xref: /openbmc/linux/drivers/crypto/caam/error.c (revision ee0a6de9)
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * CAAM Error Reporting
4  *
5  * Copyright 2009-2011 Freescale Semiconductor, Inc.
6  */
7 
8 #include "compat.h"
9 #include "regs.h"
10 #include "desc.h"
11 #include "error.h"
12 
13 #ifdef DEBUG
14 #include <linux/highmem.h>
15 
caam_dump_sg(const char * prefix_str,int prefix_type,int rowsize,int groupsize,struct scatterlist * sg,size_t tlen,bool ascii)16 void caam_dump_sg(const char *prefix_str, int prefix_type,
17 		  int rowsize, int groupsize, struct scatterlist *sg,
18 		  size_t tlen, bool ascii)
19 {
20 	struct scatterlist *it;
21 	void *it_page;
22 	size_t len;
23 	void *buf;
24 
25 	for (it = sg; it && tlen > 0 ; it = sg_next(it)) {
26 		/*
27 		 * make sure the scatterlist's page
28 		 * has a valid virtual memory mapping
29 		 */
30 		it_page = kmap_atomic(sg_page(it));
31 		if (unlikely(!it_page)) {
32 			pr_err("caam_dump_sg: kmap failed\n");
33 			return;
34 		}
35 
36 		buf = it_page + it->offset;
37 		len = min_t(size_t, tlen, it->length);
38 		print_hex_dump_debug(prefix_str, prefix_type, rowsize,
39 				     groupsize, buf, len, ascii);
40 		tlen -= len;
41 
42 		kunmap_atomic(it_page);
43 	}
44 }
45 #else
caam_dump_sg(const char * prefix_str,int prefix_type,int rowsize,int groupsize,struct scatterlist * sg,size_t tlen,bool ascii)46 void caam_dump_sg(const char *prefix_str, int prefix_type,
47 		  int rowsize, int groupsize, struct scatterlist *sg,
48 		  size_t tlen, bool ascii)
49 {}
50 #endif /* DEBUG */
51 EXPORT_SYMBOL(caam_dump_sg);
52 
53 bool caam_little_end;
54 EXPORT_SYMBOL(caam_little_end);
55 
56 bool caam_imx;
57 EXPORT_SYMBOL(caam_imx);
58 
59 size_t caam_ptr_sz;
60 EXPORT_SYMBOL(caam_ptr_sz);
61 
62 static const struct {
63 	u8 value;
64 	const char *error_text;
65 } desc_error_list[] = {
66 	{ 0x00, "No error." },
67 	{ 0x01, "SGT Length Error. The descriptor is trying to read more data than is contained in the SGT table." },
68 	{ 0x02, "SGT Null Entry Error." },
69 	{ 0x03, "Job Ring Control Error. There is a bad value in the Job Ring Control register." },
70 	{ 0x04, "Invalid Descriptor Command. The Descriptor Command field is invalid." },
71 	{ 0x05, "Reserved." },
72 	{ 0x06, "Invalid KEY Command" },
73 	{ 0x07, "Invalid LOAD Command" },
74 	{ 0x08, "Invalid STORE Command" },
75 	{ 0x09, "Invalid OPERATION Command" },
76 	{ 0x0A, "Invalid FIFO LOAD Command" },
77 	{ 0x0B, "Invalid FIFO STORE Command" },
78 	{ 0x0C, "Invalid MOVE/MOVE_LEN Command" },
79 	{ 0x0D, "Invalid JUMP Command. A nonlocal JUMP Command is invalid because the target is not a Job Header Command, or the jump is from a Trusted Descriptor to a Job Descriptor, or because the target Descriptor contains a Shared Descriptor." },
80 	{ 0x0E, "Invalid MATH Command" },
81 	{ 0x0F, "Invalid SIGNATURE Command" },
82 	{ 0x10, "Invalid Sequence Command. A SEQ IN PTR OR SEQ OUT PTR Command is invalid or a SEQ KEY, SEQ LOAD, SEQ FIFO LOAD, or SEQ FIFO STORE decremented the input or output sequence length below 0. This error may result if a built-in PROTOCOL Command has encountered a malformed PDU." },
