xref: /illumos-gate/usr/src/uts/sun4/io/px/px_fm.c (revision 657a8c206b913d1ee578fd725f0b25eca5b77253)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 /*
27  * PX Fault Management Architecture
28  */
29 #include <sys/types.h>
30 #include <sys/sunndi.h>
31 #include <sys/sunddi.h>
32 #include <sys/fm/protocol.h>
33 #include <sys/fm/util.h>
34 #include <sys/fm/io/pci.h>
35 #include <sys/membar.h>
36 #include "px_obj.h"
37 
38 extern uint_t px_ranges_phi_mask;
39 
40 #define	PX_PCIE_PANIC_BITS \
41 	(PCIE_AER_UCE_DLP | PCIE_AER_UCE_FCP | PCIE_AER_UCE_TO | \
42 	PCIE_AER_UCE_RO | PCIE_AER_UCE_MTLP | PCIE_AER_UCE_ECRC)
43 #define	PX_PCIE_NO_PANIC_BITS \
44 	(PCIE_AER_UCE_TRAINING | PCIE_AER_UCE_SD | PCIE_AER_UCE_CA | \
45 	PCIE_AER_UCE_UC | PCIE_AER_UCE_UR)
46 
47 /*
48  * Global panicing state variabled used to control if further error handling
49  * should occur.  If the system is already panic'ing or if PX itself has
50  * recommended panic'ing the system, no further error handling should occur to
51  * prevent the system from hanging.
52  */
53 boolean_t px_panicing = B_FALSE;
54 
55 static pf_data_t *px_get_pfd(px_t *px_p);
56 
57 static int px_pcie_ptlp(dev_info_t *dip, ddi_fm_error_t *derr,
58     px_err_pcie_t *regs);
59 
60 #if defined(DEBUG)
61 static void px_pcie_log(dev_info_t *dip, px_err_pcie_t *regs);
62 #else	/* DEBUG */
63 #define	px_pcie_log 0 &&
64 #endif	/* DEBUG */
65 
66 /*
67  * Initialize px FMA support
68  */
69 int
70 px_fm_attach(px_t *px_p)
71 {
72 	int		i;
73 	dev_info_t	*dip = px_p->px_dip;
74 	pcie_bus_t	*bus_p;
75 
76 	px_p->px_fm_cap = DDI_FM_EREPORT_CAPABLE | DDI_FM_ERRCB_CAPABLE |
77 	    DDI_FM_ACCCHK_CAPABLE | DDI_FM_DMACHK_CAPABLE;
78 
79 	/*
80 	 * check parents' capability
81 	 */
82 	ddi_fm_init(dip, &px_p->px_fm_cap, &px_p->px_fm_ibc);
83 
84 	/*
85 	 * parents need to be ereport and error handling capable
86 	 */
87 	ASSERT(px_p->px_fm_cap &&
88 	    (DDI_FM_ERRCB_CAPABLE | DDI_FM_EREPORT_CAPABLE));
89 
90 	/*
91 	 * Initialize lock to synchronize fabric error handling
92 	 */
93 	mutex_init(&px_p->px_fm_mutex, NULL, MUTEX_DRIVER,
94 	    (void *)px_p->px_fm_ibc);
95 
96 
97 	pcie_rc_init_bus(dip);
98 
99 	px_p->px_pfd_idx = 0;
100 	for (i = 0; i < 5; i++)
101 		pcie_rc_init_pfd(dip, &px_p->px_pfd_arr[i]);
102 	PCIE_DIP2PFD(dip) = px_p->px_pfd_arr;
103 
104 	bus_p = PCIE_DIP2BUS(dip);
105 	bus_p->bus_rp_bdf = px_p->px_bdf;
106 	bus_p->bus_rp_dip = dip;
107 
108 	/*
109 	 * register error callback in parent
110 	 */
111 	ddi_fm_handler_register(dip, px_fm_callback, px_p);
112 
113 	return (DDI_SUCCESS);
114 }
115 
116 /*
117  * Deregister FMA
118  */
119 void
120 px_fm_detach(px_t *px_p)
121 {
122 	int i;
123 
124 	ddi_fm_handler_unregister(px_p->px_dip);
125 	mutex_destroy(&px_p->px_fm_mutex);
126 	ddi_fm_fini(px_p->px_dip);
127 	for (i = 0; i < 5; i++)
128 		pcie_rc_fini_pfd(&px_p->px_pfd_arr[i]);
129 	pcie_rc_fini_bus(px_p->px_dip);
130 }
131 
132 /*
133  * Function used to setup access functions depending on level of desired
134  * protection.
