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1 /* SPDX-License-Identifier: GPL-2.0-only */
2 /*
3  * IEEE802.15.4-2003 specification
4  *
5  * Copyright (C) 2007, 2008 Siemens AG
6  *
7  * Written by:
8  * Pavel Smolenskiy <pavel.smolenskiy@gmail.com>
9  * Maxim Gorbachyov <maxim.gorbachev@siemens.com>
10  * Maxim Osipov <maxim.osipov@siemens.com>
11  * Dmitry Eremin-Solenikov <dbaryshkov@gmail.com>
12  * Alexander Smirnov <alex.bluesman.smirnov@gmail.com>
13  */
14 
15 #ifndef LINUX_IEEE802154_H
16 #define LINUX_IEEE802154_H
17 
18 #include <linux/types.h>
19 #include <linux/random.h>
20 
21 #define IEEE802154_MTU			127
22 #define IEEE802154_ACK_PSDU_LEN		5
23 #define IEEE802154_MIN_PSDU_LEN		9
24 #define IEEE802154_FCS_LEN		2
25 #define IEEE802154_MAX_AUTH_TAG_LEN	16
26 #define IEEE802154_FC_LEN		2
27 #define IEEE802154_SEQ_LEN		1
28 
29 /*  General MAC frame format:
30  *  2 bytes: Frame Control
31  *  1 byte:  Sequence Number
32  * 20 bytes: Addressing fields
33  * 14 bytes: Auxiliary Security Header
34  */
35 #define IEEE802154_MAX_HEADER_LEN	(2 + 1 + 20 + 14)
36 #define IEEE802154_MIN_HEADER_LEN	(IEEE802154_ACK_PSDU_LEN - \
37 					 IEEE802154_FCS_LEN)
38 
39 #define IEEE802154_PAN_ID_BROADCAST	0xffff
40 #define IEEE802154_ADDR_SHORT_BROADCAST	0xffff
41 #define IEEE802154_ADDR_SHORT_UNSPEC	0xfffe
42 
43 #define IEEE802154_EXTENDED_ADDR_LEN	8
44 #define IEEE802154_SHORT_ADDR_LEN	2
45 #define IEEE802154_PAN_ID_LEN		2
46 
47 #define IEEE802154_LIFS_PERIOD		40
48 #define IEEE802154_SIFS_PERIOD		12
49 #define IEEE802154_MAX_SIFS_FRAME_SIZE	18
50 
51 #define IEEE802154_MAX_CHANNEL		26
52 #define IEEE802154_MAX_PAGE		31
53 
54 #define IEEE802154_FC_TYPE_BEACON	0x0	/* Frame is beacon */
55 #define	IEEE802154_FC_TYPE_DATA		0x1	/* Frame is data */
56 #define IEEE802154_FC_TYPE_ACK		0x2	/* Frame is acknowledgment */
57 #define IEEE802154_FC_TYPE_MAC_CMD	0x3	/* Frame is MAC command */
58 
59 #define IEEE802154_FC_TYPE_SHIFT		0
60 #define IEEE802154_FC_TYPE_MASK		((1 << 3) - 1)
61 #define IEEE802154_FC_TYPE(x)		((x & IEEE802154_FC_TYPE_MASK) >> IEEE802154_FC_TYPE_SHIFT)
62 #define IEEE802154_FC_SET_TYPE(v, x)	do {	\
63 	v = (((v) & ~IEEE802154_FC_TYPE_MASK) | \
64 	    (((x) << IEEE802154_FC_TYPE_SHIFT) & IEEE802154_FC_TYPE_MASK)); \
65 	} while (0)
66 
67 #define IEEE802154_FC_SECEN_SHIFT	3
68 #define IEEE802154_FC_SECEN		(1 << IEEE802154_FC_SECEN_SHIFT)
69 #define IEEE802154_FC_FRPEND_SHIFT	4
70 #define IEEE802154_FC_FRPEND		(1 << IEEE802154_FC_FRPEND_SHIFT)
71 #define IEEE802154_FC_ACK_REQ_SHIFT	5
72 #define IEEE802154_FC_ACK_REQ		(1 << IEEE802154_FC_ACK_REQ_SHIFT)
73 #define IEEE802154_FC_INTRA_PAN_SHIFT	6
74 #define IEEE802154_FC_INTRA_PAN		(1 << IEEE802154_FC_INTRA_PAN_SHIFT)
75 
76 #define IEEE802154_FC_SAMODE_SHIFT	14
77 #define IEEE802154_FC_SAMODE_MASK	(3 << IEEE802154_FC_SAMODE_SHIFT)
78 #define IEEE802154_FC_DAMODE_SHIFT	10
79 #define IEEE802154_FC_DAMODE_MASK	(3 << IEEE802154_FC_DAMODE_SHIFT)
80 
81 #define IEEE802154_FC_VERSION_SHIFT	12