83 	{ 0x11, "Skip data type invalid. The type must be 0xE or 0xF."},
84 	{ 0x12, "Shared Descriptor Header Error" },
85 	{ 0x13, "Header Error. Invalid length or parity, or certain other problems." },
86 	{ 0x14, "Burster Error. Burster has gotten to an illegal state" },
87 	{ 0x15, "Context Register Length Error. The descriptor is trying to read or write past the end of the Context Register. A SEQ LOAD or SEQ STORE with the VLF bit set was executed with too large a length in the variable length register (VSOL for SEQ STORE or VSIL for SEQ LOAD)." },
88 	{ 0x16, "DMA Error" },
89 	{ 0x17, "Reserved." },
90 	{ 0x1A, "Job failed due to JR reset" },
91 	{ 0x1B, "Job failed due to Fail Mode" },
92 	{ 0x1C, "DECO Watchdog timer timeout error" },
93 	{ 0x1D, "DECO tried to copy a key from another DECO but the other DECO's Key Registers were locked" },
94 	{ 0x1E, "DECO attempted to copy data from a DECO that had an unmasked Descriptor error" },
95 	{ 0x1F, "LIODN error. DECO was trying to share from itself or from another DECO but the two Non-SEQ LIODN values didn't match or the 'shared from' DECO's Descriptor required that the SEQ LIODNs be the same and they aren't." },
96 	{ 0x20, "DECO has completed a reset initiated via the DRR register" },
97 	{ 0x21, "Nonce error. When using EKT (CCM) key encryption option in the FIFO STORE Command, the Nonce counter reached its maximum value and this encryption mode can no longer be used." },
98 	{ 0x22, "Meta data is too large (> 511 bytes) for TLS decap (input frame; block ciphers) and IPsec decap (output frame, when doing the next header byte update) and DCRC (output frame)." },
99 	{ 0x23, "Read Input Frame error" },
100 	{ 0x24, "JDKEK, TDKEK or TDSK not loaded error" },
101 	{ 0x80, "DNR (do not run) error" },
102 	{ 0x81, "undefined protocol command" },
103 	{ 0x82, "invalid setting in PDB" },
104 	{ 0x83, "Anti-replay LATE error" },
105 	{ 0x84, "Anti-replay REPLAY error" },
106 	{ 0x85, "Sequence number overflow" },
107 	{ 0x86, "Sigver invalid signature" },
108 	{ 0x87, "DSA Sign Illegal test descriptor" },
109 	{ 0x88, "Protocol Format Error - A protocol has seen an error in the format of data received. When running RSA, this means that formatting with random padding was used, and did not follow the form: 0x00, 0x02, 8-to-N bytes of non-zero pad, 0x00, F data." },
110 	{ 0x89, "Protocol Size Error - A protocol has seen an error in size. When running RSA, pdb size N < (size of F) when no formatting is used; or pdb size N < (F + 11) when formatting is used." },
111 	{ 0xC1, "Blob Command error: Undefined mode" },
112 	{ 0xC2, "Blob Command error: Secure Memory Blob mode error" },
113 	{ 0xC4, "Blob Command error: Black Blob key or input size error" },
114 	{ 0xC5, "Blob Command error: Invalid key destination" },
115 	{ 0xC8, "Blob Command error: Trusted/Secure mode error" },
116 	{ 0xF0, "IPsec TTL or hop limit field either came in as 0, or was decremented to 0" },
117 	{ 0xF1, "3GPP HFN matches or exceeds the Threshold" },
118 };
119 
120 static const struct {
121 	u8 value;
122 	const char *error_text;
