16c9f99dfSJanosch Frank /* SPDX-License-Identifier: GPL-2.0-only */
2a555dc6bSDavid Hildenbrand /*
3a555dc6bSDavid Hildenbrand * CP Assist for Cryptographic Functions (CPACF)
4a555dc6bSDavid Hildenbrand *
5a555dc6bSDavid Hildenbrand * Copyright IBM Corp. 2003, 2016
6a555dc6bSDavid Hildenbrand * Author(s): Thomas Spatzier
7a555dc6bSDavid Hildenbrand * Jan Glauber
8a555dc6bSDavid Hildenbrand * Harald Freudenberger (freude@de.ibm.com)
9a555dc6bSDavid Hildenbrand * Martin Schwidefsky <schwidefsky@de.ibm.com>
10a555dc6bSDavid Hildenbrand */
11eb5a1bbaSCornelia Huck #ifndef _ASMS390X_CPACF_H_
12eb5a1bbaSCornelia Huck #define _ASMS390X_CPACF_H_
13a555dc6bSDavid Hildenbrand
14a555dc6bSDavid Hildenbrand #include <asm/facility.h>
15c2f4799aSClaudio Imbrenda #include <linux/compiler.h>
16a555dc6bSDavid Hildenbrand
17a555dc6bSDavid Hildenbrand /*
18a555dc6bSDavid Hildenbrand * Instruction opcodes for the CPACF instructions
19a555dc6bSDavid Hildenbrand */
20a555dc6bSDavid Hildenbrand #define CPACF_KMAC 0xb91e /* MSA */
21a555dc6bSDavid Hildenbrand #define CPACF_KM 0xb92e /* MSA */
22a555dc6bSDavid Hildenbrand #define CPACF_KMC 0xb92f /* MSA */
23a555dc6bSDavid Hildenbrand #define CPACF_KIMD 0xb93e /* MSA */
24a555dc6bSDavid Hildenbrand #define CPACF_KLMD 0xb93f /* MSA */
25a555dc6bSDavid Hildenbrand #define CPACF_PCKMO 0xb928 /* MSA3 */
26a555dc6bSDavid Hildenbrand #define CPACF_KMF 0xb92a /* MSA4 */
27a555dc6bSDavid Hildenbrand #define CPACF_KMO 0xb92b /* MSA4 */
28a555dc6bSDavid Hildenbrand #define CPACF_PCC 0xb92c /* MSA4 */
29a555dc6bSDavid Hildenbrand #define CPACF_KMCTR 0xb92d /* MSA4 */
30a555dc6bSDavid Hildenbrand #define CPACF_PRNO 0xb93c /* MSA5 */
31a555dc6bSDavid Hildenbrand #define CPACF_KMA 0xb929 /* MSA8 */
32a555dc6bSDavid Hildenbrand
33a555dc6bSDavid Hildenbrand /*
34a555dc6bSDavid Hildenbrand * En/decryption modifier bits
35a555dc6bSDavid Hildenbrand */
36a555dc6bSDavid Hildenbrand #define CPACF_ENCRYPT 0x00
37a555dc6bSDavid Hildenbrand #define CPACF_DECRYPT 0x80
38a555dc6bSDavid Hildenbrand
39a555dc6bSDavid Hildenbrand /*
40a555dc6bSDavid Hildenbrand * Function codes for the KM (CIPHER MESSAGE) instruction
41a555dc6bSDavid Hildenbrand */
42a555dc6bSDavid Hildenbrand #define CPACF_KM_QUERY 0x00
43a555dc6bSDavid Hildenbrand #define CPACF_KM_DEA 0x01
44a555dc6bSDavid Hildenbrand #define CPACF_KM_TDEA_128 0x02
45a555dc6bSDavid Hildenbrand #define CPACF_KM_TDEA_192 0x03
46a555dc6bSDavid Hildenbrand #define CPACF_KM_AES_128 0x12
47a555dc6bSDavid Hildenbrand #define CPACF_KM_AES_192 0x13
48a555dc6bSDavid Hildenbrand #define CPACF_KM_AES_256 0x14
49a555dc6bSDavid Hildenbrand #define CPACF_KM_PAES_128 0x1a
50a555dc6bSDavid Hildenbrand #define CPACF_KM_PAES_192 0x1b
51a555dc6bSDavid Hildenbrand #define CPACF_KM_PAES_256 0x1c
52a555dc6bSDavid Hildenbrand #define CPACF_KM_XTS_128 0x32
53a555dc6bSDavid Hildenbrand #define CPACF_KM_XTS_256 0x34
54a555dc6bSDavid Hildenbrand #define CPACF_KM_PXTS_128 0x3a
55a555dc6bSDavid Hildenbrand #define CPACF_KM_PXTS_256 0x3c
56a555dc6bSDavid Hildenbrand
57a555dc6bSDavid Hildenbrand /*
58a555dc6bSDavid Hildenbrand * Function codes for the KMC (CIPHER MESSAGE WITH CHAINING)
59a555dc6bSDavid Hildenbrand * instruction
60a555dc6bSDavid Hildenbrand */
61a555dc6bSDavid Hildenbrand #define CPACF_KMC_QUERY 0x00
62a555dc6bSDavid Hildenbrand #define CPACF_KMC_DEA 0x01
63a555dc6bSDavid Hildenbrand #define CPACF_KMC_TDEA_128 0x02
64a555dc6bSDavid Hildenbrand #define CPACF_KMC_TDEA_192 0x03
65a555dc6bSDavid Hildenbrand #define CPACF_KMC_AES_128 0x12
66a555dc6bSDavid Hildenbrand #define CPACF_KMC_AES_192 0x13
67a555dc6bSDavid Hildenbrand #define CPACF_KMC_AES_256 0x14
68a555dc6bSDavid Hildenbrand #define CPACF_KMC_PAES_128 0x1a
69a555dc6bSDavid Hildenbrand #define CPACF_KMC_PAES_192 0x1b
70a555dc6bSDavid Hildenbrand #define CPACF_KMC_PAES_256 0x1c
71a555dc6bSDavid Hildenbrand #define CPACF_KMC_PRNG 0x43
72a555dc6bSDavid Hildenbrand
73a555dc6bSDavid Hildenbrand /*
