1 /*
2  * Copyright (c) 2020, NVIDIA Corporation. All rights reserved.
3  *
4  * SPDX-License-Identifier: BSD-3-Clause
5  */
6 
7 #include <inttypes.h>
8 #include <stdbool.h>
9 #include <stdint.h>
10 
11 #include <common/debug.h>
12 #include <lib/bakery_lock.h>
13 #include <lib/cassert.h>
14 #include <lib/extensions/ras.h>
15 #include <lib/utils_def.h>
16 #include <services/sdei.h>
17 
18 #include <plat/common/platform.h>
19 #include <platform_def.h>
20 #include <tegra194_ras_private.h>
21 #include <tegra_def.h>
22 #include <tegra_platform.h>
23 #include <tegra_private.h>
24 
25 /*
26  * ERR<n>FR bits[63:32], it indicates supported RAS errors which can be enabled
27  * by setting corresponding bits in ERR<n>CTLR
28  */
29 #define ERR_FR_EN_BITS_MASK	0xFFFFFFFF00000000ULL
30 
31 /*
32  * Number of RAS errors will be cleared per 'tegra194_ras_corrected_err_clear'
33  * function call.
34  */
35 #define RAS_ERRORS_PER_CALL	8
36 
37 /*
38  * the max possible RAS node index value.
39  */
40 #define RAS_NODE_INDEX_MAX	0x1FFFFFFFU
41 
42 /* bakery lock for platform RAS handler. */
43 static DEFINE_BAKERY_LOCK(ras_handler_lock);
44 #define ras_lock()		bakery_lock_get(&ras_handler_lock)
45 #define ras_unlock()		bakery_lock_release(&ras_handler_lock)
46 
47 /*
48  * Function to handle an External Abort received at EL3.
49  * This function is invoked by RAS framework.
50  */
tegra194_ea_handler(unsigned int ea_reason,uint64_t syndrome,void * cookie,void * handle,uint64_t flags)51 static void tegra194_ea_handler(unsigned int ea_reason, uint64_t syndrome,
52 		void *cookie, void *handle, uint64_t flags)
53 {
54 	int32_t ret;
55 
56 	ras_lock();
57 
58 	ERROR("MPIDR 0x%lx: exception reason=%u syndrome=0x%" PRIx64 "\n",
59 		read_mpidr(), ea_reason, syndrome);
60 
61 	/* Call RAS EA handler */
62 	ret = ras_ea_handler(ea_reason, syndrome, cookie, handle, flags);
63 	if (ret != 0) {
64 		ERROR("RAS error handled!\n");
65 		ret = sdei_dispatch_event(TEGRA_SDEI_EP_EVENT_0 +
66 				plat_my_core_pos());
67 		if (ret != 0)
68 			ERROR("sdei_dispatch_event returned %d\n", ret);
69 	} else {
70 		ERROR("Not a RAS error!\n");
71 	}
72 
73 	ras_unlock();
74 }
75 
76 /*
77  * Function to enable all supported RAS error report.
78  *
79  * Uncorrected errors are set to report as External abort (SError)
80  * Corrected errors are set to report as interrupt.
81  */
tegra194_ras_enable(void)82 void tegra194_ras_enable(void)
83 {
84 	VERBOSE("%s\n", __func__);
85 
86 	/* skip RAS enablement if not a silicon platform. */
87 	if (!tegra_platform_is_silicon()) {
88 		return;
89 	}
90 
91 	/*
92 	 * Iterate for each group(num_idx ERRSELRs starting from idx_start)
93 	 * use normal for loop instead of for_each_err_record_info to get rid
94 	 * of MISRA noise..
95 	 */
96 	for (uint32_t i = 0U; i < err_record_mappings.num_err_records; i++) {
97 
98 		const struct err_record_info *info = &err_record_mappings.err_records[i];
99 
100 		uint32_t idx_start = info->sysreg.idx_start;
101 		uint32_t num_idx = info->sysreg.num_idx;
102 		const struct ras_aux_data *aux_data = (const struct ras_aux_data *)info->aux_data;
103 
104 		assert(aux_data != NULL);
105 
106 		for (uint32_t j = 0; j < num_idx; j++) {
107 
108 			/* ERR<n>CTLR register value. */
109 			uint64_t err_ctrl = 0ULL;
110 			/* all supported errors for this node. */
111 			uint64_t err_fr;
112 			/* uncorrectable errors */
113 			uint64_t uncorr_errs;
114 			/* correctable errors */
115 			uint64_t corr_errs;
116 
117 			/*
118 			 * Catch error if something wrong with the RAS aux data
119 			 * record table.