123 } qi_error_list[] = {
124 	{ 0x00, "No error" },
125 	{ 0x1F, "Job terminated by FQ or ICID flush" },
126 	{ 0x20, "FD format error"},
127 	{ 0x21, "FD command format error"},
128 	{ 0x23, "FL format error"},
129 	{ 0x25, "CRJD specified in FD, but not enabled in FLC"},
130 	{ 0x30, "Max. buffer size too small"},
131 	{ 0x31, "DHR exceeds max. buffer size (allocate mode, S/G format)"},
132 	{ 0x32, "SGT exceeds max. buffer size (allocate mode, S/G format"},
133 	{ 0x33, "Size over/underflow (allocate mode)"},
134 	{ 0x34, "Size over/underflow (reuse mode)"},
135 	{ 0x35, "Length exceeds max. short length (allocate mode, S/G/ format)"},
136 	{ 0x36, "Memory footprint exceeds max. value (allocate mode, S/G/ format)"},
137 	{ 0x41, "SBC frame format not supported (allocate mode)"},
138 	{ 0x42, "Pool 0 invalid / pool 1 size < pool 0 size (allocate mode)"},
139 	{ 0x43, "Annotation output enabled but ASAR = 0 (allocate mode)"},
140 	{ 0x44, "Unsupported or reserved frame format or SGHR = 1 (reuse mode)"},
141 	{ 0x45, "DHR correction underflow (reuse mode, single buffer format)"},
142 	{ 0x46, "Annotation length exceeds offset (reuse mode)"},
143 	{ 0x48, "Annotation output enabled but ASA limited by ASAR (reuse mode)"},
144 	{ 0x49, "Data offset correction exceeds input frame data length (reuse mode)"},
145 	{ 0x4B, "Annotation output enabled but ASA cannot be expanded (frame list)"},
146 	{ 0x51, "Unsupported IF reuse mode"},
147 	{ 0x52, "Unsupported FL use mode"},
148 	{ 0x53, "Unsupported RJD use mode"},
149 	{ 0x54, "Unsupported inline descriptor use mode"},
150 	{ 0xC0, "Table buffer pool 0 depletion"},
151 	{ 0xC1, "Table buffer pool 1 depletion"},
152 	{ 0xC2, "Data buffer pool 0 depletion, no OF allocated"},
153 	{ 0xC3, "Data buffer pool 1 depletion, no OF allocated"},
154 	{ 0xC4, "Data buffer pool 0 depletion, partial OF allocated"},
155 	{ 0xC5, "Data buffer pool 1 depletion, partial OF allocated"},
156 	{ 0xD0, "FLC read error"},
157 	{ 0xD1, "FL read error"},
158 	{ 0xD2, "FL write error"},
159 	{ 0xD3, "OF SGT write error"},
160 	{ 0xD4, "PTA read error"},
161 	{ 0xD5, "PTA write error"},
162 	{ 0xD6, "OF SGT F-bit write error"},
163 	{ 0xD7, "ASA write error"},
164 	{ 0xE1, "FLC[ICR]=0 ICID error"},
165 	{ 0xE2, "FLC[ICR]=1 ICID error"},
166 	{ 0xE4, "source of ICID flush not trusted (BDI = 0)"},
167 };
168 
169 static const char * const cha_id_list[] = {
170 	"",
171 	"AES",
172 	"DES",
173 	"ARC4",
174 	"MDHA",
175 	"RNG",
176 	"SNOW f8",
177 	"Kasumi f8/9",
178 	"PKHA",
179 	"CRCA",
180 	"SNOW f9",
181 	"ZUCE",
182 	"ZUCA",
183 };
184 
185 static const char * const err_id_list[] = {
186 	"No error.",
187 	"Mode error.",
188 	"Data size error.",
189 	"Key size error.",
190 	"PKHA A memory size error.",
191 	"PKHA B memory size error.",
192 	"Data arrived out of sequence error.",
193 	"PKHA divide-by-zero error.",
194 	"PKHA modulus even error.",
195 	"DES key parity error.",
196 	"ICV check failed.",
197 	"Hardware error.",
198 	"Unsupported CCM AAD size.",
199 	"Class 1 CHA is not reset",
200 	"Invalid CHA combination was selected",