74a555dc6bSDavid Hildenbrand * Function codes for the KMCTR (CIPHER MESSAGE WITH COUNTER)
75a555dc6bSDavid Hildenbrand * instruction
76a555dc6bSDavid Hildenbrand */
77a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_QUERY 0x00
78a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_DEA 0x01
79a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_TDEA_128 0x02
80a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_TDEA_192 0x03
81a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_AES_128 0x12
82a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_AES_192 0x13
83a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_AES_256 0x14
84a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_PAES_128 0x1a
85a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_PAES_192 0x1b
86a555dc6bSDavid Hildenbrand #define CPACF_KMCTR_PAES_256 0x1c
87a555dc6bSDavid Hildenbrand
88a555dc6bSDavid Hildenbrand /*
89a555dc6bSDavid Hildenbrand * Function codes for the KIMD (COMPUTE INTERMEDIATE MESSAGE DIGEST)
90a555dc6bSDavid Hildenbrand * instruction
91a555dc6bSDavid Hildenbrand */
92a555dc6bSDavid Hildenbrand #define CPACF_KIMD_QUERY 0x00
93a555dc6bSDavid Hildenbrand #define CPACF_KIMD_SHA_1 0x01
94a555dc6bSDavid Hildenbrand #define CPACF_KIMD_SHA_256 0x02
95a555dc6bSDavid Hildenbrand #define CPACF_KIMD_SHA_512 0x03
96a555dc6bSDavid Hildenbrand #define CPACF_KIMD_GHASH 0x41
97a555dc6bSDavid Hildenbrand
98a555dc6bSDavid Hildenbrand /*
99a555dc6bSDavid Hildenbrand * Function codes for the KLMD (COMPUTE LAST MESSAGE DIGEST)
100a555dc6bSDavid Hildenbrand * instruction
101a555dc6bSDavid Hildenbrand */
102a555dc6bSDavid Hildenbrand #define CPACF_KLMD_QUERY 0x00
103a555dc6bSDavid Hildenbrand #define CPACF_KLMD_SHA_1 0x01
104a555dc6bSDavid Hildenbrand #define CPACF_KLMD_SHA_256 0x02
105a555dc6bSDavid Hildenbrand #define CPACF_KLMD_SHA_512 0x03
106a555dc6bSDavid Hildenbrand
107a555dc6bSDavid Hildenbrand /*
108a555dc6bSDavid Hildenbrand * function codes for the KMAC (COMPUTE MESSAGE AUTHENTICATION CODE)
109a555dc6bSDavid Hildenbrand * instruction
110a555dc6bSDavid Hildenbrand */
111a555dc6bSDavid Hildenbrand #define CPACF_KMAC_QUERY 0x00
112a555dc6bSDavid Hildenbrand #define CPACF_KMAC_DEA 0x01
113a555dc6bSDavid Hildenbrand #define CPACF_KMAC_TDEA_128 0x02
114a555dc6bSDavid Hildenbrand #define CPACF_KMAC_TDEA_192 0x03
115a555dc6bSDavid Hildenbrand
116a555dc6bSDavid Hildenbrand /*
117a555dc6bSDavid Hildenbrand * Function codes for the PCKMO (PERFORM CRYPTOGRAPHIC KEY MANAGEMENT)
118a555dc6bSDavid Hildenbrand * instruction
119a555dc6bSDavid Hildenbrand */
120a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_QUERY 0x00
121a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_ENC_DES_KEY 0x01
122a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_ENC_TDES_128_KEY 0x02
123a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_ENC_TDES_192_KEY 0x03
124a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_ENC_AES_128_KEY 0x12
125a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_ENC_AES_192_KEY 0x13
126a555dc6bSDavid Hildenbrand #define CPACF_PCKMO_ENC_AES_256_KEY 0x14
127a555dc6bSDavid Hildenbrand
128a555dc6bSDavid Hildenbrand /*
129a555dc6bSDavid Hildenbrand * Function codes for the PRNO (PERFORM RANDOM NUMBER OPERATION)
130a555dc6bSDavid Hildenbrand * instruction
131a555dc6bSDavid Hildenbrand */
132a555dc6bSDavid Hildenbrand #define CPACF_PRNO_QUERY 0x00
133a555dc6bSDavid Hildenbrand #define CPACF_PRNO_SHA512_DRNG_GEN 0x03
134a555dc6bSDavid Hildenbrand #define CPACF_PRNO_SHA512_DRNG_SEED 0x83
135a555dc6bSDavid Hildenbrand #define CPACF_PRNO_TRNG_Q_R2C_RATIO 0x70
136a555dc6bSDavid Hildenbrand #define CPACF_PRNO_TRNG 0x72
137a555dc6bSDavid Hildenbrand
138a555dc6bSDavid Hildenbrand typedef struct { unsigned char bytes[16]; } cpacf_mask_t;
139a555dc6bSDavid Hildenbrand
__cpacf_query_rre(u32 opc,u8 r1,u8 r2,cpacf_mask_t * mask)140*6b32c6d5SNina Schoetterl-Glausch static __always_inline void __cpacf_query_rre(u32 opc, u8 r1, u8 r2,
141*6b32c6d5SNina Schoetterl-Glausch cpacf_mask_t *mask)