120 			 */
121 			assert(aux_data[j].err_ctrl != NULL);
122 
123 			/*
124 			 * Write to ERRSELR_EL1 to select the RAS error node.
125 			 * Always program this at first to select corresponding
126 			 * RAS node before any other RAS register r/w.
127 			 */
128 			ser_sys_select_record(idx_start + j);
129 
130 			err_fr = read_erxfr_el1() & ERR_FR_EN_BITS_MASK;
131 			uncorr_errs = aux_data[j].err_ctrl();
132 			corr_errs = ~uncorr_errs & err_fr;
133 
134 			/* enable error reporting */
135 			ERR_CTLR_ENABLE_FIELD(err_ctrl, ED);
136 
137 			/* enable SError reporting for uncorrectable errors */
138 			if ((uncorr_errs & err_fr) != 0ULL) {
139 				ERR_CTLR_ENABLE_FIELD(err_ctrl, UE);
140 			}
141 
142 			/* generate interrupt for corrected errors. */
143 			if (corr_errs != 0ULL) {
144 				ERR_CTLR_ENABLE_FIELD(err_ctrl, CFI);
145 			}
146 
147 			/* enable the supported errors */
148 			err_ctrl |= err_fr;
149 
150 			VERBOSE("errselr_el1:0x%x, erxfr:0x%" PRIx64 ", err_ctrl:0x%" PRIx64 "\n",
151 				idx_start + j, err_fr, err_ctrl);
152 
153 			/* enable specified errors, or set to 0 if no supported error */
154 			write_erxctlr_el1(err_ctrl);
155 
156 			/*
157 			 * Check if all the bit settings have been enabled to detect
158 			 * uncorrected/corrected errors, if not assert.
159 			 */
160 			assert(read_erxctlr_el1() == err_ctrl);
161 		}
162 	}
163 }
164 
165 /*
166  * Function to clear RAS ERR<n>STATUS for corrected RAS error.
167  *
168  * This function clears number of 'RAS_ERRORS_PER_CALL' RAS errors at most.
169  * 'cookie' - in/out cookie parameter to specify/store last visited RAS
170  *            error record index. it is set to '0' to indicate no more RAS
171  *            error record to clear.
172  */
tegra194_ras_corrected_err_clear(uint64_t * cookie)173 void tegra194_ras_corrected_err_clear(uint64_t *cookie)
174 {
175 	/*
176 	 * 'last_node' and 'last_idx' represent last visited RAS node index from
177 	 * previous function call. they are set to 0 when first smc call is made
178 	 * or all RAS error are visited by followed multipile smc calls.
179 	 */
180 	union prev_record {
181 		struct record {
182 			uint32_t last_node;
183 			uint32_t last_idx;
184 		} rec;
185 		uint64_t value;
186 	} prev;
187 
188 	uint64_t clear_ce_status = 0ULL;
189 	int32_t nerrs_per_call = RAS_ERRORS_PER_CALL;
190 	uint32_t i;
191 
192 	if (cookie == NULL) {
193 		return;
194 	}
195 
196 	prev.value = *cookie;
197 
198 	if ((prev.rec.last_node >= RAS_NODE_INDEX_MAX) ||
199 		(prev.rec.last_idx >= RAS_NODE_INDEX_MAX)) {
200 		return;
201 	}
202 
203 	ERR_STATUS_SET_FIELD(clear_ce_status, AV, 0x1UL);
204 	ERR_STATUS_SET_FIELD(clear_ce_status, V, 0x1UL);
205 	ERR_STATUS_SET_FIELD(clear_ce_status, OF, 0x1UL);
206 	ERR_STATUS_SET_FIELD(clear_ce_status, MV, 0x1UL);
207 	ERR_STATUS_SET_FIELD(clear_ce_status, CE, 0x3UL);
208 
209 
210 	for (i = prev.rec.last_node; i < err_record_mappings.num_err_records; i++) {
211 
212 		const struct err_record_info *info = &err_record_mappings.err_records[i];
213 		uint32_t idx_start = info->sysreg.idx_start;
214 		uint32_t num_idx = info->sysreg.num_idx;
215 
216 		uint32_t j;
217 
218 		j = (i == prev.rec.last_node && prev.value != 0UL) ?
