142  * You can only have one open UDP connection at a time.  This is not a
143  * meaningful restriction, since pxenv_udp_write() and
144  * pxenv_udp_read() allow you to specify arbitrary local and remote
145  * ports and an arbitrary remote address for each packet.  According
146  * to the PXE specifiation, you cannot have a UDP connection open at
147  * the same time as a TFTP connection; this restriction does not apply
148  * to Etherboot.
149  *
150  * On x86, you must set the s_PXE::StatusCallout field to a nonzero
151  * value before calling this function in protected mode.  You cannot
152  * call this function with a 32-bit stack segment.  (See the relevant
153  * @ref pxe_x86_pmode16 "implementation note" for more details.)
154  *
155  * @note The PXE specification does not make it clear whether the IP
156  * address supplied in s_PXENV_UDP_OPEN::src_ip should be used only
157  * for this UDP connection, or retained for all future communication.
158  * The latter seems more consistent with typical PXE stack behaviour.
159  *
160  * @note Etherboot currently ignores the s_PXENV_UDP_OPEN::src_ip
161  * parameter.
162  *
163  */
pxenv_udp_open(struct s_PXENV_UDP_OPEN * pxenv_udp_open)164 PXENV_EXIT_t pxenv_udp_open ( struct s_PXENV_UDP_OPEN *pxenv_udp_open ) {
165 	int rc;
166 
167 	DBG ( "PXENV_UDP_OPEN" );
168 
169 	/* Record source IP address */
170 	pxe_udp.local.sin_addr.s_addr = pxenv_udp_open->src_ip;
171 	DBG ( " %s", inet_ntoa ( pxe_udp.local.sin_addr ) );
172 
173 	/* Open promiscuous UDP connection */
174 	xfer_close ( &pxe_udp.xfer, 0 );
175 	if ( ( rc = udp_open_promisc ( &pxe_udp.xfer ) ) != 0 ) {
176 		pxenv_udp_open->Status = PXENV_STATUS ( rc );
177 		return PXENV_EXIT_FAILURE;
178 	}
179 
180 	pxenv_udp_open->Status = PXENV_STATUS_SUCCESS;
181 	return PXENV_EXIT_SUCCESS;
182 }
183 
184 /**
185  * UDP CLOSE
186  *
187  * @v pxenv_udp_close			Pointer to a struct s_PXENV_UDP_CLOSE
188  * @ret #PXENV_EXIT_SUCCESS		Always
189  * @ret s_PXENV_UDP_CLOSE::Status	PXE status code
190  * @err None				-
191  *
192  * Closes a UDP connection opened with pxenv_udp_open().
193  *
194  * You can only have one open UDP connection at a time.  You cannot
195  * have a UDP connection open at the same time as a TFTP connection.
196  * You cannot use pxenv_udp_close() to close a TFTP connection; use
197  * pxenv_tftp_close() instead.
198  *
199  * On x86, you must set the s_PXE::StatusCallout field to a nonzero
200  * value before calling this function in protected mode.  You cannot
201  * call this function with a 32-bit stack segment.  (See the relevant
202  * @ref pxe_x86_pmode16 "implementation note" for more details.)
203  *
204  */
pxenv_udp_close(struct s_PXENV_UDP_CLOSE * pxenv_udp_close)205 PXENV_EXIT_t pxenv_udp_close ( struct s_PXENV_UDP_CLOSE *pxenv_udp_close ) {
206 	DBG ( "PXENV_UDP_CLOSE" );
207 
208 	/* Close UDP connection */
209 	xfer_close ( &pxe_udp.xfer, 0 );
210 
211 	pxenv_udp_close->Status = PXENV_STATUS_SUCCESS;
212 	return PXENV_EXIT_SUCCESS;
213 }
214 
215 /**
216  * UDP WRITE
217  *
218  * @v pxenv_udp_write			Pointer to a struct s_PXENV_UDP_WRITE
219  * @v s_PXENV_UDP_WRITE::ip		Destination IP address
220  * @v s_PXENV_UDP_WRITE::gw		Relay agent IP address, or 0.0.0.0
221  * @v s_PXENV_UDP_WRITE::src_port	Source UDP port, or 0
222  * @v s_PXENV_UDP_WRITE::dst_port	Destination UDP port
223  * @v s_PXENV_UDP_WRITE::buffer_size	Length of the UDP payload
224  * @v s_PXENV_UDP_WRITE::buffer		Address of the UDP payload
225  * @ret #PXENV_EXIT_SUCCESS		Packet was transmitted successfully
226  * @ret #PXENV_EXIT_FAILURE		Packet could not be transmitted
227  * @ret s_PXENV_UDP_WRITE::Status	PXE status code
228  * @err #PXENV_STATUS_UDP_CLOSED	UDP connection is not open
229  * @err #PXENV_STATUS_UNDI_TRANSMIT_ERROR Could not transmit packet
230  *
231  * Transmits a single UDP packet.  A valid IP and UDP header will be
232  * prepended to the payload in s_PXENV_UDP_WRITE::buffer; the buffer
233  * should not contain precomputed IP and UDP headers, nor should it
234  * contain space allocated for these headers.  The first byte of the
235  * buffer will be transmitted as the first byte following the UDP
236  * header.
