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1 // SPDX-License-Identifier: GPL-2.0+
2 /*
3  * Copyright 2014, Staubli Faverges
4  * Pierre Aubert
5  *
6  * eMMC- Replay Protected Memory Block
7  * According to JEDEC Standard No. 84-A441
8  */
9 
10 #include <config.h>
11 #include <common.h>
12 #include <memalign.h>
13 #include <mmc.h>
14 #include <u-boot/sha256.h>
15 #include "mmc_private.h"
16 
17 /* Request codes */
18 #define RPMB_REQ_KEY		1
19 #define RPMB_REQ_WCOUNTER	2
20 #define RPMB_REQ_WRITE_DATA	3
21 #define RPMB_REQ_READ_DATA	4
22 #define RPMB_REQ_STATUS		5
23 
24 /* Response code */
25 #define RPMB_RESP_KEY		0x0100
26 #define RPMB_RESP_WCOUNTER	0x0200
27 #define RPMB_RESP_WRITE_DATA	0x0300
28 #define RPMB_RESP_READ_DATA	0x0400
29 
30 /* Error codes */
31 #define RPMB_OK			0
32 #define RPMB_ERR_GENERAL	1
33 #define RPMB_ERR_AUTH	2
34 #define RPMB_ERR_COUNTER	3
35 #define RPMB_ERR_ADDRESS	4
36 #define RPMB_ERR_WRITE		5
37 #define RPMB_ERR_READ		6
38 #define RPMB_ERR_KEY		7
39 #define RPMB_ERR_CNT_EXPIRED	0x80
40 #define RPMB_ERR_MSK		0x7
41 
42 /* Sizes of RPMB data frame */
43 #define RPMB_SZ_STUFF		196
44 #define RPMB_SZ_MAC		32
45 #define RPMB_SZ_DATA		256
46 #define RPMB_SZ_NONCE		16
47 
48 #define SHA256_BLOCK_SIZE	64
49 
50 /* Error messages */
51 static const char * const rpmb_err_msg[] = {
52 	"",
53 	"General failure",
54 	"Authentication failure",
55 	"Counter failure",
56 	"Address failure",
57 	"Write failure",
58 	"Read failure",
59 	"Authentication key not yet programmed",
60 };
61 
62 
63 /* Structure of RPMB data frame. */
64 struct s_rpmb {
65 	unsigned char stuff[RPMB_SZ_STUFF];
66 	unsigned char mac[RPMB_SZ_MAC];
67 	unsigned char data[RPMB_SZ_DATA];
68 	unsigned char nonce[RPMB_SZ_NONCE];
69 	unsigned int write_counter;
70 	unsigned short address;
71 	unsigned short block_count;
72 	unsigned short result;
73 	unsigned short request;
74 };
75 
mmc_set_blockcount(struct mmc * mmc,unsigned int blockcount,bool is_rel_write)76 static int mmc_set_blockcount(struct mmc *mmc, unsigned int blockcount,
77 			      bool is_rel_write)
78 {
79 	struct mmc_cmd cmd = {0};
80 
81 	cmd.cmdidx = MMC_CMD_SET_BLOCK_COUNT;
82 	cmd.cmdarg = blockcount & 0x0000FFFF;
83 	if (is_rel_write)
84 		cmd.cmdarg |= 1 << 31;
85 	cmd.resp_type = MMC_RSP_R1;
86 
87 	return mmc_send_cmd(mmc, &cmd, NULL);
88 }
mmc_rpmb_request(struct mmc * mmc,const struct s_rpmb * s,unsigned int count,bool is_rel_write)89 static int mmc_rpmb_request(struct mmc *mmc, const struct s_rpmb *s,
90 			    unsigned int count, bool is_rel_write)
91 {
92 	struct mmc_cmd cmd = {0};
93 	struct mmc_data data;
94 	int ret;
95 
96 	ret = mmc_set_blockcount(mmc, count, is_rel_write);
97 	if (ret) {
98 #ifdef CONFIG_MMC_RPMB_TRACE
99 		printf("%s:mmc_set_blockcount-> %d\n", __func__, ret);
100 #endif
101 		return 1;
102 	}
103 
104 	cmd.cmdidx = MMC_CMD_WRITE_MULTIPLE_BLOCK;
105 	cmd.cmdarg = 0;
