xref: /illumos-gate/usr/src/uts/common/io/pciex/pcie_fault.c (revision 2e0fe3efe5f9d579d4e44b3532d8e342c68b40ca)
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 (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved.
23  */
24 
25 #include <sys/sysmacros.h>
26 #include <sys/types.h>
27 #include <sys/kmem.h>
28 #include <sys/modctl.h>
29 #include <sys/ddi.h>
30 #include <sys/sunddi.h>
31 #include <sys/sunndi.h>
32 #include <sys/fm/protocol.h>
33 #include <sys/fm/util.h>
34 #include <sys/fm/io/ddi.h>
35 #include <sys/fm/io/pci.h>
36 #include <sys/promif.h>
37 #include <sys/disp.h>
38 #include <sys/atomic.h>
39 #include <sys/pcie.h>
40 #include <sys/pci_cap.h>
41 #include <sys/pcie_impl.h>
42 
43 #define	PF_PCIE_BDG_ERR (PCIE_DEVSTS_FE_DETECTED | PCIE_DEVSTS_NFE_DETECTED | \
44 	PCIE_DEVSTS_CE_DETECTED)
45 
46 #define	PF_PCI_BDG_ERR (PCI_STAT_S_SYSERR | PCI_STAT_S_TARG_AB | \
47 	PCI_STAT_R_MAST_AB | PCI_STAT_R_TARG_AB | PCI_STAT_S_PERROR)
48 
49 #define	PF_AER_FATAL_ERR (PCIE_AER_UCE_DLP | PCIE_AER_UCE_SD |\
50 	PCIE_AER_UCE_FCP | PCIE_AER_UCE_RO | PCIE_AER_UCE_MTLP)
51 #define	PF_AER_NON_FATAL_ERR (PCIE_AER_UCE_PTLP | PCIE_AER_UCE_TO | \
52 	PCIE_AER_UCE_CA | PCIE_AER_UCE_ECRC | PCIE_AER_UCE_UR)
53 
54 #define	PF_SAER_FATAL_ERR (PCIE_AER_SUCE_USC_MSG_DATA_ERR | \
55 	PCIE_AER_SUCE_UC_ATTR_ERR | PCIE_AER_SUCE_UC_ADDR_ERR | \
56 	PCIE_AER_SUCE_SERR_ASSERT)
57 #define	PF_SAER_NON_FATAL_ERR (PCIE_AER_SUCE_TA_ON_SC | \
58 	PCIE_AER_SUCE_MA_ON_SC | PCIE_AER_SUCE_RCVD_TA | \
59 	PCIE_AER_SUCE_RCVD_MA | PCIE_AER_SUCE_USC_ERR | \
60 	PCIE_AER_SUCE_UC_DATA_ERR | PCIE_AER_SUCE_TIMER_EXPIRED | \
61 	PCIE_AER_SUCE_PERR_ASSERT | PCIE_AER_SUCE_INTERNAL_ERR)
62 
63 #define	PF_PCI_PARITY_ERR (PCI_STAT_S_PERROR | PCI_STAT_PERROR)
64 
65 #define	PF_FIRST_AER_ERR(bit, adv) \
66 	(bit & (1 << (adv->pcie_adv_ctl & PCIE_AER_CTL_FST_ERR_PTR_MASK)))
67 
68 #define	HAS_AER_LOGS(pfd_p, bit) \
69 	(PCIE_HAS_AER(pfd_p->pe_bus_p) && \
70 	PF_FIRST_AER_ERR(bit, PCIE_ADV_REG(pfd_p)))
71 
72 #define	PF_FIRST_SAER_ERR(bit, adv) \
73 	(bit & (1 << (adv->pcie_sue_ctl & PCIE_AER_SCTL_FST_ERR_PTR_MASK)))
74 
75 #define	HAS_SAER_LOGS(pfd_p, bit) \
76 	(PCIE_HAS_AER(pfd_p->pe_bus_p) && \
77 	PF_FIRST_SAER_ERR(bit, PCIE_ADV_BDG_REG(pfd_p)))
78 
79 #define	GET_SAER_CMD(pfd_p) \
80 	((PCIE_ADV_BDG_HDR(pfd_p, 1) >> \
81 	PCIE_AER_SUCE_HDR_CMD_LWR_SHIFT) & PCIE_AER_SUCE_HDR_CMD_LWR_MASK)
82 
83 #define	CE_ADVISORY(pfd_p) \
84 	(PCIE_ADV_REG(pfd_p)->pcie_ce_status & PCIE_AER_CE_AD_NFE)
85 
86 /* PCIe Fault Fabric Error analysis table */
87 typedef struct pf_fab_err_tbl {
88 	uint32_t	bit;		/* Error bit */
89 	int		(*handler)();	/* Error handling fuction */
90 	uint16_t	affected_flags; /* Primary affected flag */
91 	/*
92 	 * Secondary affected flag, effective when the information
93 	 * indicated by the primary flag is not available, eg.
94 	 * PF_AFFECTED_AER/SAER/ADDR
95 	 */
96 	uint16_t	sec_affected_flags;
97 } pf_fab_err_tbl_t;
98 
99 static pcie_bus_t *pf_is_ready(dev_info_t *);
100 /* Functions for scanning errors */
101 static int pf_default_hdl(dev_info_t *, pf_impl_t *);
102 static int pf_dispatch(dev_info_t *, pf_impl_t *, boolean_t);
103 static boolean_t pf_in_addr_range(pcie_bus_t *, uint64_t);
104 
105 /* Functions for gathering errors */
106 static void pf_pcix_ecc_regs_gather(pf_pcix_ecc_regs_t *pcix_ecc_regs,
107     pcie_bus_t *bus_p, boolean_t bdg);
108 static void pf_pcix_regs_gather(pf_data_t *pfd_p, pcie_bus_t *bus_p);
109 static void pf_pcie_regs_gather(pf_data_t *pfd_p, pcie_bus_t *bus_p);
110 static void pf_pci_regs_gather(pf_data_t *pfd_p, pcie_bus_t *bus_p);
111 static int pf_dummy_cb(dev_info_t *, ddi_fm_error_t *, const void *);
112 static void pf_en_dq(pf_data_t *pfd_p, pf_impl_t *impl_p);
113 
114 /* Functions for analysing errors */
115 static int pf_analyse_error(ddi_fm_error_t *, pf_impl_t *);
116 static void pf_adjust_for_no_aer(pf_data_t *);
117 static void pf_adjust_for_no_saer(pf_data_t *);
118 static pf_data_t *pf_get_pcie_bridge(pf_data_t *, pcie_req_id_t);
119 static pf_data_t *pf_get_parent_pcie_bridge(pf_data_t *);
120 static boolean_t pf_matched_in_rc(pf_data_t *, pf_data_t *,
121     uint32_t);
122 static int pf_analyse_error_tbl(ddi_fm_error_t *, pf_impl_t *,
123     pf_data_t *, const pf_fab_err_tbl_t *, uint32_t);
124 static int pf_analyse_ca_ur(ddi_fm_error_t *, uint32_t,
125     pf_data_t *, pf_data_t *);
126 static int pf_analyse_ma_ta(ddi_fm_error_t *, uint32_t,
127     pf_data_t *, pf_data_t *);
128 static int pf_analyse_pci(ddi_fm_error_t *, uint32_t,
129     pf_data_t *, pf_data_t *);
130 static int pf_analyse_perr_assert(ddi_fm_error_t *, uint32_t,
131     pf_data_t *, pf_data_t *);
132 static int pf_analyse_ptlp(ddi_fm_error_t *, uint32_t,
133     pf_data_t *, pf_data_t *);
134 static int pf_analyse_sc(ddi_fm_error_t *, uint32_t,
135     pf_data_t *, pf_data_t *);
136 static int pf_analyse_to(ddi_fm_error_t *, uint32_t,
137     pf_data_t *, pf_data_t *);
138 static int pf_analyse_uc(ddi_fm_error_t *, uint32_t,
139     pf_data_t *, pf_data_t *);
140 static int pf_analyse_uc_data(ddi_fm_error_t *, uint32_t,
141     pf_data_t *, pf_data_t *);
142 static int pf_no_panic(ddi_fm_error_t *, uint32_t,
143     pf_data_t *, pf_data_t *);
144 static int pf_panic(ddi_fm_error_t *, uint32_t,
145     pf_data_t *, pf_data_t *);
146 static void pf_send_ereport(ddi_fm_error_t *, pf_impl_t *);
147 static int pf_fm_callback(dev_info_t *dip, ddi_fm_error_t *derr);
148 
149 /* PCIe Fabric Handle Lookup Support Functions. */
150 static int pf_hdl_child_lookup(dev_info_t *, ddi_fm_error_t *, uint32_t,
151     uint64_t, pcie_req_id_t);
152 static int pf_hdl_compare(dev_info_t *, ddi_fm_error_t *, uint32_t, uint64_t,
153     pcie_req_id_t, ndi_fmc_t *);
154 static int pf_log_hdl_lookup(dev_info_t *, ddi_fm_error_t *, pf_data_t *,
155 	boolean_t);
156 
157 static int pf_handler_enter(dev_info_t *, pf_impl_t *);
158 static void pf_handler_exit(dev_info_t *);
159 static void pf_reset_pfd(pf_data_t *);
160 
161 boolean_t pcie_full_scan = B_FALSE;	/* Force to always do a full scan */
162 int pcie_disable_scan = 0;		/* Disable fabric scan */
163 
164 /* Inform interested parties that error handling is about to begin. */
165 /* ARGSUSED */
166 void
167 pf_eh_enter(pcie_bus_t *bus_p) {
168 }
169 
170 /* Inform interested parties that error handling has ended. */
171 void
172 pf_eh_exit(pcie_bus_t *bus_p)
173 {
174 	pcie_bus_t *rbus_p = PCIE_DIP2BUS(bus_p->bus_rp_dip);
175 	pf_data_t *root_pfd_p = PCIE_BUS2PFD(rbus_p);
176 	pf_data_t *pfd_p;
177 	uint_t intr_type = PCIE_ROOT_EH_SRC(root_pfd_p)->intr_type;
178 
179 	pciev_eh_exit(root_pfd_p, intr_type);
180 
181 	/* Clear affected device info and INTR SRC */
182 	for (pfd_p = root_pfd_p; pfd_p; pfd_p = pfd_p->pe_next) {
183 		PFD_AFFECTED_DEV(pfd_p)->pe_affected_flags = 0;
184 		PFD_AFFECTED_DEV(pfd_p)->pe_affected_bdf = PCIE_INVALID_BDF;
185 		if (PCIE_IS_ROOT(PCIE_PFD2BUS(pfd_p))) {
186 			PCIE_ROOT_EH_SRC(pfd_p)->intr_type = PF_INTR_TYPE_NONE;
187 			PCIE_ROOT_EH_SRC(pfd_p)->intr_data = NULL;
188 		}
189 	}
190 }
191 
192 /*
193  * Scan Fabric is the entry point for PCI/PCIe IO fabric errors.  The
194  * caller may create a local pf_data_t with the "root fault"
195  * information populated to either do a precise or full scan.  More
196  * than one pf_data_t maybe linked together if there are multiple
197  * errors.  Only a PCIe compliant Root Port device may pass in NULL
198  * for the root_pfd_p.