237  *
238  * If s_PXENV_UDP_WRITE::gw is 0.0.0.0, normal IP routing will take
239  * place.  See the relevant @ref pxe_routing "implementation note" for
240  * more details.
241  *
242  * If s_PXENV_UDP_WRITE::src_port is 0, port 2069 will be used.
243  *
244  * You must have opened a UDP connection with pxenv_udp_open() before
245  * calling pxenv_udp_write().
246  *
247  * On x86, you must set the s_PXE::StatusCallout field to a nonzero
248  * value before calling this function in protected mode.  You cannot
249  * call this function with a 32-bit stack segment.  (See the relevant
250  * @ref pxe_x86_pmode16 "implementation note" for more details.)
251  *
252  * @note Etherboot currently ignores the s_PXENV_UDP_WRITE::gw
253  * parameter.
254  *
255  */
pxenv_udp_write(struct s_PXENV_UDP_WRITE * pxenv_udp_write)256 PXENV_EXIT_t pxenv_udp_write ( struct s_PXENV_UDP_WRITE *pxenv_udp_write ) {
257 	struct sockaddr_in dest;
258 	struct xfer_metadata meta = {
259 		.src = ( struct sockaddr * ) &pxe_udp.local,
260 		.dest = ( struct sockaddr * ) &dest,
261 		.netdev = pxe_netdev,
262 	};
263 	size_t len;
264 	struct io_buffer *iobuf;
265 	userptr_t buffer;
266 	int rc;
267 
268 	DBG ( "PXENV_UDP_WRITE" );
269 
270 	/* Construct destination socket address */
271 	memset ( &dest, 0, sizeof ( dest ) );
272 	dest.sin_family = AF_INET;
273 	dest.sin_addr.s_addr = pxenv_udp_write->ip;
274 	dest.sin_port = pxenv_udp_write->dst_port;
275 
276 	/* Set local (source) port.  PXE spec says source port is 2069
277 	 * if not specified.  Really, this ought to be set at UDP open
278 	 * time but hey, we didn't design this API.
279 	 */
280 	pxe_udp.local.sin_port = pxenv_udp_write->src_port;
281 	if ( ! pxe_udp.local.sin_port )
282 		pxe_udp.local.sin_port = htons ( 2069 );
283 
284 	/* FIXME: we ignore the gateway specified, since we're
285 	 * confident of being able to do our own routing.  We should
286 	 * probably allow for multiple gateways.
287 	 */
288 
289 	/* Allocate and fill data buffer */
290 	len = pxenv_udp_write->buffer_size;
291 	iobuf = xfer_alloc_iob ( &pxe_udp.xfer, len );
292 	if ( ! iobuf ) {
293 		pxenv_udp_write->Status = PXENV_STATUS_OUT_OF_RESOURCES;
294 		return PXENV_EXIT_FAILURE;
295 	}
296 	buffer = real_to_user ( pxenv_udp_write->buffer.segment,
297 				pxenv_udp_write->buffer.offset );
298 	copy_from_user ( iob_put ( iobuf, len ), buffer, 0, len );
299 
300 	DBG ( " %04x:%04x+%x %d->%s:%d", pxenv_udp_write->buffer.segment,
301 	      pxenv_udp_write->buffer.offset, pxenv_udp_write->buffer_size,
302 	      ntohs ( pxenv_udp_write->src_port ),
303 	      inet_ntoa ( dest.sin_addr ),
304 	      ntohs ( pxenv_udp_write->dst_port ) );
305 
306 	/* Transmit packet */
307 	if ( ( rc = xfer_deliver_iob_meta ( &pxe_udp.xfer, iobuf,
308 					    &meta ) ) != 0 ) {
309 		pxenv_udp_write->Status = PXENV_STATUS ( rc );
310 		return PXENV_EXIT_FAILURE;
311 	}
312 
313 	pxenv_udp_write->Status = PXENV_STATUS_SUCCESS;
314 	return PXENV_EXIT_SUCCESS;
315 }
316 
317 /**
318  * UDP READ
319  *
320  * @v pxenv_udp_read			Pointer to a struct s_PXENV_UDP_READ
321  * @v s_PXENV_UDP_READ::dest_ip		Destination IP address, or 0.0.0.0
322  * @v s_PXENV_UDP_READ::d_port		Destination UDP port, or 0
323  * @v s_PXENV_UDP_READ::buffer_size	Size of the UDP payload buffer
324  * @v s_PXENV_UDP_READ::buffer		Address of the UDP payload buffer
325  * @ret #PXENV_EXIT_SUCCESS		A packet has been received
326  * @ret #PXENV_EXIT_FAILURE		No packet has been received
327  * @ret s_PXENV_UDP_READ::Status	PXE status code
328  * @ret s_PXENV_UDP_READ::src_ip	Source IP address
329  * @ret s_PXENV_UDP_READ::dest_ip	Destination IP address
330  * @ret s_PXENV_UDP_READ::s_port	Source UDP port
331  * @ret s_PXENV_UDP_READ::d_port	Destination UDP port
332  * @ret s_PXENV_UDP_READ::buffer_size	Length of UDP payload
333  * @err #PXENV_STATUS_UDP_CLOSED	UDP connection is not open
334  * @err #PXENV_STATUS_FAILURE		No packet was ready to read
335  *
336  * Receive a single UDP packet.  This is a non-blocking call; if no
337  * packet is ready to read, the call will return instantly with
338  * s_PXENV_UDP_READ::Status==PXENV_STATUS_FAILURE.