106 	cmd.resp_type = MMC_RSP_R1b;
107 
108 	data.src = (const char *)s;
109 	data.blocks = 1;
110 	data.blocksize = MMC_MAX_BLOCK_LEN;
111 	data.flags = MMC_DATA_WRITE;
112 
113 	ret = mmc_send_cmd(mmc, &cmd, &data);
114 	if (ret) {
115 #ifdef CONFIG_MMC_RPMB_TRACE
116 		printf("%s:mmc_send_cmd-> %d\n", __func__, ret);
117 #endif
118 		return 1;
119 	}
120 	return 0;
121 }
mmc_rpmb_response(struct mmc * mmc,struct s_rpmb * s,unsigned short expected)122 static int mmc_rpmb_response(struct mmc *mmc, struct s_rpmb *s,
123 			     unsigned short expected)
124 {
125 	struct mmc_cmd cmd = {0};
126 	struct mmc_data data;
127 	int ret;
128 
129 	ret = mmc_set_blockcount(mmc, 1, false);
130 	if (ret) {
131 #ifdef CONFIG_MMC_RPMB_TRACE
132 		printf("%s:mmc_set_blockcount-> %d\n", __func__, ret);
133 #endif
134 		return -1;
135 	}
136 	cmd.cmdidx = MMC_CMD_READ_MULTIPLE_BLOCK;
137 	cmd.cmdarg = 0;
138 	cmd.resp_type = MMC_RSP_R1;
139 
140 	data.dest = (char *)s;
141 	data.blocks = 1;
142 	data.blocksize = MMC_MAX_BLOCK_LEN;
143 	data.flags = MMC_DATA_READ;
144 
145 	ret = mmc_send_cmd(mmc, &cmd, &data);
146 	if (ret) {
147 #ifdef CONFIG_MMC_RPMB_TRACE
148 		printf("%s:mmc_send_cmd-> %d\n", __func__, ret);
149 #endif
150 		return -1;
151 	}
152 	/* Check the response and the status */
153 	if (be16_to_cpu(s->request) != expected) {
154 #ifdef CONFIG_MMC_RPMB_TRACE
155 		printf("%s:response= %x\n", __func__,
156 		       be16_to_cpu(s->request));
157 #endif
158 		return -1;
159 	}
160 	ret = be16_to_cpu(s->result);
161 	if (ret) {
162 		printf("%s %s\n", rpmb_err_msg[ret & RPMB_ERR_MSK],
163 		       (ret & RPMB_ERR_CNT_EXPIRED) ?
164 		       "Write counter has expired" : "");
165 	}
166 
167 	/* Return the status of the command */
168 	return ret;
169 }
mmc_rpmb_status(struct mmc * mmc,unsigned short expected)170 static int mmc_rpmb_status(struct mmc *mmc, unsigned short expected)
171 {
172 	ALLOC_CACHE_ALIGN_BUFFER(struct s_rpmb, rpmb_frame, 1);
173 
174 	memset(rpmb_frame, 0, sizeof(struct s_rpmb));
175 	rpmb_frame->request = cpu_to_be16(RPMB_REQ_STATUS);
176 	if (mmc_rpmb_request(mmc, rpmb_frame, 1, false))
177 		return -1;
178 
179 	/* Read the result */
180 	return mmc_rpmb_response(mmc, rpmb_frame, expected);
181 }
rpmb_hmac(unsigned char * key,unsigned char * buff,int len,unsigned char * output)182 static void rpmb_hmac(unsigned char *key, unsigned char *buff, int len,
183 		      unsigned char *output)
184 {
185 	sha256_context ctx;
186 	int i;
187 	unsigned char k_ipad[SHA256_BLOCK_SIZE];
188 	unsigned char k_opad[SHA256_BLOCK_SIZE];
189 
190 	sha256_starts(&ctx);
191 
192 	/* According to RFC 4634, the HMAC transform looks like:
193 	   SHA(K XOR opad, SHA(K XOR ipad, text))
194 
195 	   where K is an n byte key.
196 	   ipad is the byte 0x36 repeated blocksize times
197 	   opad is the byte 0x5c repeated blocksize times
198 	   and text is the data being protected.