199  *
200  * "Root Complexes" such as NPE and PX should call scan_fabric using itself as
201  * the rdip.  PCIe Root ports should call pf_scan_fabric using it's parent as
202  * the rdip.
203  *
204  * Scan fabric initiated from RCs are likely due to a fabric message, traps or
205  * any RC detected errors that propagated to/from the fabric.
206  *
207  * This code assumes that by the time pf_scan_fabric is
208  * called, pf_handler_enter has NOT been called on the rdip.
209  */
210 int
211 pf_scan_fabric(dev_info_t *rdip, ddi_fm_error_t *derr, pf_data_t *root_pfd_p)
212 {
213 	pf_impl_t	impl;
214 	pf_data_t	*pfd_p, *pfd_head_p, *pfd_tail_p;
215 	int		scan_flag = PF_SCAN_SUCCESS;
216 	int		analyse_flag = PF_ERR_NO_ERROR;
217 	boolean_t	full_scan = pcie_full_scan;
218 
219 	if (pcie_disable_scan)
220 		return (analyse_flag);
221 
222 	/* Find the head and tail of this link list */
223 	pfd_head_p = root_pfd_p;
224 	for (pfd_tail_p = root_pfd_p; pfd_tail_p && pfd_tail_p->pe_next;
225 	    pfd_tail_p = pfd_tail_p->pe_next)
226 		;
227 
228 	/* Save head/tail */
229 	impl.pf_total = 0;
230 	impl.pf_derr = derr;
231 	impl.pf_dq_head_p = pfd_head_p;
232 	impl.pf_dq_tail_p = pfd_tail_p;
233 
234 	/* If scan is initiated from RP then RP itself must be scanned. */
235 	if (PCIE_IS_RP(PCIE_DIP2BUS(rdip)) && pf_is_ready(rdip) &&
236 	    !root_pfd_p) {
237 		scan_flag = pf_handler_enter(rdip, &impl);
238 		if (scan_flag & PF_SCAN_DEADLOCK)
239 			goto done;
240 
241 		scan_flag = pf_default_hdl(rdip, &impl);
242 		if (scan_flag & PF_SCAN_NO_ERR_IN_CHILD)
243 			goto done;
244 	}
245 
246 	/*
247 	 * Scan the fabric using the scan_bdf and scan_addr in error q.
248 	 * scan_bdf will be valid in the following cases:
249 	 *	- Fabric message
250 	 *	- Poisoned TLP
251 	 *	- Signaled UR/CA
252 	 *	- Received UR/CA
253 	 *	- PIO load failures
254 	 */
255 	for (pfd_p = impl.pf_dq_head_p; pfd_p && PFD_IS_ROOT(pfd_p);
256 	    pfd_p = pfd_p->pe_next) {
257 		impl.pf_fault = PCIE_ROOT_FAULT(pfd_p);
258 
259 		if (PFD_IS_RC(pfd_p))
260 			impl.pf_total++;
261 
262 		if (impl.pf_fault->full_scan)
263 			full_scan = B_TRUE;
264 
265 		if (full_scan ||
266 		    PCIE_CHECK_VALID_BDF(impl.pf_fault->scan_bdf) ||
267 		    impl.pf_fault->scan_addr)
268 			scan_flag |= pf_dispatch(rdip, &impl, full_scan);
269 
270 		if (full_scan)
271 			break;
272 	}
273 
274 done:
275 	/*
276 	 * If this is due to safe access, don't analyze the errors and return
277 	 * success regardless of how scan fabric went.
278 	 */
279 	if (derr->fme_flag != DDI_FM_ERR_UNEXPECTED) {
280 		analyse_flag = PF_ERR_NO_PANIC;
281 	} else {
282 		analyse_flag = pf_analyse_error(derr, &impl);
283 	}
284 
285 	pf_send_ereport(derr, &impl);
286 
287 	/*
288 	 * Check if any hardened driver's callback reported a panic.
289 	 * If so panic.
290 	 */
291 	if (scan_flag & PF_SCAN_CB_FAILURE)
292 		analyse_flag |= PF_ERR_PANIC;
293 
294 	/*
295 	 * If a deadlock was detected, panic the system as error analysis has
296 	 * been compromised.
297 	 */
298 	if (scan_flag & PF_SCAN_DEADLOCK)
299 		analyse_flag |= PF_ERR_PANIC_DEADLOCK;
300 
301 	derr->fme_status = PF_ERR2DDIFM_ERR(scan_flag);
302 
303 	return (analyse_flag);
304 }
305 
306 void
307 pcie_force_fullscan() {
308 	pcie_full_scan = B_TRUE;
309 }
310 
311 /*
312  * pf_dispatch walks the device tree and calls the pf_default_hdl if the device
313  * falls in the error path.
314  *
315  * Returns PF_SCAN_* flags
316  */
317 static int
318 pf_dispatch(dev_info_t *pdip, pf_impl_t *impl, boolean_t full_scan)
319 {
320 	dev_info_t	*dip;
321 	pcie_req_id_t	rid = impl->pf_fault->scan_bdf;
322 	pcie_bus_t	*bus_p;
323 	int		scan_flag = PF_SCAN_SUCCESS;
324 
325 	for (dip = ddi_get_child(pdip); dip; dip = ddi_get_next_sibling(dip)) {
326 		/* Make sure dip is attached and ready */
327 		if (!(bus_p = pf_is_ready(dip)))
328 			continue;
329 
330 		scan_flag |= pf_handler_enter(dip, impl);
331 		if (scan_flag & PF_SCAN_DEADLOCK)
332 			break;
333 
334 		/*
335 		 * Handle this device if it is a:
336 		 * o Full Scan
337 		 * o PCI/PCI-X Device
338 		 * o Fault BDF = Device BDF
339 		 * o BDF/ADDR is in range of the Bridge/Switch
340 		 */
341 		if (full_scan ||
342 		    (bus_p->bus_bdf == rid) ||
343 		    pf_in_bus_range(bus_p, rid) ||
344 		    pf_in_addr_range(bus_p, impl->pf_fault->scan_addr)) {
345 			int hdl_flag = pf_default_hdl(dip, impl);
346 			scan_flag |= hdl_flag;
347 
348 			/*
349 			 * A bridge may have detected no errors in which case
350 			 * there is no need to scan further down.