219 				(prev.rec.last_idx + 1U) : 0U;
220 
221 		for (; j < num_idx; j++) {
222 
223 			uint64_t status;
224 			uint32_t err_idx = idx_start + j;
225 
226 			if (err_idx >= RAS_NODE_INDEX_MAX) {
227 				return;
228 			}
229 
230 			write_errselr_el1(err_idx);
231 			status = read_erxstatus_el1();
232 
233 			if (ERR_STATUS_GET_FIELD(status, CE) != 0U) {
234 				write_erxstatus_el1(clear_ce_status);
235 			}
236 
237 			--nerrs_per_call;
238 
239 			/* only clear 'nerrs_per_call' errors each time. */
240 			if (nerrs_per_call <= 0) {
241 				prev.rec.last_idx = j;
242 				prev.rec.last_node = i;
243 				/* save last visited error record index
244 				 * into cookie.
245 				 */
246 				*cookie = prev.value;
247 
248 				return;
249 			}
250 		}
251 	}
252 
253 	/*
254 	 * finish if all ras error records are checked or provided index is out
255 	 * of range.
256 	 */
257 	*cookie = 0ULL;
258 	return;
259 }
260 
261 /* Function to probe an error from error record group. */
tegra194_ras_record_probe(const struct err_record_info * info,int * probe_data)262 static int32_t tegra194_ras_record_probe(const struct err_record_info *info,
263 		int *probe_data)
264 {
265 	/* Skip probing if not a silicon platform */
266 	if (!tegra_platform_is_silicon()) {
267 		return 0;
268 	}
269 
270 	return ser_probe_sysreg(info->sysreg.idx_start, info->sysreg.num_idx, probe_data);
271 }
272 
273 /* Function to handle error from one given node */
tegra194_ras_node_handler(uint32_t errselr,const char * name,const struct ras_error * errors,uint64_t status)274 static int32_t tegra194_ras_node_handler(uint32_t errselr, const char *name,
275 		const struct ras_error *errors, uint64_t status)
276 {
277 	bool found = false;
278 	uint32_t ierr = (uint32_t)ERR_STATUS_GET_FIELD(status, IERR);
279 	uint32_t serr = (uint32_t)ERR_STATUS_GET_FIELD(status, SERR);
280 	uint64_t val = 0;
281 
282 	/* not a valid error. */
283 	if (ERR_STATUS_GET_FIELD(status, V) == 0U) {
284 		return 0;
285 	}
286 
287 	ERR_STATUS_SET_FIELD(val, V, 1);
288 
289 	/* keep the log print same as linux arm64_ras driver. */
290 	ERROR("**************************************\n");
291 	ERROR("RAS Error in %s, ERRSELR_EL1=0x%x:\n", name, errselr);
292 	ERROR("\tStatus = 0x%" PRIx64 "\n", status);
293 
294 	/* Print uncorrectable errror information. */
295 	if (ERR_STATUS_GET_FIELD(status, UE) != 0U) {
296 
297 		ERR_STATUS_SET_FIELD(val, UE, 1);
298 		ERR_STATUS_SET_FIELD(val, UET, 1);
299 
300 		/* IERR to error message */
301 		for (uint32_t i = 0; errors[i].error_msg != NULL; i++) {
302 			if (ierr == errors[i].error_code) {
303 				ERROR("\tIERR = %s: 0x%x\n",
304 					errors[i].error_msg, ierr);
305 
306 				found = true;
307 				break;
308 			}
309 		}
310 
311 		if (!found) {
312 			ERROR("\tUnknown IERR: 0x%x\n", ierr);
313 		}
314 
315 		ERROR("SERR = %s: 0x%x\n", ras_serr_to_str(serr), serr);
316 
317 		/* Overflow, multiple errors have been detected. */
318 		if (ERR_STATUS_GET_FIELD(status, OF) != 0U) {
319 			ERROR("\tOverflow (there may be more errors) - "
320 				"Uncorrectable\n");
321 			ERR_STATUS_SET_FIELD(val, OF, 1);
322 		}
323 
324 		ERROR("\tUncorrectable (this is fatal)\n");
325 
326 		/* Miscellaneous Register Valid. */
327 		if (ERR_STATUS_GET_FIELD(status, MV) != 0U) {
328 			ERROR("\tMISC0 = 0x%lx\n", read_erxmisc0_el1());
329 			ERROR("\tMISC1 = 0x%lx\n", read_erxmisc1_el1());