135  */
136 void
137 px_fm_acc_setup(ddi_map_req_t *mp, dev_info_t *rdip, pci_regspec_t *rp)
138 {
139 	uchar_t fflag;
140 	ndi_err_t *errp;
141 	ddi_acc_hdl_t *hp;
142 	ddi_acc_impl_t *ap;
143 
144 	hp = mp->map_handlep;
145 	ap = (ddi_acc_impl_t *)hp->ah_platform_private;
146 	fflag = ap->ahi_common.ah_acc.devacc_attr_access;
147 
148 	if (mp->map_op == DDI_MO_MAP_LOCKED) {
149 		ndi_fmc_insert(rdip, ACC_HANDLE, (void *)hp, NULL);
150 		switch (fflag) {
151 		case DDI_FLAGERR_ACC:
152 			ap->ahi_get8 = i_ddi_prot_get8;
153 			ap->ahi_get16 = i_ddi_prot_get16;
154 			ap->ahi_get32 = i_ddi_prot_get32;
155 			ap->ahi_get64 = i_ddi_prot_get64;
156 			ap->ahi_put8 = i_ddi_prot_put8;
157 			ap->ahi_put16 = i_ddi_prot_put16;
158 			ap->ahi_put32 = i_ddi_prot_put32;
159 			ap->ahi_put64 = i_ddi_prot_put64;
160 			ap->ahi_rep_get8 = i_ddi_prot_rep_get8;
161 			ap->ahi_rep_get16 = i_ddi_prot_rep_get16;
162 			ap->ahi_rep_get32 = i_ddi_prot_rep_get32;
163 			ap->ahi_rep_get64 = i_ddi_prot_rep_get64;
164 			ap->ahi_rep_put8 = i_ddi_prot_rep_put8;
165 			ap->ahi_rep_put16 = i_ddi_prot_rep_put16;
166 			ap->ahi_rep_put32 = i_ddi_prot_rep_put32;
167 			ap->ahi_rep_put64 = i_ddi_prot_rep_put64;
168 			impl_acc_err_init(hp);
169 			errp = ((ddi_acc_impl_t *)hp)->ahi_err;
170 			if ((rp->pci_phys_hi & PCI_REG_ADDR_M) ==
171 			    PCI_ADDR_CONFIG)
172 				errp->err_cf = px_err_cfg_hdl_check;
173 			else
174 				errp->err_cf = px_err_pio_hdl_check;
175 			break;
176 		case DDI_CAUTIOUS_ACC :
177 			ap->ahi_get8 = i_ddi_caut_get8;
178 			ap->ahi_get16 = i_ddi_caut_get16;
179 			ap->ahi_get32 = i_ddi_caut_get32;
180 			ap->ahi_get64 = i_ddi_caut_get64;
181 			ap->ahi_put8 = i_ddi_caut_put8;
182 			ap->ahi_put16 = i_ddi_caut_put16;
183 			ap->ahi_put32 = i_ddi_caut_put32;
184 			ap->ahi_put64 = i_ddi_caut_put64;
185 			ap->ahi_rep_get8 = i_ddi_caut_rep_get8;
186 			ap->ahi_rep_get16 = i_ddi_caut_rep_get16;
187 			ap->ahi_rep_get32 = i_ddi_caut_rep_get32;
188 			ap->ahi_rep_get64 = i_ddi_caut_rep_get64;
189 			ap->ahi_rep_put8 = i_ddi_caut_rep_put8;
190 			ap->ahi_rep_put16 = i_ddi_caut_rep_put16;
191 			ap->ahi_rep_put32 = i_ddi_caut_rep_put32;
192 			ap->ahi_rep_put64 = i_ddi_caut_rep_put64;
193 			impl_acc_err_init(hp);
194 			errp = ((ddi_acc_impl_t *)hp)->ahi_err;
195 			if ((rp->pci_phys_hi & PCI_REG_ADDR_M) ==
196 			    PCI_ADDR_CONFIG)
197 				errp->err_cf = px_err_cfg_hdl_check;
198 			else
199 				errp->err_cf = px_err_pio_hdl_check;
200 			break;
201 		default:
202 			/* Illegal state, remove the handle from cache */
203 			ndi_fmc_remove(rdip, ACC_HANDLE, (void *)hp);
204 			break;
205 		}
206 	} else if (mp->map_op == DDI_MO_UNMAP) {
207 		ndi_fmc_remove(rdip, ACC_HANDLE, (void *)hp);
208 	}
209 }
210 
211 /*
212  * Function used to initialize FMA for our children nodes. Called
213  * through pci busops when child node calls ddi_fm_init.
214  */
215 /*ARGSUSED*/
216 int
217 px_fm_init_child(dev_info_t *dip, dev_info_t *cdip, int cap,
218     ddi_iblock_cookie_t *ibc_p)
219 {
220 	px_t *px_p = DIP_TO_STATE(dip);
221 
222 	ASSERT(ibc_p != NULL);
223 	*ibc_p = px_p->px_fm_ibc;
224 
225 	return (px_p->px_fm_cap);
226 }
227 
228 /*
229  * lock access for exclusive PCIe access
230  */
231 void
232 px_bus_enter(dev_info_t *dip, ddi_acc_handle_t handle)
233 {
234 	px_pec_t	*pec_p = ((px_t *)DIP_TO_STATE(dip))->px_pec_p;
235 
236 	/*
237 	 * Exclusive access has been used for cautious put/get,
238 	 * Both utilize i_ddi_ontrap which, on sparcv9, implements
239 	 * similar protection as what on_trap() does, and which calls
240 	 * membar  #Sync to flush out all cpu deferred errors
241 	 * prior to get/put operation, so here we're not calling
242 	 * membar  #Sync - a difference from what's in pci_bus_enter().