142a555dc6bSDavid Hildenbrand {
143a555dc6bSDavid Hildenbrand asm volatile(
144*6b32c6d5SNina Schoetterl-Glausch " la %%r1,%[mask]\n"
145*6b32c6d5SNina Schoetterl-Glausch " xgr %%r0,%%r0\n"
146*6b32c6d5SNina Schoetterl-Glausch " .insn rre,%[opc] << 16,%[r1],%[r2]\n"
147*6b32c6d5SNina Schoetterl-Glausch : [mask] "=R" (*mask)
148*6b32c6d5SNina Schoetterl-Glausch : [opc] "i" (opc),
149*6b32c6d5SNina Schoetterl-Glausch [r1] "i" (r1), [r2] "i" (r2)
150*6b32c6d5SNina Schoetterl-Glausch : "cc", "r0", "r1");
151*6b32c6d5SNina Schoetterl-Glausch }
152*6b32c6d5SNina Schoetterl-Glausch
__cpacf_query_rrf(u32 opc,u8 r1,u8 r2,u8 r3,u8 m4,cpacf_mask_t * mask)153*6b32c6d5SNina Schoetterl-Glausch static __always_inline void __cpacf_query_rrf(u32 opc,
154*6b32c6d5SNina Schoetterl-Glausch u8 r1, u8 r2, u8 r3, u8 m4,
155*6b32c6d5SNina Schoetterl-Glausch cpacf_mask_t *mask)
156*6b32c6d5SNina Schoetterl-Glausch {
157*6b32c6d5SNina Schoetterl-Glausch asm volatile(
158*6b32c6d5SNina Schoetterl-Glausch " la %%r1,%[mask]\n"
159*6b32c6d5SNina Schoetterl-Glausch " xgr %%r0,%%r0\n"
160*6b32c6d5SNina Schoetterl-Glausch " .insn rrf,%[opc] << 16,%[r1],%[r2],%[r3],%[m4]\n"
161*6b32c6d5SNina Schoetterl-Glausch : [mask] "=R" (*mask)
162*6b32c6d5SNina Schoetterl-Glausch : [opc] "i" (opc), [r1] "i" (r1), [r2] "i" (r2),
163*6b32c6d5SNina Schoetterl-Glausch [r3] "i" (r3), [m4] "i" (m4)
164*6b32c6d5SNina Schoetterl-Glausch : "cc", "r0", "r1");
165*6b32c6d5SNina Schoetterl-Glausch }
166*6b32c6d5SNina Schoetterl-Glausch
__cpacf_query(unsigned int opcode,cpacf_mask_t * mask)167*6b32c6d5SNina Schoetterl-Glausch static __always_inline void __cpacf_query(unsigned int opcode,
168*6b32c6d5SNina Schoetterl-Glausch cpacf_mask_t *mask)
169*6b32c6d5SNina Schoetterl-Glausch {
170*6b32c6d5SNina Schoetterl-Glausch switch (opcode) {
171*6b32c6d5SNina Schoetterl-Glausch case CPACF_KIMD:
172*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KIMD, 0, 2, mask);
173*6b32c6d5SNina Schoetterl-Glausch break;
174*6b32c6d5SNina Schoetterl-Glausch case CPACF_KLMD:
175*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KLMD, 0, 2, mask);
176*6b32c6d5SNina Schoetterl-Glausch break;
177*6b32c6d5SNina Schoetterl-Glausch case CPACF_KM:
178*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KM, 2, 4, mask);
179*6b32c6d5SNina Schoetterl-Glausch break;
180*6b32c6d5SNina Schoetterl-Glausch case CPACF_KMA:
181*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rrf(CPACF_KMA, 2, 4, 6, 0, mask);
182*6b32c6d5SNina Schoetterl-Glausch break;
183*6b32c6d5SNina Schoetterl-Glausch case CPACF_KMAC:
184*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KMAC, 0, 2, mask);
185*6b32c6d5SNina Schoetterl-Glausch break;
186*6b32c6d5SNina Schoetterl-Glausch case CPACF_KMC:
187*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KMC, 2, 4, mask);
188*6b32c6d5SNina Schoetterl-Glausch break;
189*6b32c6d5SNina Schoetterl-Glausch case CPACF_KMCTR:
190*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rrf(CPACF_KMCTR, 2, 4, 6, 0, mask);
191*6b32c6d5SNina Schoetterl-Glausch break;
192*6b32c6d5SNina Schoetterl-Glausch case CPACF_KMF:
193*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KMF, 2, 4, mask);
194*6b32c6d5SNina Schoetterl-Glausch break;
195*6b32c6d5SNina Schoetterl-Glausch case CPACF_KMO:
196*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_KMO, 2, 4, mask);
197*6b32c6d5SNina Schoetterl-Glausch break;
198*6b32c6d5SNina Schoetterl-Glausch case CPACF_PCC:
199*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_PCC, 0, 0, mask);
200*6b32c6d5SNina Schoetterl-Glausch break;
201*6b32c6d5SNina Schoetterl-Glausch case CPACF_PCKMO:
202*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_PCKMO, 0, 0, mask);
203*6b32c6d5SNina Schoetterl-Glausch break;
204*6b32c6d5SNina Schoetterl-Glausch case CPACF_PRNO:
205*6b32c6d5SNina Schoetterl-Glausch __cpacf_query_rre(CPACF_PRNO, 2, 4, mask);
206*6b32c6d5SNina Schoetterl-Glausch break;