201 	"Invalid CHA selected.",
202 };
203 
204 static const char * const rng_err_id_list[] = {
205 	"",
206 	"",
207 	"",
208 	"Instantiate",
209 	"Not instantiated",
210 	"Test instantiate",
211 	"Prediction resistance",
212 	"Prediction resistance and test request",
213 	"Uninstantiate",
214 	"Secure key generation",
215 	"",
216 	"Hardware error",
217 	"Continuous check"
218 };
219 
report_ccb_status(struct device * jrdev,const u32 status,const char * error)220 static int report_ccb_status(struct device *jrdev, const u32 status,
221 			     const char *error)
222 {
223 	u8 cha_id = (status & JRSTA_CCBERR_CHAID_MASK) >>
224 		    JRSTA_CCBERR_CHAID_SHIFT;
225 	u8 err_id = status & JRSTA_CCBERR_ERRID_MASK;
226 	u8 idx = (status & JRSTA_DECOERR_INDEX_MASK) >>
227 		  JRSTA_DECOERR_INDEX_SHIFT;
228 	char *idx_str;
229 	const char *cha_str = "unidentified cha_id value 0x";
230 	char cha_err_code[3] = { 0 };
231 	const char *err_str = "unidentified err_id value 0x";
232 	char err_err_code[3] = { 0 };
233 
234 	if (status & JRSTA_DECOERR_JUMP)
235 		idx_str = "jump tgt desc idx";
236 	else
237 		idx_str = "desc idx";
238 
239 	if (cha_id < ARRAY_SIZE(cha_id_list))
240 		cha_str = cha_id_list[cha_id];
241 	else
242 		snprintf(cha_err_code, sizeof(cha_err_code), "%02x", cha_id);
243 
244 	if ((cha_id << JRSTA_CCBERR_CHAID_SHIFT) == JRSTA_CCBERR_CHAID_RNG &&
245 	    err_id < ARRAY_SIZE(rng_err_id_list) &&
246 	    strlen(rng_err_id_list[err_id])) {
247 		/* RNG-only error */
248 		err_str = rng_err_id_list[err_id];
249 	} else {
250 		err_str = err_id_list[err_id];
251 	}
252 
253 	/*
254 	 * CCB ICV check failures are part of normal operation life;
255 	 * we leave the upper layers to do what they want with them.
256 	 */
257 	if (err_id == JRSTA_CCBERR_ERRID_ICVCHK)
258 		return -EBADMSG;
259 
260 	dev_err_ratelimited(jrdev, "%08x: %s: %s %d: %s%s: %s%s\n", status,
261 			    error, idx_str, idx, cha_str, cha_err_code,
262 			    err_str, err_err_code);
263 
264 	return -EINVAL;
265 }
266 
report_jump_status(struct device * jrdev,const u32 status,const char * error)267 static int report_jump_status(struct device *jrdev, const u32 status,
268 			      const char *error)
269 {
270 	dev_err(jrdev, "%08x: %s: %s() not implemented\n",
271 		status, error, __func__);
272 
273 	return -EINVAL;
274 }
275 
report_deco_status(struct device * jrdev,const u32 status,const char * error)276 static int report_deco_status(struct device *jrdev, const u32 status,
277 			      const char *error)
278 {
279 	u8 err_id = status & JRSTA_DECOERR_ERROR_MASK;
280 	u8 idx = (status & JRSTA_DECOERR_INDEX_MASK) >>
281 		  JRSTA_DECOERR_INDEX_SHIFT;
282 	char *idx_str;
283 	const char *err_str = "unidentified error value 0x";
284 	char err_err_code[3] = { 0 };
285 	int i;
286 
287 	if (status & JRSTA_DECOERR_JUMP)
288 		idx_str = "jump tgt desc idx";
289 	else
290 		idx_str = "desc idx";
291 
292 	for (i = 0; i < ARRAY_SIZE(desc_error_list); i++)
293 		if (desc_error_list[i].value == err_id)
294 			break;
295 
296 	if (i != ARRAY_SIZE(desc_error_list) && desc_error_list[i].error_text)
297 		err_str = desc_error_list[i].error_text;