243 	 */
244 	mutex_enter(&pec_p->pec_pokefault_mutex);
245 	pec_p->pec_acc_hdl = handle;
246 }
247 
248 /*
249  * unlock access for exclusive PCIe access
250  */
251 /* ARGSUSED */
252 void
253 px_bus_exit(dev_info_t *dip, ddi_acc_handle_t handle)
254 {
255 	px_t		*px_p = DIP_TO_STATE(dip);
256 	px_pec_t	*pec_p = px_p->px_pec_p;
257 
258 	pec_p->pec_acc_hdl = NULL;
259 	mutex_exit(&pec_p->pec_pokefault_mutex);
260 }
261 
262 static uint64_t
263 px_in_addr_range(dev_info_t *dip, px_ranges_t *ranges_p, uint64_t addr)
264 {
265 	uint64_t	addr_low, addr_high;
266 
267 	addr_low = (uint64_t)(ranges_p->parent_high & px_ranges_phi_mask) << 32;
268 	addr_low |= (uint64_t)ranges_p->parent_low;
269 	addr_high = addr_low + ((uint64_t)ranges_p->size_high << 32) +
270 	    (uint64_t)ranges_p->size_low;
271 
272 	DBG(DBG_ERR_INTR, dip, "Addr: 0x%llx high: 0x%llx low: 0x%llx\n",
273 	    addr, addr_high, addr_low);
274 
275 	if ((addr < addr_high) && (addr >= addr_low))
276 		return (addr_low);
277 
278 	return (0);
279 }
280 
281 /*
282  * PCI error callback which is registered with our parent to call
283  * for PCIe logging when the CPU traps due to PCIe Uncorrectable Errors
284  * and PCI BERR/TO/UE on IO Loads.
285  */
286 /*ARGSUSED*/
287 int
288 px_fm_callback(dev_info_t *dip, ddi_fm_error_t *derr, const void *impl_data)
289 {
290 	dev_info_t	*pdip = ddi_get_parent(dip);
291 	px_t		*px_p = (px_t *)impl_data;
292 	int		i, acc_type = 0;
293 	int		lookup, rc_err, fab_err;
294 	uint64_t	addr, base_addr;
295 	uint64_t	fault_addr = (uint64_t)derr->fme_bus_specific;
296 	pcie_req_id_t	bdf = PCIE_INVALID_BDF;
297 	px_ranges_t	*ranges_p;
298 	int		range_len;
299 
300 	/*
301 	 * If the current thread already owns the px_fm_mutex, then we
302 	 * have encountered an error while processing a previous
303 	 * error.  Attempting to take the mutex again will cause the
304 	 * system to deadlock.
305 	 */
306 	if (px_p->px_fm_mutex_owner == curthread)
307 		return (DDI_FM_FATAL);
308 
309 	i_ddi_fm_handler_exit(pdip);
310 	if (px_fm_enter(px_p) != DDI_SUCCESS) {
311 		i_ddi_fm_handler_enter(pdip);
312 		return (DDI_FM_FATAL);
313 	}
314 
315 	/*
316 	 * Make sure this failed load came from this PCIe port.	 Check by
317 	 * matching the upper 32 bits of the address with the ranges property.
318 	 */
319 	range_len = px_p->px_ranges_length / sizeof (px_ranges_t);
320 	i = 0;
321 	for (ranges_p = px_p->px_ranges_p; i < range_len; i++, ranges_p++) {
322 		base_addr = px_in_addr_range(dip, ranges_p, fault_addr);
323 		if (base_addr) {
324 			switch (ranges_p->child_high & PCI_ADDR_MASK) {
325 			case PCI_ADDR_CONFIG:
326 				acc_type = PF_ADDR_CFG;
327 				addr = NULL;
328 				bdf = (pcie_req_id_t)((fault_addr >> 12) &
329 				    0xFFFF);
330 				break;
331 			case PCI_ADDR_IO:
332 			case PCI_ADDR_MEM64:
333 			case PCI_ADDR_MEM32:
334 				acc_type = PF_ADDR_PIO;
335 				addr = fault_addr - base_addr;
336 				bdf = PCIE_INVALID_BDF;
337 				break;
338 			}
339 			break;
340 		}
341 	}
342 
343 	/* This address doesn't belong to this leaf, just return with OK */
344 	if (!acc_type) {
345 		px_fm_exit(px_p);
346 		i_ddi_fm_handler_enter(pdip);
347 		return (DDI_FM_OK);
348 	}
349 
350 	rc_err = px_err_cmn_intr(px_p, derr, PX_TRAP_CALL, PX_FM_BLOCK_ALL);
351 	lookup = pf_hdl_lookup(dip, derr->fme_ena, acc_type, (uint64_t)addr,
352 	    bdf);
353 
354 	px_rp_en_q(px_p, bdf, addr,
355 	    (PCI_STAT_R_MAST_AB | PCI_STAT_R_TARG_AB));
356 
357 	fab_err = px_scan_fabric(px_p, dip, derr);
358 
359 	px_fm_exit(px_p);
360 	i_ddi_fm_handler_enter(pdip);
361 
362 	if (!px_die)
363 		return (DDI_FM_OK);
364 
365 	if ((rc_err & (PX_PANIC | PX_PROTECTED)) ||
366 	    (fab_err & PF_ERR_FATAL_FLAGS) ||
367 	    (lookup == PF_HDL_NOTFOUND))
368 		return (DDI_FM_FATAL);
369 	else if ((rc_err == PX_NO_ERROR) && (fab_err == PF_ERR_NO_ERROR))
370 		return (DDI_FM_OK);
371 
372 	return (DDI_FM_NONFATAL);
373 }
374 
375 /*
376  * px_err_fabric_intr:
377  * Interrupt handler for PCIE fabric block.