207*6b32c6d5SNina Schoetterl-Glausch default:
208*6b32c6d5SNina Schoetterl-Glausch asm volatile(".error \"bad opcode\"");
209*6b32c6d5SNina Schoetterl-Glausch }
210a555dc6bSDavid Hildenbrand }
211a555dc6bSDavid Hildenbrand
__cpacf_check_opcode(unsigned int opcode)212a555dc6bSDavid Hildenbrand static inline int __cpacf_check_opcode(unsigned int opcode)
213a555dc6bSDavid Hildenbrand {
214a555dc6bSDavid Hildenbrand switch (opcode) {
215a555dc6bSDavid Hildenbrand case CPACF_KMAC:
216a555dc6bSDavid Hildenbrand case CPACF_KM:
217a555dc6bSDavid Hildenbrand case CPACF_KMC:
218a555dc6bSDavid Hildenbrand case CPACF_KIMD:
219a555dc6bSDavid Hildenbrand case CPACF_KLMD:
220a555dc6bSDavid Hildenbrand return test_facility(17); /* check for MSA */
221a555dc6bSDavid Hildenbrand case CPACF_PCKMO:
222a555dc6bSDavid Hildenbrand return test_facility(76); /* check for MSA3 */
223a555dc6bSDavid Hildenbrand case CPACF_KMF:
224a555dc6bSDavid Hildenbrand case CPACF_KMO:
225a555dc6bSDavid Hildenbrand case CPACF_PCC:
226a555dc6bSDavid Hildenbrand case CPACF_KMCTR:
227a555dc6bSDavid Hildenbrand return test_facility(77); /* check for MSA4 */
228a555dc6bSDavid Hildenbrand case CPACF_PRNO:
229a555dc6bSDavid Hildenbrand return test_facility(57); /* check for MSA5 */
230a555dc6bSDavid Hildenbrand default:
231f1bcb0a3SDavid Hildenbrand return 0;
232a555dc6bSDavid Hildenbrand }
233a555dc6bSDavid Hildenbrand }
234a555dc6bSDavid Hildenbrand
cpacf_query(unsigned int opcode,cpacf_mask_t * mask)235c2f4799aSClaudio Imbrenda static __always_inline int cpacf_query(unsigned int opcode, cpacf_mask_t *mask)
236a555dc6bSDavid Hildenbrand {
237a555dc6bSDavid Hildenbrand if (__cpacf_check_opcode(opcode)) {
238a555dc6bSDavid Hildenbrand __cpacf_query(opcode, mask);
239a555dc6bSDavid Hildenbrand return 1;
240a555dc6bSDavid Hildenbrand }
241a555dc6bSDavid Hildenbrand memset(mask, 0, sizeof(*mask));
242a555dc6bSDavid Hildenbrand return 0;
243a555dc6bSDavid Hildenbrand }
244a555dc6bSDavid Hildenbrand
cpacf_test_func(cpacf_mask_t * mask,unsigned int func)245a555dc6bSDavid Hildenbrand static inline int cpacf_test_func(cpacf_mask_t *mask, unsigned int func)
246a555dc6bSDavid Hildenbrand {
247a555dc6bSDavid Hildenbrand return (mask->bytes[func >> 3] & (0x80 >> (func & 7))) != 0;
248a555dc6bSDavid Hildenbrand }
249a555dc6bSDavid Hildenbrand
25030f9c804SNico Boehr /**
25130f9c804SNico Boehr * cpacf_query_func() - check if a specific CPACF function is available
25230f9c804SNico Boehr * @opcode: the opcode of the crypto instruction
25330f9c804SNico Boehr * @func: the function code to test for
25430f9c804SNico Boehr *
25530f9c804SNico Boehr * Executes the query function for the given crypto instruction @opcode
25630f9c804SNico Boehr * and checks if @func is available
25730f9c804SNico Boehr *
25830f9c804SNico Boehr * Returns 1 if @func is available for @opcode, 0 otherwise
25930f9c804SNico Boehr */
cpacf_query_func(unsigned int opcode,unsigned int func)260a555dc6bSDavid Hildenbrand static inline int cpacf_query_func(unsigned int opcode, unsigned int func)
261a555dc6bSDavid Hildenbrand {
262a555dc6bSDavid Hildenbrand cpacf_mask_t mask;
263a555dc6bSDavid Hildenbrand
264a555dc6bSDavid Hildenbrand if (cpacf_query(opcode, &mask))
265a555dc6bSDavid Hildenbrand return cpacf_test_func(&mask, func);
266a555dc6bSDavid Hildenbrand return 0;
267a555dc6bSDavid Hildenbrand }
268a555dc6bSDavid Hildenbrand
269a555dc6bSDavid Hildenbrand /**
270a555dc6bSDavid Hildenbrand * cpacf_km() - executes the KM (CIPHER MESSAGE) instruction
271a555dc6bSDavid Hildenbrand * @func: the function code passed to KM; see CPACF_KM_xxx defines
272a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
273a555dc6bSDavid Hildenbrand * @dest: address of destination memory area
274a555dc6bSDavid Hildenbrand * @src: address of source memory area
275a555dc6bSDavid Hildenbrand * @src_len: length of src operand in bytes
276a555dc6bSDavid Hildenbrand *
277a555dc6bSDavid Hildenbrand * Returns 0 for the query func, number of processed bytes for