298 	else
299 		snprintf(err_err_code, sizeof(err_err_code), "%02x", err_id);
300 
301 	dev_err(jrdev, "%08x: %s: %s %d: %s%s\n",
302 		status, error, idx_str, idx, err_str, err_err_code);
303 
304 	return -EINVAL;
305 }
306 
report_qi_status(struct device * qidev,const u32 status,const char * error)307 static int report_qi_status(struct device *qidev, const u32 status,
308 			    const char *error)
309 {
310 	u8 err_id = status & JRSTA_QIERR_ERROR_MASK;
311 	const char *err_str = "unidentified error value 0x";
312 	char err_err_code[3] = { 0 };
313 	int i;
314 
315 	for (i = 0; i < ARRAY_SIZE(qi_error_list); i++)
316 		if (qi_error_list[i].value == err_id)
317 			break;
318 
319 	if (i != ARRAY_SIZE(qi_error_list) && qi_error_list[i].error_text)
320 		err_str = qi_error_list[i].error_text;
321 	else
322 		snprintf(err_err_code, sizeof(err_err_code), "%02x", err_id);
323 
324 	dev_err(qidev, "%08x: %s: %s%s\n",
325 		status, error, err_str, err_err_code);
326 
327 	return -EINVAL;
328 }
329 
report_jr_status(struct device * jrdev,const u32 status,const char * error)330 static int report_jr_status(struct device *jrdev, const u32 status,
331 			    const char *error)
332 {
333 	dev_err(jrdev, "%08x: %s: %s() not implemented\n",
334 		status, error, __func__);
335 
336 	return -EINVAL;
337 }
338 
report_cond_code_status(struct device * jrdev,const u32 status,const char * error)339 static int report_cond_code_status(struct device *jrdev, const u32 status,
340 				   const char *error)
341 {
342 	dev_err(jrdev, "%08x: %s: %s() not implemented\n",
343 		status, error, __func__);
344 
345 	return -EINVAL;
346 }
347 
caam_strstatus(struct device * jrdev,u32 status,bool qi_v2)348 int caam_strstatus(struct device *jrdev, u32 status, bool qi_v2)
349 {
350 	static const struct stat_src {
351 		int (*report_ssed)(struct device *jrdev, const u32 status,
352 				   const char *error);
353 		const char *error;
354 	} status_src[16] = {
355 		{ NULL, "No error" },
356 		{ NULL, NULL },
357 		{ report_ccb_status, "CCB" },
358 		{ report_jump_status, "Jump" },
359 		{ report_deco_status, "DECO" },
360 		{ report_qi_status, "Queue Manager Interface" },
361 		{ report_jr_status, "Job Ring" },
362 		{ report_cond_code_status, "Condition Code" },
363 		{ NULL, NULL },
364 		{ NULL, NULL },
365 		{ NULL, NULL },
366 		{ NULL, NULL },
367 		{ NULL, NULL },
368 		{ NULL, NULL },
369 		{ NULL, NULL },
370 		{ NULL, NULL },
371 	};
372 	u32 ssrc = status >> JRSTA_SSRC_SHIFT;
373 	const char *error = status_src[ssrc].error;
374 
375 	/*
376 	 * If there is an error handling function, call it to report the error.
377 	 * Otherwise print the error source name.
378 	 */
379 	if (status_src[ssrc].report_ssed)
380 		return status_src[ssrc].report_ssed(jrdev, status, error);
381 
382 	if (error)
383 		dev_err(jrdev, "%d: %s\n", ssrc, error);
384 	else
385 		dev_err(jrdev, "%d: unknown error source\n", ssrc);
386 
387 	return -EINVAL;
388 }
389 EXPORT_SYMBOL(caam_strstatus);
390 
391 MODULE_LICENSE("GPL");
392 MODULE_DESCRIPTION("FSL CAAM error reporting");
393 MODULE_AUTHOR("Freescale Semiconductor");
394