330 			ERR_STATUS_SET_FIELD(val, MV, 1);
331 		}
332 
333 		/* Address Valid. */
334 		if (ERR_STATUS_GET_FIELD(status, AV) != 0U) {
335 			ERROR("\tADDR = 0x%lx\n", read_erxaddr_el1());
336 			ERR_STATUS_SET_FIELD(val, AV, 1);
337 		}
338 
339 		/* Deferred error */
340 		if (ERR_STATUS_GET_FIELD(status, DE) != 0U) {
341 			ERROR("\tDeferred error\n");
342 			ERR_STATUS_SET_FIELD(val, DE, 1);
343 		}
344 
345 	} else {
346 		/* For corrected error, simply clear it. */
347 		VERBOSE("corrected RAS error is cleared: ERRSELR_EL1:0x%x, "
348 			"IERR:0x%x, SERR:0x%x\n", errselr, ierr, serr);
349 		ERR_STATUS_SET_FIELD(val, CE, 1);
350 	}
351 
352 	ERROR("**************************************\n");
353 
354 	/* Write to clear reported errors. */
355 	write_erxstatus_el1(val);
356 
357 	/* error handled */
358 	return 0;
359 }
360 
361 /* Function to handle one error node from an error record group. */
tegra194_ras_record_handler(const struct err_record_info * info,int probe_data,const struct err_handler_data * const data __unused)362 static int32_t tegra194_ras_record_handler(const struct err_record_info *info,
363 		int probe_data, const struct err_handler_data *const data __unused)
364 {
365 	uint32_t num_idx = info->sysreg.num_idx;
366 	uint32_t idx_start = info->sysreg.idx_start;
367 	const struct ras_aux_data *aux_data = info->aux_data;
368 	const struct ras_error *errors;
369 	uint32_t offset;
370 	const char *node_name;
371 
372 	uint64_t status = 0ULL;
373 
374 	VERBOSE("%s\n", __func__);
375 
376 	assert(probe_data >= 0);
377 	assert((uint32_t)probe_data < num_idx);
378 
379 	offset = (uint32_t)probe_data;
380 	errors = aux_data[offset].error_records;
381 	node_name = aux_data[offset].name;
382 
383 	assert(errors != NULL);
384 
385 	/* Write to ERRSELR_EL1 to select the error record */
386 	ser_sys_select_record(idx_start + offset);
387 
388 	/* Retrieve status register from the error record */
389 	status = read_erxstatus_el1();
390 
391 	return tegra194_ras_node_handler(idx_start + offset, node_name,
392 			errors, status);
393 }
394 
395 
396 /* Instantiate RAS nodes */
397 PER_CORE_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE)
398 PER_CLUSTER_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE)
399 SCF_L3_BANK_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE)
400 CCPLEX_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE)
401 
402 /* Instantiate RAS node groups */
403 static struct ras_aux_data per_core_ras_group[] = {
404 	PER_CORE_RAS_GROUP_NODES
405 };
406 CASSERT(ARRAY_SIZE(per_core_ras_group) < RAS_NODE_INDEX_MAX,
407 	assert_max_per_core_ras_group_size);
408 
409 static struct ras_aux_data per_cluster_ras_group[] = {
410 	PER_CLUSTER_RAS_GROUP_NODES
411 };
412 CASSERT(ARRAY_SIZE(per_cluster_ras_group) < RAS_NODE_INDEX_MAX,
413 	assert_max_per_cluster_ras_group_size);
414 
415 static struct ras_aux_data scf_l3_ras_group[] = {
416 	SCF_L3_BANK_RAS_GROUP_NODES
417 };
418 CASSERT(ARRAY_SIZE(scf_l3_ras_group) < RAS_NODE_INDEX_MAX,
419 	assert_max_scf_l3_ras_group_size);
420 
421 static struct ras_aux_data ccplex_ras_group[] = {
422     CCPLEX_RAS_GROUP_NODES
423 };
424 CASSERT(ARRAY_SIZE(ccplex_ras_group) < RAS_NODE_INDEX_MAX,
425 	assert_max_ccplex_ras_group_size);
426 
427 /*
428  * We have same probe and handler for each error record group, use a macro to
429  * simply the record definition.