378  * o lock
379  * o create derr
380  * o px_err_cmn_intr(leaf, with jbc)
381  * o send ereport(fire fmri, derr, payload = BDF)
382  * o dispatch (leaf)
383  * o unlock
384  * o handle error: fatal? fm_panic() : return INTR_CLAIMED)
385  */
386 /* ARGSUSED */
387 uint_t
388 px_err_fabric_intr(px_t *px_p, msgcode_t msg_code, pcie_req_id_t rid)
389 {
390 	dev_info_t	*rpdip = px_p->px_dip;
391 	int		rc_err, fab_err;
392 	ddi_fm_error_t	derr;
393 	uint32_t	rp_status;
394 	uint16_t	ce_source, ue_source;
395 
396 	if (px_fm_enter(px_p) != DDI_SUCCESS)
397 		goto done;
398 
399 	/* Create the derr */
400 	bzero(&derr, sizeof (ddi_fm_error_t));
401 	derr.fme_version = DDI_FME_VERSION;
402 	derr.fme_ena = fm_ena_generate(0, FM_ENA_FMT1);
403 	derr.fme_flag = DDI_FM_ERR_UNEXPECTED;
404 
405 	px_err_safeacc_check(px_p, &derr);
406 
407 	if (msg_code == PCIE_MSG_CODE_ERR_COR) {
408 		rp_status = PCIE_AER_RE_STS_CE_RCVD;
409 		ce_source = rid;
410 		ue_source = 0;
411 	} else {
412 		rp_status = PCIE_AER_RE_STS_FE_NFE_RCVD;
413 		ce_source = 0;
414 		ue_source = rid;
415 		if (msg_code == PCIE_MSG_CODE_ERR_NONFATAL)
416 			rp_status |= PCIE_AER_RE_STS_NFE_MSGS_RCVD;
417 		else {
418 			rp_status |= PCIE_AER_RE_STS_FE_MSGS_RCVD;
419 			rp_status |= PCIE_AER_RE_STS_FIRST_UC_FATAL;
420 		}
421 	}
422 
423 	if (derr.fme_flag == DDI_FM_ERR_UNEXPECTED) {
424 		ddi_fm_ereport_post(rpdip, PCI_ERROR_SUBCLASS "." PCIEX_FABRIC,
425 		    derr.fme_ena,
426 		    DDI_NOSLEEP, FM_VERSION, DATA_TYPE_UINT8, 0,
427 		    FIRE_PRIMARY, DATA_TYPE_BOOLEAN_VALUE, B_TRUE,
428 		    "pcie_adv_rp_status", DATA_TYPE_UINT32, rp_status,
429 		    "pcie_adv_rp_command", DATA_TYPE_UINT32, 0,
430 		    "pcie_adv_rp_ce_src_id", DATA_TYPE_UINT16, ce_source,
431 		    "pcie_adv_rp_ue_src_id", DATA_TYPE_UINT16, ue_source,
432 		    NULL);
433 	}
434 
435 	/* Ensure that the rid of the fabric message will get scanned. */
436 	px_rp_en_q(px_p, rid, NULL, NULL);
437 
438 	rc_err = px_err_cmn_intr(px_p, &derr, PX_INTR_CALL, PX_FM_BLOCK_PCIE);
439 
440 	/* call rootport dispatch */
441 	fab_err = px_scan_fabric(px_p, rpdip, &derr);
442 
443 	px_err_panic(rc_err, PX_RC, fab_err, B_TRUE);
444 	px_fm_exit(px_p);
445 	px_err_panic(rc_err, PX_RC, fab_err, B_FALSE);
446 
447 done:
448 	return (DDI_INTR_CLAIMED);
449 }
450 
451 /*
452  * px_scan_fabric:
453  *
454  * Check for drain state and if there is anything to scan.
455  */
456 int
457 px_scan_fabric(px_t *px_p, dev_info_t *rpdip, ddi_fm_error_t *derr) {
458 	int fab_err = 0;
459 
460 	ASSERT(MUTEX_HELD(&px_p->px_fm_mutex));
461 
462 	if (!px_lib_is_in_drain_state(px_p) && px_p->px_pfd_idx) {
463 		fab_err = pf_scan_fabric(rpdip, derr, px_p->px_pfd_arr);
464 		px_p->px_pfd_idx = 0;
465 	}
466 
467 	return (fab_err);
468 }
469 
470 /*
471  * px_err_safeacc_check:
472  * Check to see if a peek/poke and cautious access is currently being
473  * done on a particular leaf.
474  *
475  * Safe access reads induced fire errors will be handled by cpu trap handler
476  * which will call px_fm_callback() which calls this function. In that
477  * case, the derr fields will be set by trap handler with the correct values.
478  *
479  * Safe access writes induced errors will be handled by px interrupt
480  * handlers, this function will fill in the derr fields.
481  *
482  * If a cpu trap does occur, it will quiesce all other interrupts allowing
483  * the cpu trap error handling to finish before Fire receives an interrupt.
484  *
485  * If fire does indeed have an error when a cpu trap occurs as a result of
486  * a safe access, a trap followed by a Mondo/Fabric interrupt will occur.
487  * In which case derr will be initialized as "UNEXPECTED" by the interrupt
488  * handler and this function will need to find if this error occured in the
489  * middle of a safe access operation.