351 			 */
352 			if (hdl_flag & PF_SCAN_NO_ERR_IN_CHILD)
353 				continue;
354 		} else {
355 			pf_handler_exit(dip);
356 			continue;
357 		}
358 
359 		/* match or in bridge bus-range */
360 		switch (bus_p->bus_dev_type) {
361 		case PCIE_PCIECAP_DEV_TYPE_PCIE2PCI:
362 		case PCIE_PCIECAP_DEV_TYPE_PCI2PCIE:
363 			scan_flag |= pf_dispatch(dip, impl, B_TRUE);
364 			break;
365 		case PCIE_PCIECAP_DEV_TYPE_UP:
366 		case PCIE_PCIECAP_DEV_TYPE_DOWN:
367 		case PCIE_PCIECAP_DEV_TYPE_ROOT:
368 		{
369 			pf_data_t *pfd_p = PCIE_BUS2PFD(bus_p);
370 			pf_pci_err_regs_t *err_p = PCI_ERR_REG(pfd_p);
371 			pf_pci_bdg_err_regs_t *serr_p = PCI_BDG_ERR_REG(pfd_p);
372 			/*
373 			 * Continue if the fault BDF != the switch or there is a
374 			 * parity error
375 			 */
376 			if ((bus_p->bus_bdf != rid) ||
377 			    (err_p->pci_err_status & PF_PCI_PARITY_ERR) ||
378 			    (serr_p->pci_bdg_sec_stat & PF_PCI_PARITY_ERR))
379 				scan_flag |= pf_dispatch(dip, impl, full_scan);
380 			break;
381 		}
382 		case PCIE_PCIECAP_DEV_TYPE_PCIE_DEV:
383 		case PCIE_PCIECAP_DEV_TYPE_PCI_DEV:
384 			/*
385 			 * Reached a PCIe end point so stop. Note dev_type
386 			 * PCI_DEV is just a PCIe device that requires IO Space
387 			 */
388 			break;
389 		case PCIE_PCIECAP_DEV_TYPE_PCI_PSEUDO:
390 			if (PCIE_IS_BDG(bus_p))
391 				scan_flag |= pf_dispatch(dip, impl, B_TRUE);
392 			break;
393 		default:
394 			ASSERT(B_FALSE);
395 		}
396 	}
397 	return (scan_flag);
398 }
399 
400 /* Returns whether the "bdf" is in the bus range of a switch/bridge */
401 boolean_t
402 pf_in_bus_range(pcie_bus_t *bus_p, pcie_req_id_t bdf)
403 {
404 	pci_bus_range_t *br_p = &bus_p->bus_bus_range;
405 	uint8_t		bus_no = (bdf & PCIE_REQ_ID_BUS_MASK) >>
406 	    PCIE_REQ_ID_BUS_SHIFT;
407 
408 	/* check if given bdf falls within bridge's bus range */
409 	if (PCIE_IS_BDG(bus_p) &&
410 	    ((bus_no >= br_p->lo) && (bus_no <= br_p->hi)))
411 		return (B_TRUE);
412 	else
413 		return (B_FALSE);
414 }
415 
416 /*
417  * Return whether the "addr" is in the assigned addr of a device.
418  */
419 boolean_t
420 pf_in_assigned_addr(pcie_bus_t *bus_p, uint64_t addr)
421 {
422 	uint_t		i;
423 	uint64_t	low, hi;
424 	pci_regspec_t	*assign_p = bus_p->bus_assigned_addr;
425 
426 	for (i = 0; i < bus_p->bus_assigned_entries; i++, assign_p++) {
427 		low = assign_p->pci_phys_low;
428 		hi = low + assign_p->pci_size_low;
429 		if ((addr < hi) && (addr >= low))
430 			return (B_TRUE);
431 	}
432 	return (B_FALSE);
433 }
434 
435 /*
436  * Returns whether the "addr" is in the addr range of a switch/bridge, or if the
437  * "addr" is in the assigned addr of a device.
438  */
439 static boolean_t
440 pf_in_addr_range(pcie_bus_t *bus_p, uint64_t addr)
441 {
442 	uint_t		i;
443 	uint64_t	low, hi;
444 	ppb_ranges_t	*ranges_p = bus_p->bus_addr_ranges;
445 
446 	if (!addr)
447 		return (B_FALSE);
448 
449 	/* check if given address belongs to this device */
450 	if (pf_in_assigned_addr(bus_p, addr))
451 		return (B_TRUE);
452 
453 	/* check if given address belongs to a child below this device */
454 	if (!PCIE_IS_BDG(bus_p))
455 		return (B_FALSE);
456 
457 	for (i = 0; i < bus_p->bus_addr_entries; i++, ranges_p++) {
458 		switch (ranges_p->child_high & PCI_ADDR_MASK) {
459 		case PCI_ADDR_IO:
460 		case PCI_ADDR_MEM32:
461 			low = ranges_p->child_low;
462 			hi = ranges_p->size_low + low;
463 			if ((addr < hi) && (addr >= low))
464 				return (B_TRUE);
465 			break;
466 		case PCI_ADDR_MEM64:
467 			low = ((uint64_t)ranges_p->child_mid << 32) |
468 			    (uint64_t)ranges_p->child_low;
469 			hi = (((uint64_t)ranges_p->size_high << 32) |
470 			    (uint64_t)ranges_p->size_low) + low;
471 			if ((addr < hi) && (addr >= low))
472 				return (B_TRUE);
473 			break;
474 		}
475 	}
476 	return (B_FALSE);
477 }
478 
479 static pcie_bus_t *
480 pf_is_ready(dev_info_t *dip)
481 {
482 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
483 	if (!bus_p)
484 		return (NULL);
485 
486 	if (!(bus_p->bus_fm_flags & PF_FM_READY))
487 		return (NULL);
488 	return (bus_p);
489 }
490 
491 static void
492 pf_pcix_ecc_regs_gather(pf_pcix_ecc_regs_t *pcix_ecc_regs,
493     pcie_bus_t *bus_p, boolean_t bdg)
494 {
495 	if (bdg) {
496 		pcix_ecc_regs->pcix_ecc_ctlstat = PCIX_CAP_GET(32, bus_p,
497 		    PCI_PCIX_BDG_ECC_STATUS);
498 		pcix_ecc_regs->pcix_ecc_fstaddr = PCIX_CAP_GET(32, bus_p,
499 		    PCI_PCIX_BDG_ECC_FST_AD);
500 		pcix_ecc_regs->pcix_ecc_secaddr = PCIX_CAP_GET(32, bus_p,
501 		    PCI_PCIX_BDG_ECC_SEC_AD);
502 		pcix_ecc_regs->pcix_ecc_attr = PCIX_CAP_GET(32, bus_p,
503 		    PCI_PCIX_BDG_ECC_ATTR);
504 	} else {
505 		pcix_ecc_regs->pcix_ecc_ctlstat = PCIX_CAP_GET(32, bus_p,
506 		    PCI_PCIX_ECC_STATUS);
507 		pcix_ecc_regs->pcix_ecc_fstaddr = PCIX_CAP_GET(32, bus_p,
508 		    PCI_PCIX_ECC_FST_AD);
509 		pcix_ecc_regs->pcix_ecc_secaddr = PCIX_CAP_GET(32, bus_p,
510 		    PCI_PCIX_ECC_SEC_AD);
511 		pcix_ecc_regs->pcix_ecc_attr = PCIX_CAP_GET(32, bus_p,
512 		    PCI_PCIX_ECC_ATTR);
513 	}
514 }
515 
516 
517 static void
518 pf_pcix_regs_gather(pf_data_t *pfd_p, pcie_bus_t *bus_p)
519 {
520 	/*
521 	 * For PCI-X device PCI-X Capability only exists for Type 0 Headers.
522 	 * PCI-X Bridge Capability only exists for Type 1 Headers.
523 	 * Both capabilities do not exist at the same time.
524 	 */
525 	if (PCIE_IS_BDG(bus_p)) {
526 		pf_pcix_bdg_err_regs_t *pcix_bdg_regs;
527 
528 		pcix_bdg_regs = PCIX_BDG_ERR_REG(pfd_p);
529 
530 		pcix_bdg_regs->pcix_bdg_sec_stat = PCIX_CAP_GET(16, bus_p,
531 		    PCI_PCIX_SEC_STATUS);
532 		pcix_bdg_regs->pcix_bdg_stat = PCIX_CAP_GET(32, bus_p,
533 		    PCI_PCIX_BDG_STATUS);
534 
535 		if (PCIX_ECC_VERSION_CHECK(bus_p)) {
536 			/*
537 			 * PCI Express to PCI-X bridges only implement the
538 			 * secondary side of the PCI-X ECC registers, bit one is
539 			 * read-only so we make sure we do not write to it.