199 	*/
200 
201 	for (i = 0; i < RPMB_SZ_MAC; i++) {
202 		k_ipad[i] = key[i] ^ 0x36;
203 		k_opad[i] = key[i] ^ 0x5c;
204 	}
205 	/* remaining pad bytes are '\0' XOR'd with ipad and opad values */
206 	for ( ; i < SHA256_BLOCK_SIZE; i++) {
207 		k_ipad[i] = 0x36;
208 		k_opad[i] = 0x5c;
209 	}
210 	sha256_update(&ctx, k_ipad, SHA256_BLOCK_SIZE);
211 	sha256_update(&ctx, buff, len);
212 	sha256_finish(&ctx, output);
213 
214 	/* Init context for second pass */
215 	sha256_starts(&ctx);
216 
217 	/* start with outer pad */
218 	sha256_update(&ctx, k_opad, SHA256_BLOCK_SIZE);
219 
220 	/* then results of 1st hash */
221 	sha256_update(&ctx, output, RPMB_SZ_MAC);
222 
223 	/* finish up 2nd pass */
224 	sha256_finish(&ctx, output);
225 }
mmc_rpmb_get_counter(struct mmc * mmc,unsigned long * pcounter)226 int mmc_rpmb_get_counter(struct mmc *mmc, unsigned long *pcounter)
227 {
228 	int ret;
229 	ALLOC_CACHE_ALIGN_BUFFER(struct s_rpmb, rpmb_frame, 1);
230 
231 	/* Fill the request */
232 	memset(rpmb_frame, 0, sizeof(struct s_rpmb));
233 	rpmb_frame->request = cpu_to_be16(RPMB_REQ_WCOUNTER);
234 	if (mmc_rpmb_request(mmc, rpmb_frame, 1, false))
235 		return -1;
236 
237 	/* Read the result */
238 	ret = mmc_rpmb_response(mmc, rpmb_frame, RPMB_RESP_WCOUNTER);
239 	if (ret)
240 		return ret;
241 
242 	*pcounter = be32_to_cpu(rpmb_frame->write_counter);
243 	return 0;
244 }
mmc_rpmb_set_key(struct mmc * mmc,void * key)245 int mmc_rpmb_set_key(struct mmc *mmc, void *key)
246 {
247 	ALLOC_CACHE_ALIGN_BUFFER(struct s_rpmb, rpmb_frame, 1);
248 	/* Fill the request */
249 	memset(rpmb_frame, 0, sizeof(struct s_rpmb));
250 	rpmb_frame->request = cpu_to_be16(RPMB_REQ_KEY);
251 	memcpy(rpmb_frame->mac, key, RPMB_SZ_MAC);
252 
253 	if (mmc_rpmb_request(mmc, rpmb_frame, 1, true))
254 		return -1;
255 
256 	/* read the operation status */
257 	return mmc_rpmb_status(mmc, RPMB_RESP_KEY);
258 }
mmc_rpmb_read(struct mmc * mmc,void * addr,unsigned short blk,unsigned short cnt,unsigned char * key)259 int mmc_rpmb_read(struct mmc *mmc, void *addr, unsigned short blk,
260 		  unsigned short cnt, unsigned char *key)
261 {
262 	ALLOC_CACHE_ALIGN_BUFFER(struct s_rpmb, rpmb_frame, 1);
263 	int i;
264 
265 	for (i = 0; i < cnt; i++) {
266 		/* Fill the request */
267 		memset(rpmb_frame, 0, sizeof(struct s_rpmb));
268 		rpmb_frame->address = cpu_to_be16(blk + i);
269 		rpmb_frame->request = cpu_to_be16(RPMB_REQ_READ_DATA);
270 		if (mmc_rpmb_request(mmc, rpmb_frame, 1, false))
271 			break;
272 
273 		/* Read the result */
274 		if (mmc_rpmb_response(mmc, rpmb_frame, RPMB_RESP_READ_DATA))
275 			break;
276 
277 		/* Check the HMAC if key is provided */
278 		if (key) {
279 			unsigned char ret_hmac[RPMB_SZ_MAC];
280 
281 			rpmb_hmac(key, rpmb_frame->data, 284, ret_hmac);
282 			if (memcmp(ret_hmac, rpmb_frame->mac, RPMB_SZ_MAC)) {
283 				printf("MAC error on block #%d\n", i);
284 				break;
285 			}
286 		}
287 		/* Copy data */
288 		memcpy(addr + i * RPMB_SZ_DATA, rpmb_frame->data, RPMB_SZ_DATA);
289 	}
290 	return i;
291 }
mmc_rpmb_write(struct mmc * mmc,void * addr,unsigned short blk,unsigned short cnt,unsigned char * key)292 int mmc_rpmb_write(struct mmc *mmc, void *addr, unsigned short blk,
293 		  unsigned short cnt, unsigned char *key)
294 {
295 	ALLOC_CACHE_ALIGN_BUFFER(struct s_rpmb, rpmb_frame, 1);
296 	unsigned long wcount;
297 	int i;
298 
299 	for (i = 0; i < cnt; i++) {
300 		if (mmc_rpmb_get_counter(mmc, &wcount)) {
301 			printf("Cannot read RPMB write counter\n");
302 			break;
303 		}
304 
305 		/* Fill the request */
306 		memset(rpmb_frame, 0, sizeof(struct s_rpmb));
307 		memcpy(rpmb_frame->data, addr + i * RPMB_SZ_DATA, RPMB_SZ_DATA);
308 		rpmb_frame->address = cpu_to_be16(blk + i);
309 		rpmb_frame->block_count = cpu_to_be16(1);
310 		rpmb_frame->write_counter = cpu_to_be32(wcount);
311 		rpmb_frame->request = cpu_to_be16(RPMB_REQ_WRITE_DATA);
312 		/* Computes HMAC */
313 		rpmb_hmac(key, rpmb_frame->data, 284, rpmb_frame->mac);
314 
315 		if (mmc_rpmb_request(mmc, rpmb_frame, 1, true))
316 			break;
317 
318 		/* Get status */
319 		if (mmc_rpmb_status(mmc, RPMB_RESP_WRITE_DATA))
320 			break;
321 	}
322 	return i;
323 }
324