490  *
491  * @param px_p		leaf in which to check access
492  * @param derr		fm err data structure to be updated
493  */
494 void
495 px_err_safeacc_check(px_t *px_p, ddi_fm_error_t *derr)
496 {
497 	px_pec_t 	*pec_p = px_p->px_pec_p;
498 	int		acctype = pec_p->pec_safeacc_type;
499 
500 	ASSERT(MUTEX_HELD(&px_p->px_fm_mutex));
501 
502 	if (derr->fme_flag != DDI_FM_ERR_UNEXPECTED) {
503 		return;
504 	}
505 
506 	/* safe access checking */
507 	switch (acctype) {
508 	case DDI_FM_ERR_EXPECTED:
509 		/*
510 		 * cautious access protection, protected from all err.
511 		 */
512 		ddi_fm_acc_err_get(pec_p->pec_acc_hdl, derr,
513 		    DDI_FME_VERSION);
514 		derr->fme_flag = acctype;
515 		derr->fme_acc_handle = pec_p->pec_acc_hdl;
516 		break;
517 	case DDI_FM_ERR_POKE:
518 		/*
519 		 * ddi_poke protection, check nexus and children for
520 		 * expected errors.
521 		 */
522 		membar_sync();
523 		derr->fme_flag = acctype;
524 		break;
525 	case DDI_FM_ERR_PEEK:
526 		derr->fme_flag = acctype;
527 		break;
528 	}
529 }
530 
531 /*
532  * Suggest panic if any EQ (except CE q) has overflown.
533  */
534 int
535 px_err_check_eq(dev_info_t *dip)
536 {
537 	px_t			*px_p = DIP_TO_STATE(dip);
538 	px_msiq_state_t 	*msiq_state_p = &px_p->px_ib_p->ib_msiq_state;
539 	px_pec_t		*pec_p = px_p->px_pec_p;
540 	msiqid_t		eq_no = msiq_state_p->msiq_1st_msiq_id;
541 	pci_msiq_state_t	msiq_state;
542 	int			i;
543 
544 	for (i = 0; i < msiq_state_p->msiq_cnt; i++) {
545 		if (i + eq_no == pec_p->pec_corr_msg_msiq_id) /* skip CE q */
546 			continue;
547 		if ((px_lib_msiq_getstate(dip, i + eq_no, &msiq_state) !=
548 		    DDI_SUCCESS) || msiq_state == PCI_MSIQ_STATE_ERROR)
549 			return (PX_PANIC);
550 	}
551 	return (PX_NO_PANIC);
552 }
553 
554 /* ARGSUSED */
555 int
556 px_err_check_pcie(dev_info_t *dip, ddi_fm_error_t *derr, px_err_pcie_t *regs)
557 {
558 	px_t		*px_p = DIP_TO_STATE(dip);
559 	pf_data_t	*pfd_p = px_get_pfd(px_p);
560 	int		i;
561 	pf_pcie_adv_err_regs_t *adv_reg = PCIE_ADV_REG(pfd_p);
562 
563 	/*
564 	 * set RC s_status in PCI term to coordinate with downstream fabric
565 	 * errors ananlysis.
566 	 */
567 	if (regs->primary_ue & PCIE_AER_UCE_UR)
568 		PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat = PCI_STAT_R_MAST_AB;
569 	if (regs->primary_ue & PCIE_AER_UCE_CA)
570 		PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat = PCI_STAT_R_TARG_AB;
571 	if (regs->primary_ue & (PCIE_AER_UCE_PTLP | PCIE_AER_UCE_ECRC))
572 		PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat = PCI_STAT_PERROR;
573 
574 	if (!regs->primary_ue)
575 		goto done;
576 
577 	adv_reg->pcie_ce_status = regs->ce_reg;
578 	adv_reg->pcie_ue_status = regs->ue_reg | regs->primary_ue;
579 	PCIE_ADV_HDR(pfd_p, 0) = regs->rx_hdr1;
580 	PCIE_ADV_HDR(pfd_p, 1) = regs->rx_hdr2;
581 	PCIE_ADV_HDR(pfd_p, 2) = regs->rx_hdr3;
582 	PCIE_ADV_HDR(pfd_p, 3) = regs->rx_hdr4;
583 	for (i = regs->primary_ue; i != 1; i = i >> 1)
584 		adv_reg->pcie_adv_ctl++;
585 
586 	if (regs->primary_ue & (PCIE_AER_UCE_UR | PCIE_AER_UCE_CA)) {
587 		if (pf_tlp_decode(PCIE_DIP2BUS(dip), adv_reg) == DDI_SUCCESS)
588 			PCIE_ROOT_FAULT(pfd_p)->scan_bdf =
589 			    adv_reg->pcie_ue_tgt_bdf;
590 	} else if (regs->primary_ue & PCIE_AER_UCE_PTLP) {
591 		if (pf_tlp_decode(PCIE_DIP2BUS(dip), adv_reg) == DDI_SUCCESS) {
592 			PCIE_ROOT_FAULT(pfd_p)->scan_bdf =
593 			    adv_reg->pcie_ue_tgt_bdf;
594 			if (adv_reg->pcie_ue_tgt_trans ==
595 			    PF_ADDR_PIO)
596 				PCIE_ROOT_FAULT(pfd_p)->scan_addr =
597 				    adv_reg->pcie_ue_tgt_addr;
598 		}
599 
600 		/*
601 		 * Normally for Poisoned Completion TLPs we can look at the
602 		 * transmit log header for the original request and the original
603 		 * address, however this doesn't seem to be working.  HW BUG.