278a555dc6bSDavid Hildenbrand * encryption/decryption funcs
279a555dc6bSDavid Hildenbrand */
cpacf_km(unsigned long func,void * param,u8 * dest,const u8 * src,long src_len)280a555dc6bSDavid Hildenbrand static inline int cpacf_km(unsigned long func, void *param,
281a555dc6bSDavid Hildenbrand u8 *dest, const u8 *src, long src_len)
282a555dc6bSDavid Hildenbrand {
283a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
284a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
285a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) src;
286a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) src_len;
287a555dc6bSDavid Hildenbrand register unsigned long r4 asm("4") = (unsigned long) dest;
288a555dc6bSDavid Hildenbrand
289a555dc6bSDavid Hildenbrand asm volatile(
290a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,%[dst],%[src]\n"
291a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
292a555dc6bSDavid Hildenbrand : [src] "+a" (r2), [len] "+d" (r3), [dst] "+a" (r4)
293a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_KM)
294a555dc6bSDavid Hildenbrand : "cc", "memory");
295a555dc6bSDavid Hildenbrand
296a555dc6bSDavid Hildenbrand return src_len - r3;
297a555dc6bSDavid Hildenbrand }
298a555dc6bSDavid Hildenbrand
299a555dc6bSDavid Hildenbrand /**
300a555dc6bSDavid Hildenbrand * cpacf_kmc() - executes the KMC (CIPHER MESSAGE WITH CHAINING) instruction
301a555dc6bSDavid Hildenbrand * @func: the function code passed to KM; see CPACF_KMC_xxx defines
302a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
303a555dc6bSDavid Hildenbrand * @dest: address of destination memory area
304a555dc6bSDavid Hildenbrand * @src: address of source memory area
305a555dc6bSDavid Hildenbrand * @src_len: length of src operand in bytes
306a555dc6bSDavid Hildenbrand *
307a555dc6bSDavid Hildenbrand * Returns 0 for the query func, number of processed bytes for
308a555dc6bSDavid Hildenbrand * encryption/decryption funcs
309a555dc6bSDavid Hildenbrand */
cpacf_kmc(unsigned long func,void * param,u8 * dest,const u8 * src,long src_len)310a555dc6bSDavid Hildenbrand static inline int cpacf_kmc(unsigned long func, void *param,
311a555dc6bSDavid Hildenbrand u8 *dest, const u8 *src, long src_len)
312a555dc6bSDavid Hildenbrand {
313a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
314a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
315a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) src;
316a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) src_len;
317a555dc6bSDavid Hildenbrand register unsigned long r4 asm("4") = (unsigned long) dest;
318a555dc6bSDavid Hildenbrand
319a555dc6bSDavid Hildenbrand asm volatile(
320a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,%[dst],%[src]\n"
321a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
322a555dc6bSDavid Hildenbrand : [src] "+a" (r2), [len] "+d" (r3), [dst] "+a" (r4)
323a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_KMC)
324a555dc6bSDavid Hildenbrand : "cc", "memory");
325a555dc6bSDavid Hildenbrand
326a555dc6bSDavid Hildenbrand return src_len - r3;
327a555dc6bSDavid Hildenbrand }
328a555dc6bSDavid Hildenbrand
329a555dc6bSDavid Hildenbrand /**
330a555dc6bSDavid Hildenbrand * cpacf_kimd() - executes the KIMD (COMPUTE INTERMEDIATE MESSAGE DIGEST)
331a555dc6bSDavid Hildenbrand * instruction
332a555dc6bSDavid Hildenbrand * @func: the function code passed to KM; see CPACF_KIMD_xxx defines
333a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
334a555dc6bSDavid Hildenbrand * @src: address of source memory area
335a555dc6bSDavid Hildenbrand * @src_len: length of src operand in bytes
336a555dc6bSDavid Hildenbrand */
cpacf_kimd(unsigned long func,void * param,const u8 * src,long src_len)337a555dc6bSDavid Hildenbrand static inline void cpacf_kimd(unsigned long func, void *param,
338a555dc6bSDavid Hildenbrand const u8 *src, long src_len)
339a555dc6bSDavid Hildenbrand {
340a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
