xref: /linux/drivers/crypto/caam/pdb.h (revision e58e871becec2d3b04ed91c0c16fe8deac9c9dfa)
1 /*
2  * CAAM Protocol Data Block (PDB) definition header file
3  *
4  * Copyright 2008-2016 Freescale Semiconductor, Inc.
5  *
6  */
7 
8 #ifndef CAAM_PDB_H
9 #define CAAM_PDB_H
10 #include "compat.h"
11 
12 /*
13  * PDB- IPSec ESP Header Modification Options
14  */
15 #define PDBHMO_ESP_DECAP_SHIFT	28
16 #define PDBHMO_ESP_ENCAP_SHIFT	28
17 /*
18  * Encap and Decap - Decrement TTL (Hop Limit) - Based on the value of the
19  * Options Byte IP version (IPvsn) field:
20  * if IPv4, decrement the inner IP header TTL field (byte 8);
21  * if IPv6 decrement the inner IP header Hop Limit field (byte 7).
22 */
23 #define PDBHMO_ESP_DECAP_DEC_TTL	(0x02 << PDBHMO_ESP_DECAP_SHIFT)
24 #define PDBHMO_ESP_ENCAP_DEC_TTL	(0x02 << PDBHMO_ESP_ENCAP_SHIFT)
25 /*
26  * Decap - DiffServ Copy - Copy the IPv4 TOS or IPv6 Traffic Class byte
27  * from the outer IP header to the inner IP header.
28  */
29 #define PDBHMO_ESP_DIFFSERV		(0x01 << PDBHMO_ESP_DECAP_SHIFT)
30 /*
31  * Encap- Copy DF bit -if an IPv4 tunnel mode outer IP header is coming from
32  * the PDB, copy the DF bit from the inner IP header to the outer IP header.
33  */
34 #define PDBHMO_ESP_DFBIT		(0x04 << PDBHMO_ESP_ENCAP_SHIFT)
35 
36 #define PDBNH_ESP_ENCAP_SHIFT		16
37 #define PDBNH_ESP_ENCAP_MASK		(0xff << PDBNH_ESP_ENCAP_SHIFT)
38 
39 #define PDBHDRLEN_ESP_DECAP_SHIFT	16
40 #define PDBHDRLEN_MASK			(0x0fff << PDBHDRLEN_ESP_DECAP_SHIFT)
41 
42 #define PDB_NH_OFFSET_SHIFT		8
43 #define PDB_NH_OFFSET_MASK		(0xff << PDB_NH_OFFSET_SHIFT)
44 
45 /*
46  * PDB - IPSec ESP Encap/Decap Options
47  */
48 #define PDBOPTS_ESP_ARSNONE	0x00 /* no antireplay window */
49 #define PDBOPTS_ESP_ARS32	0x40 /* 32-entry antireplay window */
50 #define PDBOPTS_ESP_ARS128	0x80 /* 128-entry antireplay window */
51 #define PDBOPTS_ESP_ARS64	0xc0 /* 64-entry antireplay window */
52 #define PDBOPTS_ESP_ARS_MASK	0xc0 /* antireplay window mask */
53 #define PDBOPTS_ESP_IVSRC	0x20 /* IV comes from internal random gen */
54 #define PDBOPTS_ESP_ESN		0x10 /* extended sequence included */
55 #define PDBOPTS_ESP_OUTFMT	0x08 /* output only decapsulation (decap) */
56 #define PDBOPTS_ESP_IPHDRSRC	0x08 /* IP header comes from PDB (encap) */
57 #define PDBOPTS_ESP_INCIPHDR	0x04 /* Prepend IP header to output frame */
58 #define PDBOPTS_ESP_IPVSN	0x02 /* process IPv6 header */
59 #define PDBOPTS_ESP_AOFL	0x04 /* adjust out frame len (decap, SEC>=5.3)*/
60 #define PDBOPTS_ESP_TUNNEL	0x01 /* tunnel mode next-header byte */
61 #define PDBOPTS_ESP_IPV6	0x02 /* ip header version is V6 */
62 #define PDBOPTS_ESP_DIFFSERV	0x40 /* copy TOS/TC from inner iphdr */
63 #define PDBOPTS_ESP_UPDATE_CSUM 0x80 /* encap-update ip header checksum */
64 #define PDBOPTS_ESP_VERIFY_CSUM 0x20 /* decap-validate ip header checksum */