604 		 */
605 	}
606 
607 done:
608 	px_pcie_log(dip, regs);
609 
610 	/* Return No Error here and let the pcie misc module analyse it */
611 	return (PX_NO_ERROR);
612 }
613 
614 #if defined(DEBUG)
615 static void
616 px_pcie_log(dev_info_t *dip, px_err_pcie_t *regs)
617 {
618 	DBG(DBG_ERR_INTR, dip,
619 	    "A PCIe RC error has occured\n"
620 	    "\tCE: 0x%x UE: 0x%x Primary UE: 0x%x\n"
621 	    "\tTX Hdr: 0x%x 0x%x 0x%x 0x%x\n\tRX Hdr: 0x%x 0x%x 0x%x 0x%x\n",
622 	    regs->ce_reg, regs->ue_reg, regs->primary_ue,
623 	    regs->tx_hdr1, regs->tx_hdr2, regs->tx_hdr3, regs->tx_hdr4,
624 	    regs->rx_hdr1, regs->rx_hdr2, regs->rx_hdr3, regs->rx_hdr4);
625 }
626 #endif
627 
628 /*
629  * look through poisoned TLP cases and suggest panic/no panic depend on
630  * handle lookup.
631  */
632 static int
633 px_pcie_ptlp(dev_info_t *dip, ddi_fm_error_t *derr, px_err_pcie_t *regs)
634 {
635 	pf_pcie_adv_err_regs_t adv_reg;
636 	pcie_req_id_t	bdf;
637 	uint64_t	addr;
638 	uint32_t	trans_type;
639 	int		tlp_sts, tlp_cmd;
640 	int		lookup = PF_HDL_NOTFOUND;
641 
642 	if (regs->primary_ue != PCIE_AER_UCE_PTLP)
643 		return (PX_PANIC);
644 
645 	if (!regs->rx_hdr1)
646 		goto done;
647 
648 	adv_reg.pcie_ue_hdr[0] = regs->rx_hdr1;
649 	adv_reg.pcie_ue_hdr[1] = regs->rx_hdr2;
650 	adv_reg.pcie_ue_hdr[2] = regs->rx_hdr3;
651 	adv_reg.pcie_ue_hdr[3] = regs->rx_hdr4;
652 
653 	tlp_sts = pf_tlp_decode(PCIE_DIP2BUS(dip), &adv_reg);
654 	tlp_cmd = ((pcie_tlp_hdr_t *)(adv_reg.pcie_ue_hdr))->type;
655 
656 	if (tlp_sts == DDI_FAILURE)
657 		goto done;
658 
659 	bdf = adv_reg.pcie_ue_tgt_bdf;
660 	addr = adv_reg.pcie_ue_tgt_addr;
661 	trans_type = adv_reg.pcie_ue_tgt_trans;
662 
663 	switch (tlp_cmd) {
664 	case PCIE_TLP_TYPE_CPL:
665 	case PCIE_TLP_TYPE_CPLLK:
666 		/*
667 		 * Usually a PTLP is a CPL with data.  Grab the completer BDF
668 		 * from the RX TLP, and the original address from the TX TLP.
669 		 */
670 		if (regs->tx_hdr1) {
671 			adv_reg.pcie_ue_hdr[0] = regs->tx_hdr1;
672 			adv_reg.pcie_ue_hdr[1] = regs->tx_hdr2;
673 			adv_reg.pcie_ue_hdr[2] = regs->tx_hdr3;
674 			adv_reg.pcie_ue_hdr[3] = regs->tx_hdr4;
675 
676 			lookup = pf_tlp_decode(PCIE_DIP2BUS(dip), &adv_reg);
677 			if (lookup != DDI_SUCCESS)
678 				break;
679 			addr = adv_reg.pcie_ue_tgt_addr;
680 			trans_type = adv_reg.pcie_ue_tgt_trans;
681 		} /* FALLTHRU */
682 	case PCIE_TLP_TYPE_IO:
683 	case PCIE_TLP_TYPE_MEM:
684 	case PCIE_TLP_TYPE_MEMLK:
685 		lookup = pf_hdl_lookup(dip, derr->fme_ena, trans_type, addr,
686 		    bdf);
687 		break;
688 	default:
689 		lookup = PF_HDL_NOTFOUND;
690 	}
691 done:
692 	return (lookup == PF_HDL_FOUND ? PX_NO_PANIC : PX_PANIC);
693 }
694 
695 /*
696  * px_get_pdf automatically allocates a RC pf_data_t and returns a pointer to
697  * it.  This function should be used when an error requires a fabric scan.
698  */
699 static pf_data_t *
700 px_get_pfd(px_t *px_p) {
701 	int		idx = px_p->px_pfd_idx++;
702 	pf_data_t	*pfd_p = &px_p->px_pfd_arr[idx];
703 
704 	/* Clear Old Data */
705 	PCIE_ROOT_FAULT(pfd_p)->scan_bdf = PCIE_INVALID_BDF;
706 	PCIE_ROOT_FAULT(pfd_p)->scan_addr = 0;
707 	PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat = 0;
708 	PCIE_ADV_REG(pfd_p)->pcie_ce_status = 0;
709 	PCIE_ADV_REG(pfd_p)->pcie_ue_status = 0;
710 
711 	pfd_p->pe_next = NULL;
712 
713 	if (idx > 0) {
714 		px_p->px_pfd_arr[idx - 1].pe_next = pfd_p;
715 		pfd_p->pe_prev = &px_p->px_pfd_arr[idx - 1];
716 	} else {
717 		pfd_p->pe_prev = NULL;
718 	}
719 
720 	pfd_p->pe_valid = B_TRUE;
721 
722 	return (pfd_p);
723 }
724 
725 /*
726  * This function appends a pf_data structure to the error q which is used later
727  * during PCIe fabric scan.  It signifies:
728  * o errs rcvd in RC, that may have been propagated to/from the fabric
729  * o the fabric scan code should scan the device path of fault bdf/addr
730  *
731  * scan_bdf: The bdf that caused the fault, which may have error bits set.