341a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
342a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) src;
343a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) src_len;
344a555dc6bSDavid Hildenbrand
345a555dc6bSDavid Hildenbrand asm volatile(
346a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,0,%[src]\n"
347a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
348a555dc6bSDavid Hildenbrand : [src] "+a" (r2), [len] "+d" (r3)
349a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_KIMD)
350a555dc6bSDavid Hildenbrand : "cc", "memory");
351a555dc6bSDavid Hildenbrand }
352a555dc6bSDavid Hildenbrand
353a555dc6bSDavid Hildenbrand /**
354a555dc6bSDavid Hildenbrand * cpacf_klmd() - executes the KLMD (COMPUTE LAST MESSAGE DIGEST) instruction
355a555dc6bSDavid Hildenbrand * @func: the function code passed to KM; see CPACF_KLMD_xxx defines
356a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
357a555dc6bSDavid Hildenbrand * @src: address of source memory area
358a555dc6bSDavid Hildenbrand * @src_len: length of src operand in bytes
359a555dc6bSDavid Hildenbrand */
cpacf_klmd(unsigned long func,void * param,const u8 * src,long src_len)360a555dc6bSDavid Hildenbrand static inline void cpacf_klmd(unsigned long func, void *param,
361a555dc6bSDavid Hildenbrand const u8 *src, long src_len)
362a555dc6bSDavid Hildenbrand {
363a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
364a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
365a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) src;
366a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) src_len;
367a555dc6bSDavid Hildenbrand
368a555dc6bSDavid Hildenbrand asm volatile(
369a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,0,%[src]\n"
370a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
371a555dc6bSDavid Hildenbrand : [src] "+a" (r2), [len] "+d" (r3)
372a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_KLMD)
373a555dc6bSDavid Hildenbrand : "cc", "memory");
374a555dc6bSDavid Hildenbrand }
375a555dc6bSDavid Hildenbrand
376a555dc6bSDavid Hildenbrand /**
377a555dc6bSDavid Hildenbrand * cpacf_kmac() - executes the KMAC (COMPUTE MESSAGE AUTHENTICATION CODE)
378a555dc6bSDavid Hildenbrand * instruction
379a555dc6bSDavid Hildenbrand * @func: the function code passed to KM; see CPACF_KMAC_xxx defines
380a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
381a555dc6bSDavid Hildenbrand * @src: address of source memory area
382a555dc6bSDavid Hildenbrand * @src_len: length of src operand in bytes
383a555dc6bSDavid Hildenbrand *
384a555dc6bSDavid Hildenbrand * Returns 0 for the query func, number of processed bytes for digest funcs
385a555dc6bSDavid Hildenbrand */
cpacf_kmac(unsigned long func,void * param,const u8 * src,long src_len)386a555dc6bSDavid Hildenbrand static inline int cpacf_kmac(unsigned long func, void *param,
387a555dc6bSDavid Hildenbrand const u8 *src, long src_len)
388a555dc6bSDavid Hildenbrand {
389a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
390a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
391a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) src;
392a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) src_len;
393a555dc6bSDavid Hildenbrand
394a555dc6bSDavid Hildenbrand asm volatile(
395a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,0,%[src]\n"
396a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
397a555dc6bSDavid Hildenbrand : [src] "+a" (r2), [len] "+d" (r3)
398a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_KMAC)
399a555dc6bSDavid Hildenbrand : "cc", "memory");
400a555dc6bSDavid Hildenbrand
401a555dc6bSDavid Hildenbrand return src_len - r3;
402a555dc6bSDavid Hildenbrand }
403a555dc6bSDavid Hildenbrand
404a555dc6bSDavid Hildenbrand /**
405a555dc6bSDavid Hildenbrand * cpacf_kmctr() - executes the KMCTR (CIPHER MESSAGE WITH COUNTER) instruction
406a555dc6bSDavid Hildenbrand * @func: the function code passed to KMCTR; see CPACF_KMCTR_xxx defines