540 			 */
541 			if (!PCIE_IS_PCIE_BDG(bus_p)) {
542 				PCIX_CAP_PUT(32, bus_p, PCI_PCIX_BDG_ECC_STATUS,
543 				    0);
544 				pf_pcix_ecc_regs_gather(
545 				    PCIX_BDG_ECC_REG(pfd_p, 0), bus_p, B_TRUE);
546 				PCIX_CAP_PUT(32, bus_p, PCI_PCIX_BDG_ECC_STATUS,
547 				    1);
548 			}
549 			pf_pcix_ecc_regs_gather(PCIX_BDG_ECC_REG(pfd_p, 0),
550 			    bus_p, B_TRUE);
551 		}
552 	} else {
553 		pf_pcix_err_regs_t *pcix_regs = PCIX_ERR_REG(pfd_p);
554 
555 		pcix_regs->pcix_command = PCIX_CAP_GET(16, bus_p,
556 		    PCI_PCIX_COMMAND);
557 		pcix_regs->pcix_status = PCIX_CAP_GET(32, bus_p,
558 		    PCI_PCIX_STATUS);
559 		if (PCIX_ECC_VERSION_CHECK(bus_p))
560 			pf_pcix_ecc_regs_gather(PCIX_ECC_REG(pfd_p), bus_p,
561 			    B_TRUE);
562 	}
563 }
564 
565 static void
566 pf_pcie_regs_gather(pf_data_t *pfd_p, pcie_bus_t *bus_p)
567 {
568 	pf_pcie_err_regs_t *pcie_regs = PCIE_ERR_REG(pfd_p);
569 	pf_pcie_adv_err_regs_t *pcie_adv_regs = PCIE_ADV_REG(pfd_p);
570 
571 	pcie_regs->pcie_err_status = PCIE_CAP_GET(16, bus_p, PCIE_DEVSTS);
572 	pcie_regs->pcie_err_ctl = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL);
573 	pcie_regs->pcie_dev_cap = PCIE_CAP_GET(32, bus_p, PCIE_DEVCAP);
574 
575 	if (PCIE_IS_BDG(bus_p) && PCIE_IS_PCIX(bus_p))
576 		pf_pcix_regs_gather(pfd_p, bus_p);
577 
578 	if (PCIE_IS_ROOT(bus_p)) {
579 		pf_pcie_rp_err_regs_t *pcie_rp_regs = PCIE_RP_REG(pfd_p);
580 
581 		pcie_rp_regs->pcie_rp_status = PCIE_CAP_GET(32, bus_p,
582 		    PCIE_ROOTSTS);
583 		pcie_rp_regs->pcie_rp_ctl = PCIE_CAP_GET(16, bus_p,
584 		    PCIE_ROOTCTL);
585 	}
586 
587 	if (!PCIE_HAS_AER(bus_p))
588 		return;
589 
590 	/* Gather UE AERs */
591 	pcie_adv_regs->pcie_adv_ctl = PCIE_AER_GET(32, bus_p,
592 	    PCIE_AER_CTL);
593 	pcie_adv_regs->pcie_ue_status = PCIE_AER_GET(32, bus_p,
594 	    PCIE_AER_UCE_STS);
595 	pcie_adv_regs->pcie_ue_mask = PCIE_AER_GET(32, bus_p,
596 	    PCIE_AER_UCE_MASK);
597 	pcie_adv_regs->pcie_ue_sev = PCIE_AER_GET(32, bus_p,
598 	    PCIE_AER_UCE_SERV);
599 	PCIE_ADV_HDR(pfd_p, 0) = PCIE_AER_GET(32, bus_p,
600 	    PCIE_AER_HDR_LOG);
601 	PCIE_ADV_HDR(pfd_p, 1) = PCIE_AER_GET(32, bus_p,
602 	    PCIE_AER_HDR_LOG + 0x4);
603 	PCIE_ADV_HDR(pfd_p, 2) = PCIE_AER_GET(32, bus_p,
604 	    PCIE_AER_HDR_LOG + 0x8);
605 	PCIE_ADV_HDR(pfd_p, 3) = PCIE_AER_GET(32, bus_p,
606 	    PCIE_AER_HDR_LOG + 0xc);
607 
608 	/* Gather CE AERs */
609 	pcie_adv_regs->pcie_ce_status = PCIE_AER_GET(32, bus_p,
610 	    PCIE_AER_CE_STS);
611 	pcie_adv_regs->pcie_ce_mask = PCIE_AER_GET(32, bus_p,
612 	    PCIE_AER_CE_MASK);
613 
614 	/*
615 	 * If pci express to pci bridge then grab the bridge
616 	 * error registers.
617 	 */
618 	if (PCIE_IS_PCIE_BDG(bus_p)) {
619 		pf_pcie_adv_bdg_err_regs_t *pcie_bdg_regs =
620 		    PCIE_ADV_BDG_REG(pfd_p);
621 
622 		pcie_bdg_regs->pcie_sue_ctl = PCIE_AER_GET(32, bus_p,
623 		    PCIE_AER_SCTL);
624 		pcie_bdg_regs->pcie_sue_status = PCIE_AER_GET(32, bus_p,
625 		    PCIE_AER_SUCE_STS);
626 		pcie_bdg_regs->pcie_sue_mask = PCIE_AER_GET(32, bus_p,
627 		    PCIE_AER_SUCE_MASK);
628 		pcie_bdg_regs->pcie_sue_sev = PCIE_AER_GET(32, bus_p,
629 		    PCIE_AER_SUCE_SERV);
630 		PCIE_ADV_BDG_HDR(pfd_p, 0) = PCIE_AER_GET(32, bus_p,
631 		    PCIE_AER_SHDR_LOG);
632 		PCIE_ADV_BDG_HDR(pfd_p, 1) = PCIE_AER_GET(32, bus_p,
633 		    PCIE_AER_SHDR_LOG + 0x4);
634 		PCIE_ADV_BDG_HDR(pfd_p, 2) = PCIE_AER_GET(32, bus_p,
635 		    PCIE_AER_SHDR_LOG + 0x8);
636 		PCIE_ADV_BDG_HDR(pfd_p, 3) = PCIE_AER_GET(32, bus_p,
637 		    PCIE_AER_SHDR_LOG + 0xc);
638 	}
639 
640 	/*
641 	 * If PCI Express root port then grab the root port
642 	 * error registers.
643 	 */
644 	if (PCIE_IS_ROOT(bus_p)) {
645 		pf_pcie_adv_rp_err_regs_t *pcie_rp_regs =
646 		    PCIE_ADV_RP_REG(pfd_p);
647 
648 		pcie_rp_regs->pcie_rp_err_cmd = PCIE_AER_GET(32, bus_p,
649 		    PCIE_AER_RE_CMD);
650 		pcie_rp_regs->pcie_rp_err_status = PCIE_AER_GET(32, bus_p,
651 		    PCIE_AER_RE_STS);
652 		pcie_rp_regs->pcie_rp_ce_src_id = PCIE_AER_GET(16, bus_p,
653 		    PCIE_AER_CE_SRC_ID);
654 		pcie_rp_regs->pcie_rp_ue_src_id = PCIE_AER_GET(16, bus_p,
655 		    PCIE_AER_ERR_SRC_ID);
656 	}
657 }
658 
659 static void
660 pf_pci_regs_gather(pf_data_t *pfd_p, pcie_bus_t *bus_p)
661 {
662 	pf_pci_err_regs_t *pci_regs = PCI_ERR_REG(pfd_p);
663 
664 	/*
665 	 * Start by reading all the error registers that are available for
666 	 * pci and pci express and for leaf devices and bridges/switches
667 	 */
668 	pci_regs->pci_err_status = PCIE_GET(16, bus_p, PCI_CONF_STAT);
669 	pci_regs->pci_cfg_comm = PCIE_GET(16, bus_p, PCI_CONF_COMM);
670 
671 	/*
672 	 * If pci-pci bridge grab PCI bridge specific error registers.
673 	 */
674 	if (PCIE_IS_BDG(bus_p)) {
675 		pf_pci_bdg_err_regs_t *pci_bdg_regs = PCI_BDG_ERR_REG(pfd_p);
676 		pci_bdg_regs->pci_bdg_sec_stat =
677 		    PCIE_GET(16, bus_p, PCI_BCNF_SEC_STATUS);
678 		pci_bdg_regs->pci_bdg_ctrl =
679 		    PCIE_GET(16, bus_p, PCI_BCNF_BCNTRL);
680 	}
681 
682 	/*
683 	 * If pci express device grab pci express error registers and
684 	 * check for advanced error reporting features and grab them if
685 	 * available.