65 
66 /*
67  * General IPSec encap/decap PDB definitions
68  */
69 
70 /**
71  * ipsec_encap_cbc - PDB part for IPsec CBC encapsulation
72  * @iv: 16-byte array initialization vector
73  */
74 struct ipsec_encap_cbc {
75 	u8 iv[16];
76 };
77 
78 /**
79  * ipsec_encap_ctr - PDB part for IPsec CTR encapsulation
80  * @ctr_nonce: 4-byte array nonce
81  * @ctr_initial: initial count constant
82  * @iv: initialization vector
83  */
84 struct ipsec_encap_ctr {
85 	u8 ctr_nonce[4];
86 	u32 ctr_initial;
87 	u64 iv;
88 };
89 
90 /**
91  * ipsec_encap_ccm - PDB part for IPsec CCM encapsulation
92  * @salt: 3-byte array salt (lower 24 bits)
93  * @ccm_opt: CCM algorithm options - MSB-LSB description:
94  *  b0_flags (8b) - CCM B0; use 0x5B for 8-byte ICV, 0x6B for 12-byte ICV,
95  *    0x7B for 16-byte ICV (cf. RFC4309, RFC3610)
96  *  ctr_flags (8b) - counter flags; constant equal to 0x3
97  *  ctr_initial (16b) - initial count constant
98  * @iv: initialization vector
99  */
100 struct ipsec_encap_ccm {
101 	u8 salt[4];
102 	u32 ccm_opt;
103 	u64 iv;
104 };
105 
106 /**
107  * ipsec_encap_gcm - PDB part for IPsec GCM encapsulation
108  * @salt: 3-byte array salt (lower 24 bits)
109  * @rsvd: reserved, do not use
110  * @iv: initialization vector
111  */
112 struct ipsec_encap_gcm {
113 	u8 salt[4];
114 	u32 rsvd1;
115 	u64 iv;
116 };
117 
118 /**
119  * ipsec_encap_pdb - PDB for IPsec encapsulation
120  * @options: MSB-LSB description
121  *  hmo (header manipulation options) - 4b
122  *  reserved - 4b
123  *  next header - 8b
124  *  next header offset - 8b
125  *  option flags (depend on selected algorithm) - 8b
126  * @seq_num_ext_hi: (optional) IPsec Extended Sequence Number (ESN)
127  * @seq_num: IPsec sequence number
128  * @spi: IPsec SPI (Security Parameters Index)
129  * @ip_hdr_len: optional IP Header length (in bytes)
130  *  reserved - 16b
131  *  Opt. IP Hdr Len - 16b
132  * @ip_hdr: optional IP Header content
133  */
134 struct ipsec_encap_pdb {
135 	u32 options;
136 	u32 seq_num_ext_hi;
137 	u32 seq_num;
138 	union {
139 		struct ipsec_encap_cbc cbc;
140 		struct ipsec_encap_ctr ctr;
141 		struct ipsec_encap_ccm ccm;
142 		struct ipsec_encap_gcm gcm;
143 	};
144 	u32 spi;
145 	u32 ip_hdr_len;
146 	u32 ip_hdr[0];
147 };
148 
149 /**
150  * ipsec_decap_cbc - PDB part for IPsec CBC decapsulation
151  * @rsvd: reserved, do not use
152  */
153 struct ipsec_decap_cbc {
154 	u32 rsvd[2];
155 };
156 
157 /**
158  * ipsec_decap_ctr - PDB part for IPsec CTR decapsulation
159  * @ctr_nonce: 4-byte array nonce
160  * @ctr_initial: initial count constant
161  */
162 struct ipsec_decap_ctr {
163 	u8 ctr_nonce[4];
164 	u32 ctr_initial;
165 };
166 
167 /**
168  * ipsec_decap_ccm - PDB part for IPsec CCM decapsulation
169  * @salt: 3-byte salt (lower 24 bits)