732  * scan_addr: The PIO addr that caused the fault, such as failed PIO, but not
733  *	       failed DMAs.
734  * s_status: Secondary Status equivalent to why the fault occured.
735  *	     (ie S-TA/MA, R-TA)
736  * Either the scan bdf or addr may be NULL, but not both.
737  */
738 void
739 px_rp_en_q(px_t *px_p, pcie_req_id_t scan_bdf, uint32_t scan_addr,
740     uint16_t s_status)
741 {
742 	pf_data_t	*pfd_p;
743 
744 	if (!PCIE_CHECK_VALID_BDF(scan_bdf) && !scan_addr)
745 		return;
746 
747 	pfd_p = px_get_pfd(px_p);
748 
749 	PCIE_ROOT_FAULT(pfd_p)->scan_bdf = scan_bdf;
750 	PCIE_ROOT_FAULT(pfd_p)->scan_addr = (uint64_t)scan_addr;
751 	PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat = s_status;
752 }
753 
754 
755 /*
756  * Find and Mark CFG Handles as failed associated with the given BDF. We should
757  * always know the BDF for CFG accesses, since it is encoded in the address of
758  * the TLP.  Since there can be multiple cfg handles, mark them all as failed.
759  */
760 /* ARGSUSED */
761 int
762 px_err_cfg_hdl_check(dev_info_t *dip, const void *handle, const void *arg1,
763     const void *arg2)
764 {
765 	int			status = DDI_FM_FATAL;
766 	uint32_t		addr = *(uint32_t *)arg1;
767 	uint16_t		bdf = *(uint16_t *)arg2;
768 	pcie_bus_t		*bus_p;
769 
770 	DBG(DBG_ERR_INTR, dip, "Check CFG Hdl: dip 0x%p addr 0x%x bdf=0x%x\n",
771 	    dip, addr, bdf);
772 
773 	bus_p = PCIE_DIP2BUS(dip);
774 
775 	/*
776 	 * Because CFG and IO Acc Handlers are on the same cache list and both
777 	 * types of hdls gets called for both types of errors.  For this checker
778 	 * only mark the device as "Non-Fatal" if the addr == NULL and bdf !=
779 	 * NULL.
780 	 */
781 	status = (!addr && (PCIE_CHECK_VALID_BDF(bdf) &&
782 	    (bus_p->bus_bdf == bdf))) ? DDI_FM_NONFATAL : DDI_FM_FATAL;
783 
784 	return (status);
785 }
786 
787 /*
788  * Find and Mark all ACC Handles associated with a give address and BDF as
789  * failed.  If the BDF != NULL, then check to see if the device has a ACC Handle
790  * associated with ADDR.  If the handle is not found, mark all the handles as
791  * failed.  If the BDF == NULL, mark the handle as failed if it is associated
792  * with ADDR.
793  */
794 int
795 px_err_pio_hdl_check(dev_info_t *dip, const void *handle, const void *arg1,
796     const void *arg2)
797 {
798 	dev_info_t		*px_dip = PCIE_DIP2BUS(dip)->bus_rp_dip;
799 	px_t			*px_p = INST_TO_STATE(ddi_get_instance(px_dip));
800 	px_ranges_t		*ranges_p;
801 	int			range_len;
802 	ddi_acc_handle_t	ap = (ddi_acc_handle_t)handle;
803 	ddi_acc_hdl_t		*hp = impl_acc_hdl_get(ap);
804 	int			i, status = DDI_FM_FATAL;
805 	uint64_t		fault_addr = *(uint64_t *)arg1;
806 	uint16_t		bdf = *(uint16_t *)arg2;
807 	uint64_t		base_addr, range_addr;
808 	uint_t			size;
809 
810 	DBG(DBG_ERR_INTR, dip, "Check PIO Hdl: dip 0x%x addr 0x%x bdf=0x%x\n",
811 	    dip, fault_addr, bdf);
812 
813 	/* Normalize the base addr to the addr and strip off the HB info. */
814 	base_addr = (hp->ah_pfn << MMU_PAGESHIFT) + hp->ah_offset;
815 	range_len = px_p->px_ranges_length / sizeof (px_ranges_t);
816 	i = 0;
817 	for (ranges_p = px_p->px_ranges_p; i < range_len; i++, ranges_p++) {
818 		range_addr = px_in_addr_range(dip, ranges_p, base_addr);
819 		if (range_addr) {
820 			switch (ranges_p->child_high & PCI_ADDR_MASK) {
821 			case PCI_ADDR_IO:
822 			case PCI_ADDR_MEM64:
823 			case PCI_ADDR_MEM32:
824 				base_addr = base_addr - range_addr;
825 				break;
826 			}
827 			break;
828 		}
829 	}
830 
831 	/*
832 	 * Mark the handle as failed if the ADDR is mapped, or if we
833 	 * know the BDF and ADDR == 0.