407a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
408a555dc6bSDavid Hildenbrand * @dest: address of destination memory area
409a555dc6bSDavid Hildenbrand * @src: address of source memory area
410a555dc6bSDavid Hildenbrand * @src_len: length of src operand in bytes
411a555dc6bSDavid Hildenbrand * @counter: address of counter value
412a555dc6bSDavid Hildenbrand *
413a555dc6bSDavid Hildenbrand * Returns 0 for the query func, number of processed bytes for
414a555dc6bSDavid Hildenbrand * encryption/decryption funcs
415a555dc6bSDavid Hildenbrand */
cpacf_kmctr(unsigned long func,void * param,u8 * dest,const u8 * src,long src_len,u8 * counter)416a555dc6bSDavid Hildenbrand static inline int cpacf_kmctr(unsigned long func, void *param, u8 *dest,
417a555dc6bSDavid Hildenbrand const u8 *src, long src_len, u8 *counter)
418a555dc6bSDavid Hildenbrand {
419a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
420a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
421a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) src;
422a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) src_len;
423a555dc6bSDavid Hildenbrand register unsigned long r4 asm("4") = (unsigned long) dest;
424a555dc6bSDavid Hildenbrand register unsigned long r6 asm("6") = (unsigned long) counter;
425a555dc6bSDavid Hildenbrand
426a555dc6bSDavid Hildenbrand asm volatile(
427a555dc6bSDavid Hildenbrand "0: .insn rrf,%[opc] << 16,%[dst],%[src],%[ctr],0\n"
428a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
429a555dc6bSDavid Hildenbrand : [src] "+a" (r2), [len] "+d" (r3),
430a555dc6bSDavid Hildenbrand [dst] "+a" (r4), [ctr] "+a" (r6)
431a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_KMCTR)
432a555dc6bSDavid Hildenbrand : "cc", "memory");
433a555dc6bSDavid Hildenbrand
434a555dc6bSDavid Hildenbrand return src_len - r3;
435a555dc6bSDavid Hildenbrand }
436a555dc6bSDavid Hildenbrand
437a555dc6bSDavid Hildenbrand /**
438a555dc6bSDavid Hildenbrand * cpacf_prno() - executes the PRNO (PERFORM RANDOM NUMBER OPERATION)
439a555dc6bSDavid Hildenbrand * instruction
440a555dc6bSDavid Hildenbrand * @func: the function code passed to PRNO; see CPACF_PRNO_xxx defines
441a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
442a555dc6bSDavid Hildenbrand * @dest: address of destination memory area
443a555dc6bSDavid Hildenbrand * @dest_len: size of destination memory area in bytes
444a555dc6bSDavid Hildenbrand * @seed: address of seed data
445a555dc6bSDavid Hildenbrand * @seed_len: size of seed data in bytes
446a555dc6bSDavid Hildenbrand */
cpacf_prno(unsigned long func,void * param,u8 * dest,unsigned long dest_len,const u8 * seed,unsigned long seed_len)447a555dc6bSDavid Hildenbrand static inline void cpacf_prno(unsigned long func, void *param,
448a555dc6bSDavid Hildenbrand u8 *dest, unsigned long dest_len,
449a555dc6bSDavid Hildenbrand const u8 *seed, unsigned long seed_len)
450a555dc6bSDavid Hildenbrand {
451a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
452a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
453a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) dest;
454a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) dest_len;
455a555dc6bSDavid Hildenbrand register unsigned long r4 asm("4") = (unsigned long) seed;
456a555dc6bSDavid Hildenbrand register unsigned long r5 asm("5") = (unsigned long) seed_len;
457a555dc6bSDavid Hildenbrand
458a555dc6bSDavid Hildenbrand asm volatile (
459a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,%[dst],%[seed]\n"
460a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
461a555dc6bSDavid Hildenbrand : [dst] "+a" (r2), [dlen] "+d" (r3)
462a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1),
463a555dc6bSDavid Hildenbrand [seed] "a" (r4), [slen] "d" (r5), [opc] "i" (CPACF_PRNO)
464a555dc6bSDavid Hildenbrand : "cc", "memory");
465a555dc6bSDavid Hildenbrand }
466a555dc6bSDavid Hildenbrand
467a555dc6bSDavid Hildenbrand /**
468a555dc6bSDavid Hildenbrand * cpacf_trng() - executes the TRNG subfunction of the PRNO instruction