170  * @ccm_opt: CCM algorithm options - MSB-LSB description:
171  *  b0_flags (8b) - CCM B0; use 0x5B for 8-byte ICV, 0x6B for 12-byte ICV,
172  *    0x7B for 16-byte ICV (cf. RFC4309, RFC3610)
173  *  ctr_flags (8b) - counter flags; constant equal to 0x3
174  *  ctr_initial (16b) - initial count constant
175  */
176 struct ipsec_decap_ccm {
177 	u8 salt[4];
178 	u32 ccm_opt;
179 };
180 
181 /**
182  * ipsec_decap_gcm - PDB part for IPsec GCN decapsulation
183  * @salt: 4-byte salt
184  * @rsvd: reserved, do not use
185  */
186 struct ipsec_decap_gcm {
187 	u8 salt[4];
188 	u32 resvd;
189 };
190 
191 /**
192  * ipsec_decap_pdb - PDB for IPsec decapsulation
193  * @options: MSB-LSB description
194  *  hmo (header manipulation options) - 4b
195  *  IP header length - 12b
196  *  next header offset - 8b
197  *  option flags (depend on selected algorithm) - 8b
198  * @seq_num_ext_hi: (optional) IPsec Extended Sequence Number (ESN)
199  * @seq_num: IPsec sequence number
200  * @anti_replay: Anti-replay window; size depends on ARS (option flags)
201  */
202 struct ipsec_decap_pdb {
203 	u32 options;
204 	union {
205 		struct ipsec_decap_cbc cbc;
206 		struct ipsec_decap_ctr ctr;
207 		struct ipsec_decap_ccm ccm;
208 		struct ipsec_decap_gcm gcm;
209 	};
210 	u32 seq_num_ext_hi;
211 	u32 seq_num;
212 	__be32 anti_replay[4];
213 };
214 
215 /*
216  * IPSec ESP Datapath Protocol Override Register (DPOVRD)
217  */
218 struct ipsec_deco_dpovrd {
219 #define IPSEC_ENCAP_DECO_DPOVRD_USE 0x80
220 	u8 ovrd_ecn;
221 	u8 ip_hdr_len;
222 	u8 nh_offset;
223 	u8 next_header; /* reserved if decap */
224 };
225 
226 /*
227  * IEEE 802.11i WiFi Protocol Data Block
228  */
229 #define WIFI_PDBOPTS_FCS	0x01
230 #define WIFI_PDBOPTS_AR		0x40
231 
232 struct wifi_encap_pdb {
233 	u16 mac_hdr_len;
234 	u8 rsvd;
235 	u8 options;
236 	u8 iv_flags;
237 	u8 pri;
238 	u16 pn1;
239 	u32 pn2;
240 	u16 frm_ctrl_mask;
241 	u16 seq_ctrl_mask;
242 	u8 rsvd1[2];
243 	u8 cnst;
244 	u8 key_id;
245 	u8 ctr_flags;
246 	u8 rsvd2;
247 	u16 ctr_init;
248 };
249 
250 struct wifi_decap_pdb {
251 	u16 mac_hdr_len;
252 	u8 rsvd;
253 	u8 options;
254 	u8 iv_flags;
255 	u8 pri;
256 	u16 pn1;
257 	u32 pn2;
258 	u16 frm_ctrl_mask;
259 	u16 seq_ctrl_mask;
260 	u8 rsvd1[4];
261 	u8 ctr_flags;
262 	u8 rsvd2;
263 	u16 ctr_init;
264 };
265 
266 /*
267  * IEEE 802.16 WiMAX Protocol Data Block
268  */
269 #define WIMAX_PDBOPTS_FCS	0x01
270 #define WIMAX_PDBOPTS_AR	0x40 /* decap only */
271 
272 struct wimax_encap_pdb {
273 	u8 rsvd[3];
274 	u8 options;
275 	u32 nonce;
276 	u8 b0_flags;
277 	u8 ctr_flags;
278 	u16 ctr_init;
279 	/* begin DECO writeback region */
280 	u32 pn;
281 	/* end DECO writeback region */
282 };
283 
284 struct wimax_decap_pdb {
285 	u8 rsvd[3];
286 	u8 options;
287 	u32 nonce;
288 	u8 iv_flags;
289 	u8 ctr_flags;
290 	u16 ctr_init;