82 #define IEEE802154_FC_VERSION_MASK	(3 << IEEE802154_FC_VERSION_SHIFT)
83 #define IEEE802154_FC_VERSION(x)	((x & IEEE802154_FC_VERSION_MASK) >> IEEE802154_FC_VERSION_SHIFT)
84 
85 #define IEEE802154_FC_SAMODE(x)		\
86 	(((x) & IEEE802154_FC_SAMODE_MASK) >> IEEE802154_FC_SAMODE_SHIFT)
87 
88 #define IEEE802154_FC_DAMODE(x)		\
89 	(((x) & IEEE802154_FC_DAMODE_MASK) >> IEEE802154_FC_DAMODE_SHIFT)
90 
91 #define IEEE802154_SCF_SECLEVEL_MASK		7
92 #define IEEE802154_SCF_SECLEVEL_SHIFT		0
93 #define IEEE802154_SCF_SECLEVEL(x)		(x & IEEE802154_SCF_SECLEVEL_MASK)
94 #define IEEE802154_SCF_KEY_ID_MODE_SHIFT	3
95 #define IEEE802154_SCF_KEY_ID_MODE_MASK		(3 << IEEE802154_SCF_KEY_ID_MODE_SHIFT)
96 #define IEEE802154_SCF_KEY_ID_MODE(x)		\
97 	((x & IEEE802154_SCF_KEY_ID_MODE_MASK) >> IEEE802154_SCF_KEY_ID_MODE_SHIFT)
98 
99 #define IEEE802154_SCF_KEY_IMPLICIT		0
100 #define IEEE802154_SCF_KEY_INDEX		1
101 #define IEEE802154_SCF_KEY_SHORT_INDEX		2
102 #define IEEE802154_SCF_KEY_HW_INDEX		3
103 
104 #define IEEE802154_SCF_SECLEVEL_NONE		0
105 #define IEEE802154_SCF_SECLEVEL_MIC32		1
106 #define IEEE802154_SCF_SECLEVEL_MIC64		2
107 #define IEEE802154_SCF_SECLEVEL_MIC128		3
108 #define IEEE802154_SCF_SECLEVEL_ENC		4
109 #define IEEE802154_SCF_SECLEVEL_ENC_MIC32	5
110 #define IEEE802154_SCF_SECLEVEL_ENC_MIC64	6
111 #define IEEE802154_SCF_SECLEVEL_ENC_MIC128	7
112 
113 /* MAC footer size */
114 #define IEEE802154_MFR_SIZE	2 /* 2 octets */
115 
116 /* MAC's Command Frames Identifiers */
117 #define IEEE802154_CMD_ASSOCIATION_REQ		0x01
118 #define IEEE802154_CMD_ASSOCIATION_RESP		0x02
119 #define IEEE802154_CMD_DISASSOCIATION_NOTIFY	0x03
120 #define IEEE802154_CMD_DATA_REQ			0x04
121 #define IEEE802154_CMD_PANID_CONFLICT_NOTIFY	0x05
122 #define IEEE802154_CMD_ORPHAN_NOTIFY		0x06
123 #define IEEE802154_CMD_BEACON_REQ		0x07
124 #define IEEE802154_CMD_COORD_REALIGN_NOTIFY	0x08
125 #define IEEE802154_CMD_GTS_REQ			0x09
126 
127 /*
128  * The return values of MAC operations
129  */
130 enum {
131 	/*
132 	 * The requested operation was completed successfully.
133 	 * For a transmission request, this value indicates
134 	 * a successful transmission.
135 	 */
136 	IEEE802154_SUCCESS = 0x0,
137 
138 	/* The beacon was lost following a synchronization request. */
139 	IEEE802154_BEACON_LOSS = 0xe0,
140 	/*
141 	 * A transmission could not take place due to activity on the
142 	 * channel, i.e., the CSMA-CA mechanism has failed.
143 	 */
144 	IEEE802154_CHNL_ACCESS_FAIL = 0xe1,
145 	/* The GTS request has been denied by the PAN coordinator. */
146 	IEEE802154_DENINED = 0xe2,
147 	/* The attempt to disable the transceiver has failed. */
148 	IEEE802154_DISABLE_TRX_FAIL = 0xe3,
149 	/*
150 	 * The received frame induces a failed security check according to
151 	 * the security suite.
152 	 */
153 	IEEE802154_FAILED_SECURITY_CHECK = 0xe4,
154 	/*
155 	 * The frame resulting from secure processing has a length that is
156 	 * greater than aMACMaxFrameSize.