430  */
431 #define ADD_ONE_ERR_GROUP(errselr_start, group) \
432 	ERR_RECORD_SYSREG_V1((errselr_start), (uint32_t)ARRAY_SIZE((group)), \
433 			&tegra194_ras_record_probe, \
434 			&tegra194_ras_record_handler, (group))
435 
436 /* RAS error record group information */
437 static struct err_record_info carmel_ras_records[] = {
438 	/*
439 	 * Per core ras error records
440 	 * ERRSELR starts from 0*256 + Logical_CPU_ID*16 + 0 to
441 	 * 0*256 + Logical_CPU_ID*16 + 5 for each group.
442 	 * 8 cores/groups, 6 * 8 nodes in total.
443 	 */
444 	ADD_ONE_ERR_GROUP(0x000, per_core_ras_group),
445 	ADD_ONE_ERR_GROUP(0x010, per_core_ras_group),
446 	ADD_ONE_ERR_GROUP(0x020, per_core_ras_group),
447 	ADD_ONE_ERR_GROUP(0x030, per_core_ras_group),
448 	ADD_ONE_ERR_GROUP(0x040, per_core_ras_group),
449 	ADD_ONE_ERR_GROUP(0x050, per_core_ras_group),
450 	ADD_ONE_ERR_GROUP(0x060, per_core_ras_group),
451 	ADD_ONE_ERR_GROUP(0x070, per_core_ras_group),
452 
453 	/*
454 	 * Per cluster ras error records
455 	 * ERRSELR starts from 2*256 + Logical_Cluster_ID*16 + 0 to
456 	 * 2*256 + Logical_Cluster_ID*16 + 3.
457 	 * 4 clusters/groups, 3 * 4 nodes in total.
458 	 */
459 	ADD_ONE_ERR_GROUP(0x200, per_cluster_ras_group),
460 	ADD_ONE_ERR_GROUP(0x210, per_cluster_ras_group),
461 	ADD_ONE_ERR_GROUP(0x220, per_cluster_ras_group),
462 	ADD_ONE_ERR_GROUP(0x230, per_cluster_ras_group),
463 
464 	/*
465 	 * SCF L3_Bank ras error records
466 	 * ERRSELR: 3*256 + L3_Bank_ID, L3_Bank_ID: 0-3
467 	 * 1 groups, 4 nodes in total.
468 	 */
469 	ADD_ONE_ERR_GROUP(0x300, scf_l3_ras_group),
470 
471 	/*
472 	 * CCPLEX ras error records
473 	 * ERRSELR: 4*256 + Unit_ID, Unit_ID: 0 - 4
474 	 * 1 groups, 5 nodes in total.
475 	 */
476 	ADD_ONE_ERR_GROUP(0x400, ccplex_ras_group),
477 };
478 
479 CASSERT(ARRAY_SIZE(carmel_ras_records) < RAS_NODE_INDEX_MAX,
480 	assert_max_carmel_ras_records_size);
481 
482 REGISTER_ERR_RECORD_INFO(carmel_ras_records);
483 
484 /* dummy RAS interrupt */
485 static struct ras_interrupt carmel_ras_interrupts[] = {};
486 REGISTER_RAS_INTERRUPTS(carmel_ras_interrupts);
487 
488 /*******************************************************************************
489  * RAS handler for the platform
490  ******************************************************************************/
plat_ea_handler(unsigned int ea_reason,uint64_t syndrome,void * cookie,void * handle,uint64_t flags)491 void plat_ea_handler(unsigned int ea_reason, uint64_t syndrome, void *cookie,
492 		void *handle, uint64_t flags)
493 {
494 #if RAS_EXTENSION
495 	tegra194_ea_handler(ea_reason, syndrome, cookie, handle, flags);
496 #else
497 	plat_default_ea_handler(ea_reason, syndrome, cookie, handle, flags);
498 #endif
499 }
500