291 	/* begin DECO writeback region */
292 	u32 pn;
293 	u8 rsvd1[2];
294 	u16 antireplay_len;
295 	u64 antireplay_scorecard;
296 	/* end DECO writeback region */
297 };
298 
299 /*
300  * IEEE 801.AE MacSEC Protocol Data Block
301  */
302 #define MACSEC_PDBOPTS_FCS	0x01
303 #define MACSEC_PDBOPTS_AR	0x40 /* used in decap only */
304 
305 struct macsec_encap_pdb {
306 	u16 aad_len;
307 	u8 rsvd;
308 	u8 options;
309 	u64 sci;
310 	u16 ethertype;
311 	u8 tci_an;
312 	u8 rsvd1;
313 	/* begin DECO writeback region */
314 	u32 pn;
315 	/* end DECO writeback region */
316 };
317 
318 struct macsec_decap_pdb {
319 	u16 aad_len;
320 	u8 rsvd;
321 	u8 options;
322 	u64 sci;
323 	u8 rsvd1[3];
324 	/* begin DECO writeback region */
325 	u8 antireplay_len;
326 	u32 pn;
327 	u64 antireplay_scorecard;
328 	/* end DECO writeback region */
329 };
330 
331 /*
332  * SSL/TLS/DTLS Protocol Data Blocks
333  */
334 
335 #define TLS_PDBOPTS_ARS32	0x40
336 #define TLS_PDBOPTS_ARS64	0xc0
337 #define TLS_PDBOPTS_OUTFMT	0x08
338 #define TLS_PDBOPTS_IV_WRTBK	0x02 /* 1.1/1.2/DTLS only */
339 #define TLS_PDBOPTS_EXP_RND_IV	0x01 /* 1.1/1.2/DTLS only */
340 
341 struct tls_block_encap_pdb {
342 	u8 type;
343 	u8 version[2];
344 	u8 options;
345 	u64 seq_num;
346 	u32 iv[4];
347 };
348 
349 struct tls_stream_encap_pdb {
350 	u8 type;
351 	u8 version[2];
352 	u8 options;
353 	u64 seq_num;
354 	u8 i;
355 	u8 j;
356 	u8 rsvd1[2];
357 };
358 
359 struct dtls_block_encap_pdb {
360 	u8 type;
361 	u8 version[2];
362 	u8 options;
363 	u16 epoch;
364 	u16 seq_num[3];
365 	u32 iv[4];
366 };
367 
368 struct tls_block_decap_pdb {
369 	u8 rsvd[3];
370 	u8 options;
371 	u64 seq_num;
372 	u32 iv[4];
373 };
374 
375 struct tls_stream_decap_pdb {
376 	u8 rsvd[3];
377 	u8 options;
378 	u64 seq_num;
379 	u8 i;
380 	u8 j;
381 	u8 rsvd1[2];
382 };
383 
384 struct dtls_block_decap_pdb {
385 	u8 rsvd[3];
386 	u8 options;
387 	u16 epoch;
388 	u16 seq_num[3];
389 	u32 iv[4];
390 	u64 antireplay_scorecard;
391 };
392 
393 /*
394  * SRTP Protocol Data Blocks
395  */
396 #define SRTP_PDBOPTS_MKI	0x08
397 #define SRTP_PDBOPTS_AR		0x40
398 
399 struct srtp_encap_pdb {
400 	u8 x_len;
401 	u8 mki_len;
402 	u8 n_tag;
403 	u8 options;
404 	u32 cnst0;
405 	u8 rsvd[2];
406 	u16 cnst1;
407 	u16 salt[7];
408 	u16 cnst2;
409 	u32 rsvd1;
410 	u32 roc;
411 	u32 opt_mki;
412 };
413 
414 struct srtp_decap_pdb {
415 	u8 x_len;
416 	u8 mki_len;
417 	u8 n_tag;
418 	u8 options;
419 	u32 cnst0;
420 	u8 rsvd[2];
421 	u16 cnst1;
422 	u16 salt[7];
423 	u16 cnst2;
424 	u16 rsvd1;
425 	u16 seq_num;
426 	u32 roc;
427 	u64 antireplay_scorecard;
428 };
429 
430 /*
431  * DSA/ECDSA Protocol Data Blocks
432  * Two of these exist: DSA-SIGN, and DSA-VERIFY. They are similar
433  * except for the treatment of "w" for verify, "s" for sign,
434  * and the placement of "a,b".