686 	 */
687 	if (PCIE_IS_PCIE(bus_p))
688 		pf_pcie_regs_gather(pfd_p, bus_p);
689 	else if (PCIE_IS_PCIX(bus_p))
690 		pf_pcix_regs_gather(pfd_p, bus_p);
691 
692 }
693 
694 static void
695 pf_pcix_regs_clear(pf_data_t *pfd_p, pcie_bus_t *bus_p)
696 {
697 	if (PCIE_IS_BDG(bus_p)) {
698 		pf_pcix_bdg_err_regs_t *pcix_bdg_regs;
699 
700 		pcix_bdg_regs = PCIX_BDG_ERR_REG(pfd_p);
701 
702 		PCIX_CAP_PUT(16, bus_p, PCI_PCIX_SEC_STATUS,
703 		    pcix_bdg_regs->pcix_bdg_sec_stat);
704 
705 		PCIX_CAP_PUT(32, bus_p, PCI_PCIX_BDG_STATUS,
706 		    pcix_bdg_regs->pcix_bdg_stat);
707 
708 		if (PCIX_ECC_VERSION_CHECK(bus_p)) {
709 			pf_pcix_ecc_regs_t *pcix_bdg_ecc_regs;
710 			/*
711 			 * PCI Express to PCI-X bridges only implement the
712 			 * secondary side of the PCI-X ECC registers.  For
713 			 * clearing, there is no need to "select" the ECC
714 			 * register, just write what was originally read.
715 			 */
716 			if (!PCIE_IS_PCIE_BDG(bus_p)) {
717 				pcix_bdg_ecc_regs = PCIX_BDG_ECC_REG(pfd_p, 0);
718 				PCIX_CAP_PUT(32, bus_p, PCI_PCIX_BDG_ECC_STATUS,
719 				    pcix_bdg_ecc_regs->pcix_ecc_ctlstat);
720 
721 			}
722 			pcix_bdg_ecc_regs = PCIX_BDG_ECC_REG(pfd_p, 1);
723 			PCIX_CAP_PUT(32, bus_p, PCI_PCIX_BDG_ECC_STATUS,
724 			    pcix_bdg_ecc_regs->pcix_ecc_ctlstat);
725 		}
726 	} else {
727 		pf_pcix_err_regs_t *pcix_regs = PCIX_ERR_REG(pfd_p);
728 
729 		PCIX_CAP_PUT(32, bus_p, PCI_PCIX_STATUS,
730 		    pcix_regs->pcix_status);
731 
732 		if (PCIX_ECC_VERSION_CHECK(bus_p)) {
733 			pf_pcix_ecc_regs_t *pcix_ecc_regs = PCIX_ECC_REG(pfd_p);
734 
735 			PCIX_CAP_PUT(32, bus_p, PCI_PCIX_ECC_STATUS,
736 			    pcix_ecc_regs->pcix_ecc_ctlstat);
737 		}
738 	}
739 }
740 
741 static void
742 pf_pcie_regs_clear(pf_data_t *pfd_p, pcie_bus_t *bus_p)
743 {
744 	pf_pcie_err_regs_t *pcie_regs = PCIE_ERR_REG(pfd_p);
745 	pf_pcie_adv_err_regs_t *pcie_adv_regs = PCIE_ADV_REG(pfd_p);
746 
747 	PCIE_CAP_PUT(16, bus_p, PCIE_DEVSTS, pcie_regs->pcie_err_status);
748 
749 	if (PCIE_IS_BDG(bus_p) && PCIE_IS_PCIX(bus_p))
750 		pf_pcix_regs_clear(pfd_p, bus_p);
751 
752 	if (!PCIE_HAS_AER(bus_p))
753 		return;
754 
755 	PCIE_AER_PUT(32, bus_p, PCIE_AER_UCE_STS,
756 	    pcie_adv_regs->pcie_ue_status);
757 
758 	PCIE_AER_PUT(32, bus_p, PCIE_AER_CE_STS,
759 	    pcie_adv_regs->pcie_ce_status);
760 
761 	if (PCIE_IS_PCIE_BDG(bus_p)) {
762 		pf_pcie_adv_bdg_err_regs_t *pcie_bdg_regs =
763 		    PCIE_ADV_BDG_REG(pfd_p);
764 
765 		PCIE_AER_PUT(32, bus_p, PCIE_AER_SUCE_STS,
766 		    pcie_bdg_regs->pcie_sue_status);
767 	}
768 
769 	/*
770 	 * If PCI Express root complex then clear the root complex
771 	 * error registers.
772 	 */
773 	if (PCIE_IS_ROOT(bus_p)) {
774 		pf_pcie_adv_rp_err_regs_t *pcie_rp_regs;
775 
776 		pcie_rp_regs = PCIE_ADV_RP_REG(pfd_p);
777 
778 		PCIE_AER_PUT(32, bus_p, PCIE_AER_RE_STS,
779 		    pcie_rp_regs->pcie_rp_err_status);
780 	}
781 }
782 
783 static void
784 pf_pci_regs_clear(pf_data_t *pfd_p, pcie_bus_t *bus_p)
785 {
786 	if (PCIE_IS_PCIE(bus_p))
787 		pf_pcie_regs_clear(pfd_p, bus_p);
788 	else if (PCIE_IS_PCIX(bus_p))
789 		pf_pcix_regs_clear(pfd_p, bus_p);
790 
791 	PCIE_PUT(16, bus_p, PCI_CONF_STAT, pfd_p->pe_pci_regs->pci_err_status);
792 
793 	if (PCIE_IS_BDG(bus_p)) {
794 		pf_pci_bdg_err_regs_t *pci_bdg_regs = PCI_BDG_ERR_REG(pfd_p);
795 		PCIE_PUT(16, bus_p, PCI_BCNF_SEC_STATUS,
796 		    pci_bdg_regs->pci_bdg_sec_stat);
797 	}
798 }
799 
800 /* ARGSUSED */
801 void
802 pcie_clear_errors(dev_info_t *dip)
803 {
804 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
805 	pf_data_t *pfd_p = PCIE_DIP2PFD(dip);
806 
807 	ASSERT(bus_p);
808 
809 	pf_pci_regs_gather(pfd_p, bus_p);
810 	pf_pci_regs_clear(pfd_p, bus_p);
811 }
812 
813 /* Find the fault BDF, fault Addr or full scan on a PCIe Root Port. */
814 static void
815 pf_pci_find_rp_fault(pf_data_t *pfd_p, pcie_bus_t *bus_p)
816 {
817 	pf_root_fault_t *root_fault = PCIE_ROOT_FAULT(pfd_p);
818 	pf_pcie_adv_rp_err_regs_t *rp_regs = PCIE_ADV_RP_REG(pfd_p);
819 	uint32_t root_err = rp_regs->pcie_rp_err_status;
820 	uint32_t ue_err = PCIE_ADV_REG(pfd_p)->pcie_ue_status;
821 	int num_faults = 0;
822 
823 	/* Since this data structure is reused, make sure to reset it */
824 	root_fault->full_scan = B_FALSE;
825 	root_fault->scan_bdf = PCIE_INVALID_BDF;
826 	root_fault->scan_addr = 0;
827 
828 	if (!PCIE_HAS_AER(bus_p) &&
829 	    (PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat & PF_PCI_BDG_ERR)) {
830 		PCIE_ROOT_FAULT(pfd_p)->full_scan = B_TRUE;
831 		return;
832 	}
833 
834 	/*
835 	 * Check to see if an error has been received that
836 	 * requires a scan of the fabric.  Count the number of
837 	 * faults seen.  If MUL CE/FE_NFE that counts for
838 	 * atleast 2 faults, so just return with full_scan.
839 	 */
840 	if ((root_err & PCIE_AER_RE_STS_MUL_CE_RCVD) ||
841 	    (root_err & PCIE_AER_RE_STS_MUL_FE_NFE_RCVD)) {
842 		PCIE_ROOT_FAULT(pfd_p)->full_scan = B_TRUE;
843 		return;
844 	}
845 
846 	if (root_err & PCIE_AER_RE_STS_CE_RCVD)
847 		num_faults++;
848 
849 	if (root_err & PCIE_AER_RE_STS_FE_NFE_RCVD)
850 		num_faults++;
851 
852 	if (ue_err & PCIE_AER_UCE_CA)
853 		num_faults++;
854 
855 	if (ue_err & PCIE_AER_UCE_UR)
856 		num_faults++;
857 
858 	/* If no faults just return */
859 	if (num_faults == 0)
860 		return;
861 
862 	/* If faults > 1 do full scan */
863 	if (num_faults > 1) {
864 		PCIE_ROOT_FAULT(pfd_p)->full_scan = B_TRUE;
865 		return;
866 	}
867 
868 	/* By this point, there is only 1 fault detected */
869 	if (root_err & PCIE_AER_RE_STS_CE_RCVD) {
870 		PCIE_ROOT_FAULT(pfd_p)->scan_bdf = rp_regs->pcie_rp_ce_src_id;
871 		num_faults--;
872 	} else if (root_err & PCIE_AER_RE_STS_FE_NFE_RCVD) {
873 		PCIE_ROOT_FAULT(pfd_p)->scan_bdf = rp_regs->pcie_rp_ue_src_id;
874 		num_faults--;
875 	} else if ((HAS_AER_LOGS(pfd_p, PCIE_AER_UCE_CA) ||
876 	    HAS_AER_LOGS(pfd_p, PCIE_AER_UCE_UR)) &&
877 	    (pf_tlp_decode(PCIE_PFD2BUS(pfd_p), PCIE_ADV_REG(pfd_p)) ==
878 	    DDI_SUCCESS)) {
879 		PCIE_ROOT_FAULT(pfd_p)->scan_addr =
880 		    PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_addr;
881 		num_faults--;
882 	}
883 
884 	/*
885 	 * This means an error did occur, but we couldn't extract the fault BDF
886 	 */
887 	if (num_faults > 0)
888 		PCIE_ROOT_FAULT(pfd_p)->full_scan = B_TRUE;
889 
890 }
891 
892 
893 /*
894  * Load PCIe Fault Data for PCI/PCIe devices into PCIe Fault Data Queue
895  *
896  * Returns a scan flag.