834 	 */
835 	size = hp->ah_len;
836 	if (((fault_addr >= base_addr) && (fault_addr < (base_addr + size))) ||
837 	    ((fault_addr == NULL) && (PCIE_CHECK_VALID_BDF(bdf) &&
838 	    (bdf == PCIE_DIP2BUS(dip)->bus_bdf))))
839 		status = DDI_FM_NONFATAL;
840 
841 	return (status);
842 }
843 
844 /*
845  * Find and Mark all DNA Handles associated with a give address and BDF as
846  * failed.  If the BDF != NULL, then check to see if the device has a DMA Handle
847  * associated with ADDR.  If the handle is not found, mark all the handles as
848  * failed.  If the BDF == NULL, mark the handle as failed if it is associated
849  * with ADDR.
850  */
851 int
852 px_err_dma_hdl_check(dev_info_t *dip, const void *handle, const void *arg1,
853     const void *arg2)
854 {
855 	ddi_dma_impl_t		*pcie_dp;
856 	int			status = DDI_FM_FATAL;
857 	uint32_t		addr = *(uint32_t *)arg1;
858 	uint16_t		bdf = *(uint16_t *)arg2;
859 	uint32_t		base_addr;
860 	uint_t			size;
861 
862 	DBG(DBG_ERR_INTR, dip, "Check PIO Hdl: dip 0x%x addr 0x%x bdf=0x%x\n",
863 	    dip, addr, bdf);
864 
865 	pcie_dp = (ddi_dma_impl_t *)handle;
866 	base_addr = (uint32_t)pcie_dp->dmai_mapping;
867 	size = pcie_dp->dmai_size;
868 
869 	/*
870 	 * Mark the handle as failed if the ADDR is mapped, or if we
871 	 * know the BDF and ADDR == 0.
872 	 */
873 	if (((addr >= base_addr) && (addr < (base_addr + size))) ||
874 	    ((addr == NULL) && PCIE_CHECK_VALID_BDF(bdf)))
875 		status = DDI_FM_NONFATAL;
876 
877 	return (status);
878 }
879 
880 int
881 px_fm_enter(px_t *px_p) {
882 	if (px_panicing || (px_p->px_fm_mutex_owner == curthread))
883 		return (DDI_FAILURE);
884 
885 	mutex_enter(&px_p->px_fm_mutex);
886 	/*
887 	 * In rare cases when trap occurs and in the middle of scanning the
888 	 * fabric, a PIO will fail in the scan fabric.  The CPU error handling
889 	 * code will correctly panic the system, while a mondo for the failed
890 	 * PIO may also show up.  Normally the mondo will try to grab the mutex
891 	 * and wait until the callback finishes.  But in this rare case,
892 	 * mutex_enter actually suceeds also continues to scan the fabric.
893 	 *
894 	 * This code below is designed specifically to check for this case.  If
895 	 * we successfully grab the px_fm_mutex, the px_fm_mutex_owner better be
896 	 * NULL.  If it isn't that means we are in the rare corner case.  Return
897 	 * DDI_FAILURE, this should prevent PX from doing anymore error
898 	 * handling.
899 	 */
900 	if (px_p->px_fm_mutex_owner) {
901 		return (DDI_FAILURE);
902 	}
903 
904 	px_p->px_fm_mutex_owner = curthread;
905 
906 	if (px_panicing) {
907 		px_fm_exit(px_p);
908 		return (DDI_FAILURE);
909 	}
910 	return (DDI_SUCCESS);
911 }
912 
913 void
914 px_fm_exit(px_t *px_p) {
915 	px_p->px_fm_mutex_owner = NULL;
916 	mutex_exit(&px_p->px_fm_mutex);
917 }
918 
919 /*
920  * Panic if the err tunable is set and that we are not already in the middle
921  * of panic'ing.
922  *
923  * rc_err = Error severity of PX specific errors
924  * msg = Where the error was detected
925  * fabric_err = Error severity of PCIe Fabric errors
926  * isTest = Test if error severity causes panic
927  */
928 #define	MSZ (sizeof (fm_msg) -strlen(fm_msg) - 1)
929 void
930 px_err_panic(int rc_err, int msg, int fabric_err, boolean_t isTest)
931 {
932 	char fm_msg[96] = "";
933 	int ferr = PX_NO_ERROR;
934 
935 	if (panicstr) {
936 		px_panicing = B_TRUE;
937 		return;
938 	}
939 
940 	if (!(rc_err & px_die))
941 		goto fabric;
942 	if (msg & PX_RC)
943 		(void) strncat(fm_msg, px_panic_rc_msg, MSZ);
944 	if (msg & PX_RP)
945 		(void) strncat(fm_msg, px_panic_rp_msg, MSZ);
946 	if (msg & PX_HB)
947 		(void) strncat(fm_msg, px_panic_hb_msg, MSZ);
948 
949 fabric:
950 	if (fabric_err & PF_ERR_FATAL_FLAGS)
951 		ferr = PX_PANIC;
952 	else if (fabric_err & ~(PF_ERR_FATAL_FLAGS | PF_ERR_NO_ERROR))
953 		ferr = PX_NO_PANIC;
954 
955 	if (ferr & px_die) {
956 		if (strlen(fm_msg)) {
957 			(void) strncat(fm_msg, " and", MSZ);
958 		}
959 		(void) strncat(fm_msg, px_panic_fab_msg, MSZ);
960 	}
961 
962 	if (strlen(fm_msg)) {
963 		px_panicing = B_TRUE;
964 		if (!isTest)
965 			fm_panic("Fatal error has occured in:%s.(0x%x)(0x%x)",
966 			    fm_msg, rc_err, fabric_err);
967 	}
968 }
969