435  */
436 #define DSA_PDB_SGF_SHIFT	24
437 #define DSA_PDB_SGF_MASK	(0xff << DSA_PDB_SGF_SHIFT)
438 #define DSA_PDB_SGF_Q		(0x80 << DSA_PDB_SGF_SHIFT)
439 #define DSA_PDB_SGF_R		(0x40 << DSA_PDB_SGF_SHIFT)
440 #define DSA_PDB_SGF_G		(0x20 << DSA_PDB_SGF_SHIFT)
441 #define DSA_PDB_SGF_W		(0x10 << DSA_PDB_SGF_SHIFT)
442 #define DSA_PDB_SGF_S		(0x10 << DSA_PDB_SGF_SHIFT)
443 #define DSA_PDB_SGF_F		(0x08 << DSA_PDB_SGF_SHIFT)
444 #define DSA_PDB_SGF_C		(0x04 << DSA_PDB_SGF_SHIFT)
445 #define DSA_PDB_SGF_D		(0x02 << DSA_PDB_SGF_SHIFT)
446 #define DSA_PDB_SGF_AB_SIGN	(0x02 << DSA_PDB_SGF_SHIFT)
447 #define DSA_PDB_SGF_AB_VERIFY	(0x01 << DSA_PDB_SGF_SHIFT)
448 
449 #define DSA_PDB_L_SHIFT		7
450 #define DSA_PDB_L_MASK		(0x3ff << DSA_PDB_L_SHIFT)
451 
452 #define DSA_PDB_N_MASK		0x7f
453 
454 struct dsa_sign_pdb {
455 	u32 sgf_ln; /* Use DSA_PDB_ defintions per above */
456 	u8 *q;
457 	u8 *r;
458 	u8 *g;	/* or Gx,y */
459 	u8 *s;
460 	u8 *f;
461 	u8 *c;
462 	u8 *d;
463 	u8 *ab; /* ECC only */
464 	u8 *u;
465 };
466 
467 struct dsa_verify_pdb {
468 	u32 sgf_ln;
469 	u8 *q;
470 	u8 *r;
471 	u8 *g;	/* or Gx,y */
472 	u8 *w; /* or Wx,y */
473 	u8 *f;
474 	u8 *c;
475 	u8 *d;
476 	u8 *tmp; /* temporary data block */
477 	u8 *ab; /* only used if ECC processing */
478 };
479 
480 /* RSA Protocol Data Block */
481 #define RSA_PDB_SGF_SHIFT       28
482 #define RSA_PDB_E_SHIFT         12
483 #define RSA_PDB_E_MASK          (0xFFF << RSA_PDB_E_SHIFT)
484 #define RSA_PDB_D_SHIFT         12
485 #define RSA_PDB_D_MASK          (0xFFF << RSA_PDB_D_SHIFT)
486 
487 #define RSA_PDB_SGF_F           (0x8 << RSA_PDB_SGF_SHIFT)
488 #define RSA_PDB_SGF_G           (0x4 << RSA_PDB_SGF_SHIFT)
489 #define RSA_PRIV_PDB_SGF_F      (0x4 << RSA_PDB_SGF_SHIFT)
490 #define RSA_PRIV_PDB_SGF_G      (0x8 << RSA_PDB_SGF_SHIFT)
491 
492 #define RSA_PRIV_KEY_FRM_1      0
493 
494 /**
495  * RSA Encrypt Protocol Data Block
496  * @sgf: scatter-gather field
497  * @f_dma: dma address of input data
498  * @g_dma: dma address of encrypted output data
499  * @n_dma: dma address of RSA modulus
500  * @e_dma: dma address of RSA public exponent
501  * @f_len: length in octets of the input data
502  */
503 struct rsa_pub_pdb {
504 	u32		sgf;
505 	dma_addr_t	f_dma;
506 	dma_addr_t	g_dma;
507 	dma_addr_t	n_dma;
508 	dma_addr_t	e_dma;
509 	u32		f_len;
510 } __packed;
511 
512 /**
513  * RSA Decrypt PDB - Private Key Form #1
514  * @sgf: scatter-gather field
515  * @g_dma: dma address of encrypted input data
516  * @f_dma: dma address of output data
517  * @n_dma: dma address of RSA modulus
518  * @d_dma: dma address of RSA private exponent
519  */
520 struct rsa_priv_f1_pdb {
521 	u32		sgf;
522 	dma_addr_t	g_dma;
523 	dma_addr_t	f_dma;
524 	dma_addr_t	n_dma;
525 	dma_addr_t	d_dma;
526 } __packed;
527 
528 #endif
529