897  * o PF_SCAN_SUCCESS - Error gathered and cleared sucessfuly, data added to
898  *   Fault Q
899  * o PF_SCAN_BAD_RESPONSE - Unable to talk to device, item added to fault Q
900  * o PF_SCAN_CB_FAILURE - A hardened device deemed that the error was fatal.
901  * o PF_SCAN_NO_ERR_IN_CHILD - Only applies to bridge to prevent further
902  *   unnecessary scanning
903  * o PF_SCAN_IN_DQ - This device has already been scanned; it was skipped this
904  *   time.
905  */
906 static int
907 pf_default_hdl(dev_info_t *dip, pf_impl_t *impl)
908 {
909 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
910 	pf_data_t *pfd_p = PCIE_DIP2PFD(dip);
911 	int cb_sts, scan_flag = PF_SCAN_SUCCESS;
912 
913 	/* Make sure this device hasn't already been snapshotted and cleared */
914 	if (pfd_p->pe_valid == B_TRUE) {
915 		scan_flag |= PF_SCAN_IN_DQ;
916 		goto done;
917 	}
918 
919 	/*
920 	 * Read vendor/device ID and check with cached data, if it doesn't match
921 	 * could very well be a device that isn't responding anymore.  Just
922 	 * stop.  Save the basic info in the error q for post mortem debugging
923 	 * purposes.
924 	 */
925 	if (PCIE_GET(32, bus_p, PCI_CONF_VENID) != bus_p->bus_dev_ven_id) {
926 		char buf[FM_MAX_CLASS];
927 
928 		(void) snprintf(buf, FM_MAX_CLASS, "%s.%s",
929 		    PCI_ERROR_SUBCLASS, PCI_NR);
930 		ddi_fm_ereport_post(dip, buf, fm_ena_generate(0, FM_ENA_FMT1),
931 		    DDI_NOSLEEP, FM_VERSION, DATA_TYPE_UINT8, 0, NULL);
932 
933 		/*
934 		 * For IOV/Hotplug purposes skip gathering info fo this device,
935 		 * but populate affected info and severity.  Clear out any data
936 		 * that maybe been saved in the last fabric scan.
937 		 */
938 		pf_reset_pfd(pfd_p);
939 		pfd_p->pe_severity_flags = PF_ERR_PANIC_BAD_RESPONSE;
940 		PFD_AFFECTED_DEV(pfd_p)->pe_affected_flags = PF_AFFECTED_SELF;
941 
942 		/* Add the snapshot to the error q */
943 		pf_en_dq(pfd_p, impl);
944 		pfd_p->pe_valid = B_TRUE;
945 
946 		return (PF_SCAN_BAD_RESPONSE);
947 	}
948 
949 	pf_pci_regs_gather(pfd_p, bus_p);
950 	pf_pci_regs_clear(pfd_p, bus_p);
951 	if (PCIE_IS_RP(bus_p))
952 		pf_pci_find_rp_fault(pfd_p, bus_p);
953 
954 	cb_sts = pf_fm_callback(dip, impl->pf_derr);
955 
956 	if (cb_sts == DDI_FM_FATAL || cb_sts == DDI_FM_UNKNOWN)
957 		scan_flag |= PF_SCAN_CB_FAILURE;
958 
959 	/* Add the snapshot to the error q */
960 	pf_en_dq(pfd_p, impl);
961 
962 done:
963 	/*
964 	 * If a bridge does not have any error no need to scan any further down.
965 	 * For PCIe devices, check the PCIe device status and PCI secondary
966 	 * status.
967 	 * - Some non-compliant PCIe devices do not utilize PCIe
968 	 *   error registers.  If so rely on legacy PCI error registers.
969 	 * For PCI devices, check the PCI secondary status.
970 	 */
971 	if (PCIE_IS_PCIE_BDG(bus_p) &&
972 	    !(PCIE_ERR_REG(pfd_p)->pcie_err_status & PF_PCIE_BDG_ERR) &&
973 	    !(PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat & PF_PCI_BDG_ERR))
974 		scan_flag |= PF_SCAN_NO_ERR_IN_CHILD;
975 
976 	if (PCIE_IS_PCI_BDG(bus_p) &&
977 	    !(PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat & PF_PCI_BDG_ERR))
978 		scan_flag |= PF_SCAN_NO_ERR_IN_CHILD;
979 
980 	pfd_p->pe_valid = B_TRUE;
981 	return (scan_flag);
982 }
983 
984 /*
985  * Called during postattach to initialize a device's error handling
986  * capabilities.  If the devices has already been hardened, then there isn't
987  * much needed.  Otherwise initialize the device's default FMA capabilities.
988  *
989  * In a future project where PCIe support is removed from pcifm, several
990  * "properties" that are setup in ddi_fm_init and pci_ereport_setup need to be
991  * created here so that the PCI/PCIe eversholt rules will work properly.
992  */
993 void
994 pf_init(dev_info_t *dip, ddi_iblock_cookie_t ibc, ddi_attach_cmd_t cmd)
995 {
996 	pcie_bus_t		*bus_p = PCIE_DIP2BUS(dip);
997 	struct i_ddi_fmhdl	*fmhdl = DEVI(dip)->devi_fmhdl;
998 	boolean_t		need_cb_register = B_FALSE;
999 
1000 	if (!bus_p) {
1001 		cmn_err(CE_WARN, "devi_bus information is not set for %s%d.\n",
1002 		    ddi_driver_name(dip), ddi_get_instance(dip));
1003 		return;
1004 	}
1005 
1006 	if (fmhdl) {
1007 		/*
1008 		 * If device is only ereport capable and not callback capable
1009 		 * make it callback capable. The only downside is that the
1010 		 * "fm-errcb-capable" property is not created for this device
1011 		 * which should be ok since it's not used anywhere.
1012 		 */
1013 		if (!(fmhdl->fh_cap & DDI_FM_ERRCB_CAPABLE))
1014 			need_cb_register = B_TRUE;
1015 	} else {
1016 		int cap;
1017 		/*
1018 		 * fm-capable in driver.conf can be used to set fm_capabilities.
1019 		 * If fm-capable is not defined, set the default
1020 		 * DDI_FM_EREPORT_CAPABLE and DDI_FM_ERRCB_CAPABLE.
1021 		 */
1022 		cap = ddi_prop_get_int(DDI_DEV_T_ANY, dip,
1023 		    DDI_PROP_DONTPASS, "fm-capable",
1024 		    DDI_FM_EREPORT_CAPABLE | DDI_FM_ERRCB_CAPABLE);
1025 		cap &= (DDI_FM_EREPORT_CAPABLE | DDI_FM_ERRCB_CAPABLE);
1026 
1027 		bus_p->bus_fm_flags |= PF_FM_IS_NH;
1028 
1029 		if (cmd == DDI_ATTACH) {
1030 			ddi_fm_init(dip, &cap, &ibc);
1031 			pci_ereport_setup(dip);
1032 		}
1033 
1034 		if (cap & DDI_FM_ERRCB_CAPABLE)
1035 			need_cb_register = B_TRUE;
1036 
1037 		fmhdl = DEVI(dip)->devi_fmhdl;
1038 	}
1039 
1040 	/* If ddi_fm_init fails for any reason RETURN */
1041 	if (!fmhdl) {
1042 		bus_p->bus_fm_flags = 0;
1043 		return;
1044 	}
1045 
1046 	fmhdl->fh_cap |=  DDI_FM_ERRCB_CAPABLE;
1047 	if (cmd == DDI_ATTACH) {
1048 		if (need_cb_register)
1049 			ddi_fm_handler_register(dip, pf_dummy_cb, NULL);
1050 	}
1051 
1052 	bus_p->bus_fm_flags |= PF_FM_READY;
1053 }
1054 
1055 /* undo FMA lock, called at predetach */
1056 void
1057 pf_fini(dev_info_t *dip, ddi_detach_cmd_t cmd)
1058 {
1059 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
1060 
1061 	if (!bus_p)
1062 		return;
1063 
1064 	/* Don't fini anything if device isn't FM Ready */
1065 	if (!(bus_p->bus_fm_flags & PF_FM_READY))
1066 		return;
1067 
1068 	/* no other code should set the flag to false */
1069 	bus_p->bus_fm_flags &= ~PF_FM_READY;
1070 
1071 	/*
1072 	 * Grab the mutex to make sure device isn't in the middle of
1073 	 * error handling.  Setting the bus_fm_flag to ~PF_FM_READY
1074 	 * should prevent this device from being error handled after
1075 	 * the mutex has been released.