469a555dc6bSDavid Hildenbrand * @ucbuf: buffer for unconditioned data
470a555dc6bSDavid Hildenbrand * @ucbuf_len: amount of unconditioned data to fetch in bytes
471a555dc6bSDavid Hildenbrand * @cbuf: buffer for conditioned data
472a555dc6bSDavid Hildenbrand * @cbuf_len: amount of conditioned data to fetch in bytes
473a555dc6bSDavid Hildenbrand */
cpacf_trng(u8 * ucbuf,unsigned long ucbuf_len,u8 * cbuf,unsigned long cbuf_len)474a555dc6bSDavid Hildenbrand static inline void cpacf_trng(u8 *ucbuf, unsigned long ucbuf_len,
475a555dc6bSDavid Hildenbrand u8 *cbuf, unsigned long cbuf_len)
476a555dc6bSDavid Hildenbrand {
477a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) CPACF_PRNO_TRNG;
478a555dc6bSDavid Hildenbrand register unsigned long r2 asm("2") = (unsigned long) ucbuf;
479a555dc6bSDavid Hildenbrand register unsigned long r3 asm("3") = (unsigned long) ucbuf_len;
480a555dc6bSDavid Hildenbrand register unsigned long r4 asm("4") = (unsigned long) cbuf;
481a555dc6bSDavid Hildenbrand register unsigned long r5 asm("5") = (unsigned long) cbuf_len;
482a555dc6bSDavid Hildenbrand
483a555dc6bSDavid Hildenbrand asm volatile (
484a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,%[ucbuf],%[cbuf]\n"
485a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
486a555dc6bSDavid Hildenbrand : [ucbuf] "+a" (r2), [ucbuflen] "+d" (r3),
487a555dc6bSDavid Hildenbrand [cbuf] "+a" (r4), [cbuflen] "+d" (r5)
488a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [opc] "i" (CPACF_PRNO)
489a555dc6bSDavid Hildenbrand : "cc", "memory");
490a555dc6bSDavid Hildenbrand }
491a555dc6bSDavid Hildenbrand
492a555dc6bSDavid Hildenbrand /**
493a555dc6bSDavid Hildenbrand * cpacf_pcc() - executes the PCC (PERFORM CRYPTOGRAPHIC COMPUTATION)
494a555dc6bSDavid Hildenbrand * instruction
495a555dc6bSDavid Hildenbrand * @func: the function code passed to PCC; see CPACF_KM_xxx defines
496a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
497a555dc6bSDavid Hildenbrand */
cpacf_pcc(unsigned long func,void * param)498a555dc6bSDavid Hildenbrand static inline void cpacf_pcc(unsigned long func, void *param)
499a555dc6bSDavid Hildenbrand {
500a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
501a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
502a555dc6bSDavid Hildenbrand
503a555dc6bSDavid Hildenbrand asm volatile(
504a555dc6bSDavid Hildenbrand "0: .insn rre,%[opc] << 16,0,0\n" /* PCC opcode */
505a555dc6bSDavid Hildenbrand " brc 1,0b\n" /* handle partial completion */
506a555dc6bSDavid Hildenbrand :
507a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_PCC)
508a555dc6bSDavid Hildenbrand : "cc", "memory");
509a555dc6bSDavid Hildenbrand }
510a555dc6bSDavid Hildenbrand
511a555dc6bSDavid Hildenbrand /**
512a555dc6bSDavid Hildenbrand * cpacf_pckmo() - executes the PCKMO (PERFORM CRYPTOGRAPHIC KEY
513a555dc6bSDavid Hildenbrand * MANAGEMENT) instruction
514a555dc6bSDavid Hildenbrand * @func: the function code passed to PCKMO; see CPACF_PCKMO_xxx defines
515a555dc6bSDavid Hildenbrand * @param: address of parameter block; see POP for details on each func
516a555dc6bSDavid Hildenbrand *
517a555dc6bSDavid Hildenbrand * Returns 0.
518a555dc6bSDavid Hildenbrand */
cpacf_pckmo(long func,void * param)519a555dc6bSDavid Hildenbrand static inline void cpacf_pckmo(long func, void *param)
520a555dc6bSDavid Hildenbrand {
521a555dc6bSDavid Hildenbrand register unsigned long r0 asm("0") = (unsigned long) func;
522a555dc6bSDavid Hildenbrand register unsigned long r1 asm("1") = (unsigned long) param;
523a555dc6bSDavid Hildenbrand
524a555dc6bSDavid Hildenbrand asm volatile(
525a555dc6bSDavid Hildenbrand " .insn rre,%[opc] << 16,0,0\n" /* PCKMO opcode */
526a555dc6bSDavid Hildenbrand :
527a555dc6bSDavid Hildenbrand : [fc] "d" (r0), [pba] "a" (r1), [opc] "i" (CPACF_PCKMO)
528a555dc6bSDavid Hildenbrand : "cc", "memory");
529a555dc6bSDavid Hildenbrand }
530a555dc6bSDavid Hildenbrand
531eb5a1bbaSCornelia Huck #endif /* _ASMS390X_CPACF_H_ */
532