157 	 */
158 	IEEE802154_FRAME_TOO_LONG = 0xe5,
159 	/*
160 	 * The requested GTS transmission failed because the specified GTS
161 	 * either did not have a transmit GTS direction or was not defined.
162 	 */
163 	IEEE802154_INVALID_GTS = 0xe6,
164 	/*
165 	 * A request to purge an MSDU from the transaction queue was made using
166 	 * an MSDU handle that was not found in the transaction table.
167 	 */
168 	IEEE802154_INVALID_HANDLE = 0xe7,
169 	/* A parameter in the primitive is out of the valid range.*/
170 	IEEE802154_INVALID_PARAMETER = 0xe8,
171 	/* No acknowledgment was received after aMaxFrameRetries. */
172 	IEEE802154_NO_ACK = 0xe9,
173 	/* A scan operation failed to find any network beacons.*/
174 	IEEE802154_NO_BEACON = 0xea,
175 	/* No response data were available following a request. */
176 	IEEE802154_NO_DATA = 0xeb,
177 	/* The operation failed because a short address was not allocated. */
178 	IEEE802154_NO_SHORT_ADDRESS = 0xec,
179 	/*
180 	 * A receiver enable request was unsuccessful because it could not be
181 	 * completed within the CAP.
182 	 */
183 	IEEE802154_OUT_OF_CAP = 0xed,
184 	/*
185 	 * A PAN identifier conflict has been detected and communicated to the
186 	 * PAN coordinator.
187 	 */
188 	IEEE802154_PANID_CONFLICT = 0xee,
189 	/* A coordinator realignment command has been received. */
190 	IEEE802154_REALIGMENT = 0xef,
191 	/* The transaction has expired and its information discarded. */
192 	IEEE802154_TRANSACTION_EXPIRED = 0xf0,
193 	/* There is no capacity to store the transaction. */
194 	IEEE802154_TRANSACTION_OVERFLOW = 0xf1,
195 	/*
196 	 * The transceiver was in the transmitter enabled state when the
197 	 * receiver was requested to be enabled.
198 	 */
199 	IEEE802154_TX_ACTIVE = 0xf2,
200 	/* The appropriate key is not available in the ACL. */
201 	IEEE802154_UNAVAILABLE_KEY = 0xf3,
202 	/*
203 	 * A SET/GET request was issued with the identifier of a PIB attribute
204 	 * that is not supported.
205 	 */
206 	IEEE802154_UNSUPPORTED_ATTR = 0xf4,
207 	/*
208 	 * A request to perform a scan operation failed because the MLME was
209 	 * in the process of performing a previously initiated scan operation.
210 	 */
211 	IEEE802154_SCAN_IN_PROGRESS = 0xfc,
212 };
213 
214 /* frame control handling */
215 #define IEEE802154_FCTL_FTYPE		0x0003
216 #define IEEE802154_FCTL_ACKREQ		0x0020
217 #define IEEE802154_FCTL_SECEN		0x0004
218 #define IEEE802154_FCTL_INTRA_PAN	0x0040
219 #define IEEE802154_FCTL_DADDR		0x0c00
220 #define IEEE802154_FCTL_SADDR		0xc000
221 
222 #define IEEE802154_FTYPE_DATA		0x0001
223 
224 #define IEEE802154_FCTL_ADDR_NONE	0x0000
225 #define IEEE802154_FCTL_DADDR_SHORT	0x0800
226 #define IEEE802154_FCTL_DADDR_EXTENDED	0x0c00
227 #define IEEE802154_FCTL_SADDR_SHORT	0x8000
228 #define IEEE802154_FCTL_SADDR_EXTENDED	0xc000
229 
230 /*
231  * ieee802154_is_data - check if type is IEEE802154_FTYPE_DATA
232  * @fc: frame control bytes in little-endian byteorder
233  */
ieee802154_is_data(__le16 fc)234 static inline int ieee802154_is_data(__le16 fc)
235 {
236 	return (fc & cpu_to_le16(IEEE802154_FCTL_FTYPE)) ==
237 		cpu_to_le16(IEEE802154_FTYPE_DATA);
238 }
239 
240 /**
241  * ieee802154_is_secen - check if Security bit is set
242  * @fc: frame control bytes in little-endian byteorder
243  */
ieee802154_is_secen(__le16 fc)244 static inline bool ieee802154_is_secen(__le16 fc)
245 {
246 	return fc & cpu_to_le16(IEEE802154_FCTL_SECEN);
247 }
248 
249 /**
250  * ieee802154_is_ackreq - check if acknowledgment request bit is set
251  * @fc: frame control bytes in little-endian byteorder
252  */