1076 	 */
1077 	(void) pf_handler_enter(dip, NULL);
1078 	pf_handler_exit(dip);
1079 
1080 	/* undo non-hardened drivers */
1081 	if (bus_p->bus_fm_flags & PF_FM_IS_NH) {
1082 		if (cmd == DDI_DETACH) {
1083 			bus_p->bus_fm_flags &= ~PF_FM_IS_NH;
1084 			pci_ereport_teardown(dip);
1085 			/*
1086 			 * ddi_fini itself calls ddi_handler_unregister,
1087 			 * so no need to explicitly call unregister.
1088 			 */
1089 			ddi_fm_fini(dip);
1090 		}
1091 	}
1092 }
1093 
1094 /*ARGSUSED*/
1095 static int
1096 pf_dummy_cb(dev_info_t *dip, ddi_fm_error_t *derr, const void *not_used)
1097 {
1098 	return (DDI_FM_OK);
1099 }
1100 
1101 /*
1102  * Add PFD to queue.  If it is an RC add it to the beginning,
1103  * otherwise add it to the end.
1104  */
1105 static void
1106 pf_en_dq(pf_data_t *pfd_p, pf_impl_t *impl)
1107 {
1108 	pf_data_t *head_p = impl->pf_dq_head_p;
1109 	pf_data_t *tail_p = impl->pf_dq_tail_p;
1110 
1111 	impl->pf_total++;
1112 
1113 	if (!head_p) {
1114 		ASSERT(PFD_IS_ROOT(pfd_p));
1115 		impl->pf_dq_head_p = pfd_p;
1116 		impl->pf_dq_tail_p = pfd_p;
1117 		pfd_p->pe_prev = NULL;
1118 		pfd_p->pe_next = NULL;
1119 		return;
1120 	}
1121 
1122 	/* Check if this is a Root Port eprt */
1123 	if (PFD_IS_ROOT(pfd_p)) {
1124 		pf_data_t *root_p, *last_p = NULL;
1125 
1126 		/* The first item must be a RP */
1127 		root_p = head_p;
1128 		for (last_p = head_p; last_p && PFD_IS_ROOT(last_p);
1129 		    last_p = last_p->pe_next)
1130 			root_p = last_p;
1131 
1132 		/* root_p is the last RP pfd. last_p is the first non-RP pfd. */
1133 		root_p->pe_next = pfd_p;
1134 		pfd_p->pe_prev = root_p;
1135 		pfd_p->pe_next = last_p;
1136 
1137 		if (last_p)
1138 			last_p->pe_prev = pfd_p;
1139 		else
1140 			tail_p = pfd_p;
1141 	} else {
1142 		tail_p->pe_next = pfd_p;
1143 		pfd_p->pe_prev = tail_p;
1144 		pfd_p->pe_next = NULL;
1145 		tail_p = pfd_p;
1146 	}
1147 
1148 	impl->pf_dq_head_p = head_p;
1149 	impl->pf_dq_tail_p = tail_p;
1150 }
1151 
1152 /*
1153  * Ignore:
1154  * - TRAINING: as leaves do not have children
1155  * - SD: as leaves do not have children
1156  */
1157 const pf_fab_err_tbl_t pcie_pcie_tbl[] = {
1158 	{PCIE_AER_UCE_DLP,	pf_panic,
1159 	    PF_AFFECTED_PARENT, 0},
1160 
1161 	{PCIE_AER_UCE_PTLP,	pf_analyse_ptlp,
1162 	    PF_AFFECTED_SELF, 0},
1163 
1164 	{PCIE_AER_UCE_FCP,	pf_panic,
1165 	    PF_AFFECTED_PARENT, 0},
1166 
1167 	{PCIE_AER_UCE_TO,	pf_analyse_to,
1168 	    PF_AFFECTED_SELF, 0},
1169 
1170 	{PCIE_AER_UCE_CA,	pf_analyse_ca_ur,
1171 	    PF_AFFECTED_SELF, 0},
1172 
1173 	{PCIE_AER_UCE_UC,	pf_analyse_uc,
1174 	    0, 0},
1175 
1176 	{PCIE_AER_UCE_RO,	pf_panic,
1177 	    PF_AFFECTED_PARENT, 0},
1178 
1179 	{PCIE_AER_UCE_MTLP,	pf_panic,
1180 	    PF_AFFECTED_PARENT, 0},
1181 
1182 	{PCIE_AER_UCE_ECRC,	pf_panic,
1183 	    PF_AFFECTED_SELF, 0},
1184 
1185 	{PCIE_AER_UCE_UR,	pf_analyse_ca_ur,
1186 	    PF_AFFECTED_SELF, 0},
1187 
1188 	{NULL, NULL, NULL, NULL}
1189 };
1190 
1191 const pf_fab_err_tbl_t pcie_rp_tbl[] = {
1192 	{PCIE_AER_UCE_TRAINING,	pf_no_panic,
1193 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1194 
1195 	{PCIE_AER_UCE_DLP,	pf_panic,
1196 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1197 
1198 	{PCIE_AER_UCE_SD,	pf_no_panic,
1199 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1200 
1201 	{PCIE_AER_UCE_PTLP,	pf_analyse_ptlp,
1202 	    PF_AFFECTED_AER, PF_AFFECTED_CHILDREN},
1203 
1204 	{PCIE_AER_UCE_FCP,	pf_panic,
1205 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1206 
1207 	{PCIE_AER_UCE_TO,	pf_panic,
1208 	    PF_AFFECTED_ADDR, PF_AFFECTED_CHILDREN},
1209 
1210 	{PCIE_AER_UCE_CA,	pf_no_panic,
1211 	    PF_AFFECTED_AER, PF_AFFECTED_CHILDREN},
1212 
1213 	{PCIE_AER_UCE_UC,	pf_analyse_uc,
1214 	    0, 0},
1215 
1216 	{PCIE_AER_UCE_RO,	pf_panic,
1217 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1218 
1219 	{PCIE_AER_UCE_MTLP,	pf_panic,
1220 	    PF_AFFECTED_SELF | PF_AFFECTED_AER,
1221 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN},
1222 
1223 	{PCIE_AER_UCE_ECRC,	pf_panic,
1224 	    PF_AFFECTED_AER, PF_AFFECTED_CHILDREN},
1225 
1226 	{PCIE_AER_UCE_UR,	pf_no_panic,
1227 	    PF_AFFECTED_AER, PF_AFFECTED_CHILDREN},
1228 
1229 	{NULL, NULL, NULL, NULL}
1230 };
1231 
1232 const pf_fab_err_tbl_t pcie_sw_tbl[] = {
1233 	{PCIE_AER_UCE_TRAINING,	pf_no_panic,
1234 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1235 
1236 	{PCIE_AER_UCE_DLP,	pf_panic,
1237 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1238 
1239 	{PCIE_AER_UCE_SD,	pf_no_panic,
1240 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1241 
1242 	{PCIE_AER_UCE_PTLP,	pf_analyse_ptlp,
1243 	    PF_AFFECTED_AER, PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN},
1244 
1245 	{PCIE_AER_UCE_FCP,	pf_panic,
1246 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1247 
1248 	{PCIE_AER_UCE_TO,	pf_analyse_to,
1249 	    PF_AFFECTED_CHILDREN, 0},
1250 
1251 	{PCIE_AER_UCE_CA,	pf_analyse_ca_ur,
1252 	    PF_AFFECTED_AER, PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN},
1253 
1254 	{PCIE_AER_UCE_UC,	pf_analyse_uc,
1255 	    0, 0},
1256 
1257 	{PCIE_AER_UCE_RO,	pf_panic,
1258 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1259 
1260 	{PCIE_AER_UCE_MTLP,	pf_panic,
1261 	    PF_AFFECTED_SELF | PF_AFFECTED_AER,
1262 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN},
1263 
1264 	{PCIE_AER_UCE_ECRC,	pf_panic,
1265 	    PF_AFFECTED_AER, PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN},