339  *
340  * If s_PXENV_UDP_READ::dest_ip is 0.0.0.0, UDP packets addressed to
341  * any IP address will be accepted and may be returned to the caller.
342  *
343  * If s_PXENV_UDP_READ::d_port is 0, UDP packets addressed to any UDP
344  * port will be accepted and may be returned to the caller.
345  *
346  * You must have opened a UDP connection with pxenv_udp_open() before
347  * calling pxenv_udp_read().
348  *
349  * On x86, you must set the s_PXE::StatusCallout field to a nonzero
350  * value before calling this function in protected mode.  You cannot
351  * call this function with a 32-bit stack segment.  (See the relevant
352  * @ref pxe_x86_pmode16 "implementation note" for more details.)
353  *
354  * @note The PXE specification (version 2.1) does not state that we
355  * should fill in s_PXENV_UDP_READ::dest_ip and
356  * s_PXENV_UDP_READ::d_port, but Microsoft Windows' NTLDR program
357  * expects us to do so, and will fail if we don't.
358  *
359  */
pxenv_udp_read(struct s_PXENV_UDP_READ * pxenv_udp_read)360 PXENV_EXIT_t pxenv_udp_read ( struct s_PXENV_UDP_READ *pxenv_udp_read ) {
361 	struct in_addr dest_ip_wanted = { .s_addr = pxenv_udp_read->dest_ip };
362 	struct in_addr dest_ip;
363 	uint16_t d_port_wanted = pxenv_udp_read->d_port;
364 	uint16_t d_port;
365 
366 	DBG ( "PXENV_UDP_READ" );
367 
368 	/* Try receiving a packet */
369 	pxe_udp.pxenv_udp_read = pxenv_udp_read;
370 	step();
371 	if ( pxe_udp.pxenv_udp_read ) {
372 		/* No packet received */
373 		pxe_udp.pxenv_udp_read = NULL;
374 		goto no_packet;
375 	}
376 	dest_ip.s_addr = pxenv_udp_read->dest_ip;
377 	d_port = pxenv_udp_read->d_port;
378 
379 	/* Filter on destination address and/or port */
380 	if ( dest_ip_wanted.s_addr &&
381 	     ( dest_ip_wanted.s_addr != dest_ip.s_addr ) ) {
382 		DBG ( " wrong IP %s", inet_ntoa ( dest_ip ) );
383 		DBG ( " (wanted %s)", inet_ntoa ( dest_ip_wanted ) );
384 		goto no_packet;
385 	}
386 	if ( d_port_wanted && ( d_port_wanted != d_port ) ) {
387 		DBG ( " wrong port %d ", htons ( d_port ) );
388 		DBG ( " (wanted %d)", htons ( d_port_wanted ) );
389 		goto no_packet;
390 	}
391 
392 	DBG ( " %04x:%04x+%x %s:", pxenv_udp_read->buffer.segment,
393 	      pxenv_udp_read->buffer.offset, pxenv_udp_read->buffer_size,
394 	      inet_ntoa ( *( ( struct in_addr * ) &pxenv_udp_read->src_ip ) ));
395 	DBG ( "%d<-%s:%d",  ntohs ( pxenv_udp_read->s_port ),
396 	      inet_ntoa ( *( ( struct in_addr * ) &pxenv_udp_read->dest_ip ) ),
397 	      ntohs ( pxenv_udp_read->d_port ) );
398 
399 	pxenv_udp_read->Status = PXENV_STATUS_SUCCESS;
400 	return PXENV_EXIT_SUCCESS;
401 
402  no_packet:
403 	pxenv_udp_read->Status = PXENV_STATUS_FAILURE;
404 	return PXENV_EXIT_FAILURE;
405 }
406