ieee802154_is_ackreq(__le16 fc)253 static inline bool ieee802154_is_ackreq(__le16 fc)
254 {
255 	return fc & cpu_to_le16(IEEE802154_FCTL_ACKREQ);
256 }
257 
258 /**
259  * ieee802154_is_intra_pan - check if intra pan id communication
260  * @fc: frame control bytes in little-endian byteorder
261  */
ieee802154_is_intra_pan(__le16 fc)262 static inline bool ieee802154_is_intra_pan(__le16 fc)
263 {
264 	return fc & cpu_to_le16(IEEE802154_FCTL_INTRA_PAN);
265 }
266 
267 /*
268  * ieee802154_daddr_mode - get daddr mode from fc
269  * @fc: frame control bytes in little-endian byteorder
270  */
ieee802154_daddr_mode(__le16 fc)271 static inline __le16 ieee802154_daddr_mode(__le16 fc)
272 {
273 	return fc & cpu_to_le16(IEEE802154_FCTL_DADDR);
274 }
275 
276 /*
277  * ieee802154_saddr_mode - get saddr mode from fc
278  * @fc: frame control bytes in little-endian byteorder
279  */
ieee802154_saddr_mode(__le16 fc)280 static inline __le16 ieee802154_saddr_mode(__le16 fc)
281 {
282 	return fc & cpu_to_le16(IEEE802154_FCTL_SADDR);
283 }
284 
285 /**
286  * ieee802154_is_valid_psdu_len - check if psdu len is valid
287  * available lengths:
288  *	0-4	Reserved
289  *	5	MPDU (Acknowledgment)
290  *	6-8	Reserved
291  *	9-127	MPDU
292  *
293  * @len: psdu len with (MHR + payload + MFR)
294  */
ieee802154_is_valid_psdu_len(u8 len)295 static inline bool ieee802154_is_valid_psdu_len(u8 len)
296 {
297 	return (len == IEEE802154_ACK_PSDU_LEN ||
298 		(len >= IEEE802154_MIN_PSDU_LEN && len <= IEEE802154_MTU));
299 }
300 
301 /**
302  * ieee802154_is_valid_extended_unicast_addr - check if extended addr is valid
303  * @addr: extended addr to check
304  */
ieee802154_is_valid_extended_unicast_addr(__le64 addr)305 static inline bool ieee802154_is_valid_extended_unicast_addr(__le64 addr)
306 {
307 	/* Bail out if the address is all zero, or if the group
308 	 * address bit is set.
309 	 */
310 	return ((addr != cpu_to_le64(0x0000000000000000ULL)) &&
311 		!(addr & cpu_to_le64(0x0100000000000000ULL)));
312 }
313 
314 /**
315  * ieee802154_is_broadcast_short_addr - check if short addr is broadcast
316  * @addr: short addr to check
317  */
ieee802154_is_broadcast_short_addr(__le16 addr)318 static inline bool ieee802154_is_broadcast_short_addr(__le16 addr)
319 {
320 	return (addr == cpu_to_le16(IEEE802154_ADDR_SHORT_BROADCAST));
321 }
322 
323 /**
324  * ieee802154_is_unspec_short_addr - check if short addr is unspecified
325  * @addr: short addr to check
326  */
ieee802154_is_unspec_short_addr(__le16 addr)327 static inline bool ieee802154_is_unspec_short_addr(__le16 addr)
328 {
329 	return (addr == cpu_to_le16(IEEE802154_ADDR_SHORT_UNSPEC));
330 }
331 
332 /**
333  * ieee802154_is_valid_src_short_addr - check if source short address is valid
334  * @addr: short addr to check
335  */
ieee802154_is_valid_src_short_addr(__le16 addr)336 static inline bool ieee802154_is_valid_src_short_addr(__le16 addr)
337 {
338 	return !(ieee802154_is_broadcast_short_addr(addr) ||
339 		 ieee802154_is_unspec_short_addr(addr));
340 }
341 
342 /**
343  * ieee802154_random_extended_addr - generates a random extended address
344  * @addr: extended addr pointer to place the random address
345  */
ieee802154_random_extended_addr(__le64 * addr)346 static inline void ieee802154_random_extended_addr(__le64 *addr)
347 {
348 	get_random_bytes(addr, IEEE802154_EXTENDED_ADDR_LEN);
349 
350 	/* clear the group bit, and set the locally administered bit */
351 	((u8 *)addr)[IEEE802154_EXTENDED_ADDR_LEN - 1] &= ~0x01;
352 	((u8 *)addr)[IEEE802154_EXTENDED_ADDR_LEN - 1] |= 0x02;
353 }
354 
355 #endif /* LINUX_IEEE802154_H */
356