1266 
1267 	{PCIE_AER_UCE_UR,	pf_analyse_ca_ur,
1268 	    PF_AFFECTED_AER, PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN},
1269 
1270 	{NULL, NULL, NULL, NULL}
1271 };
1272 
1273 const pf_fab_err_tbl_t pcie_pcie_bdg_tbl[] = {
1274 	{PCIE_AER_SUCE_TA_ON_SC,	pf_analyse_sc,
1275 	    0, 0},
1276 
1277 	{PCIE_AER_SUCE_MA_ON_SC,	pf_analyse_sc,
1278 	    0, 0},
1279 
1280 	{PCIE_AER_SUCE_RCVD_TA,		pf_analyse_ma_ta,
1281 	    0, 0},
1282 
1283 	{PCIE_AER_SUCE_RCVD_MA,		pf_analyse_ma_ta,
1284 	    0, 0},
1285 
1286 	{PCIE_AER_SUCE_USC_ERR,		pf_panic,
1287 	    PF_AFFECTED_SAER, PF_AFFECTED_CHILDREN},
1288 
1289 	{PCIE_AER_SUCE_USC_MSG_DATA_ERR, pf_analyse_ma_ta,
1290 	    PF_AFFECTED_SAER, PF_AFFECTED_CHILDREN},
1291 
1292 	{PCIE_AER_SUCE_UC_DATA_ERR,	pf_analyse_uc_data,
1293 	    PF_AFFECTED_SAER, PF_AFFECTED_CHILDREN},
1294 
1295 	{PCIE_AER_SUCE_UC_ATTR_ERR,	pf_panic,
1296 	    PF_AFFECTED_CHILDREN, 0},
1297 
1298 	{PCIE_AER_SUCE_UC_ADDR_ERR,	pf_panic,
1299 	    PF_AFFECTED_CHILDREN, 0},
1300 
1301 	{PCIE_AER_SUCE_TIMER_EXPIRED,	pf_panic,
1302 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1303 
1304 	{PCIE_AER_SUCE_PERR_ASSERT,	pf_analyse_perr_assert,
1305 	    0, 0},
1306 
1307 	{PCIE_AER_SUCE_SERR_ASSERT,	pf_no_panic,
1308 	    0, 0},
1309 
1310 	{PCIE_AER_SUCE_INTERNAL_ERR,	pf_panic,
1311 	    PF_AFFECTED_SELF | PF_AFFECTED_CHILDREN, 0},
1312 
1313 	{NULL, NULL, NULL, NULL}
1314 };
1315 
1316 const pf_fab_err_tbl_t pcie_pci_bdg_tbl[] = {
1317 	{PCI_STAT_PERROR,	pf_analyse_pci,
1318 	    PF_AFFECTED_SELF, 0},
1319 
1320 	{PCI_STAT_S_PERROR,	pf_analyse_pci,
1321 	    PF_AFFECTED_SELF, 0},
1322 
1323 	{PCI_STAT_S_SYSERR,	pf_panic,
1324 	    PF_AFFECTED_SELF, 0},
1325 
1326 	{PCI_STAT_R_MAST_AB,	pf_analyse_pci,
1327 	    PF_AFFECTED_SELF, 0},
1328 
1329 	{PCI_STAT_R_TARG_AB,	pf_analyse_pci,
1330 	    PF_AFFECTED_SELF, 0},
1331 
1332 	{PCI_STAT_S_TARG_AB,	pf_analyse_pci,
1333 	    PF_AFFECTED_SELF, 0},
1334 
1335 	{NULL, NULL, NULL, NULL}
1336 };
1337 
1338 const pf_fab_err_tbl_t pcie_pci_tbl[] = {
1339 	{PCI_STAT_PERROR,	pf_analyse_pci,
1340 	    PF_AFFECTED_SELF, 0},
1341 
1342 	{PCI_STAT_S_PERROR,	pf_analyse_pci,
1343 	    PF_AFFECTED_SELF, 0},
1344 
1345 	{PCI_STAT_S_SYSERR,	pf_panic,
1346 	    PF_AFFECTED_SELF, 0},
1347 
1348 	{PCI_STAT_R_MAST_AB,	pf_analyse_pci,
1349 	    PF_AFFECTED_SELF, 0},
1350 
1351 	{PCI_STAT_R_TARG_AB,	pf_analyse_pci,
1352 	    PF_AFFECTED_SELF, 0},
1353 
1354 	{PCI_STAT_S_TARG_AB,	pf_analyse_pci,
1355 	    PF_AFFECTED_SELF, 0},
1356 
1357 	{NULL, NULL, NULL, NULL}
1358 };
1359 
1360 #define	PF_MASKED_AER_ERR(pfd_p) \
1361 	(PCIE_ADV_REG(pfd_p)->pcie_ue_status & \
1362 	    ((PCIE_ADV_REG(pfd_p)->pcie_ue_mask) ^ 0xFFFFFFFF))
1363 #define	PF_MASKED_SAER_ERR(pfd_p) \
1364 	(PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_status & \
1365 	    ((PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_mask) ^ 0xFFFFFFFF))
1366 /*
1367  * Analyse all the PCIe Fault Data (erpt) gathered during dispatch in the erpt
1368  * Queue.
1369  */
1370 static int
1371 pf_analyse_error(ddi_fm_error_t *derr, pf_impl_t *impl)
1372 {
1373 	int		sts_flags, error_flags = 0;
1374 	pf_data_t	*pfd_p;
1375 
1376 	for (pfd_p = impl->pf_dq_head_p; pfd_p; pfd_p = pfd_p->pe_next) {
1377 		sts_flags = 0;
1378 
1379 		/* skip analysing error when no error info is gathered */
1380 		if (pfd_p->pe_severity_flags == PF_ERR_PANIC_BAD_RESPONSE)
1381 			goto done;
1382 
1383 		switch (PCIE_PFD2BUS(pfd_p)->bus_dev_type) {
1384 		case PCIE_PCIECAP_DEV_TYPE_PCIE_DEV:
1385 		case PCIE_PCIECAP_DEV_TYPE_PCI_DEV:
1386 			if (PCIE_DEVSTS_CE_DETECTED &
1387 			    PCIE_ERR_REG(pfd_p)->pcie_err_status)
1388 				sts_flags |= PF_ERR_CE;
1389 
1390 			pf_adjust_for_no_aer(pfd_p);
1391 			sts_flags |= pf_analyse_error_tbl(derr, impl,
1392 			    pfd_p, pcie_pcie_tbl, PF_MASKED_AER_ERR(pfd_p));
1393 			break;
1394 		case PCIE_PCIECAP_DEV_TYPE_ROOT:
1395 			pf_adjust_for_no_aer(pfd_p);
1396 			sts_flags |= pf_analyse_error_tbl(derr, impl,
1397 			    pfd_p, pcie_rp_tbl, PF_MASKED_AER_ERR(pfd_p));
1398 			break;
1399 		case PCIE_PCIECAP_DEV_TYPE_RC_PSEUDO:
1400 			/* no adjust_for_aer for pseudo RC */
1401 			/* keep the severity passed on from RC if any */
1402 			sts_flags |= pfd_p->pe_severity_flags;
1403 			sts_flags |= pf_analyse_error_tbl(derr, impl, pfd_p,
1404 			    pcie_rp_tbl, PF_MASKED_AER_ERR(pfd_p));
1405 			break;
1406 		case PCIE_PCIECAP_DEV_TYPE_UP:
1407 		case PCIE_PCIECAP_DEV_TYPE_DOWN:
1408 			if (PCIE_DEVSTS_CE_DETECTED &
1409 			    PCIE_ERR_REG(pfd_p)->pcie_err_status)
1410 				sts_flags |= PF_ERR_CE;
1411 
1412 			pf_adjust_for_no_aer(pfd_p);
1413 			sts_flags |= pf_analyse_error_tbl(derr, impl,
1414 			    pfd_p, pcie_sw_tbl, PF_MASKED_AER_ERR(pfd_p));
1415 			break;
1416 		case PCIE_PCIECAP_DEV_TYPE_PCIE2PCI:
1417 			if (PCIE_DEVSTS_CE_DETECTED &
1418 			    PCIE_ERR_REG(pfd_p)->pcie_err_status)
1419 				sts_flags |= PF_ERR_CE;
1420 
1421 			pf_adjust_for_no_aer(pfd_p);
1422 			pf_adjust_for_no_saer(pfd_p);
1423 			sts_flags |= pf_analyse_error_tbl(derr,
1424 			    impl, pfd_p, pcie_pcie_tbl,
1425 			    PF_MASKED_AER_ERR(pfd_p));
1426 			sts_flags |= pf_analyse_error_tbl(derr,
1427 			    impl, pfd_p, pcie_pcie_bdg_tbl,
1428 			    PF_MASKED_SAER_ERR(pfd_p));
1429 			/*
1430 			 * Some non-compliant PCIe devices do not utilize PCIe
1431 			 * error registers.  So fallthrough and rely on legacy
1432 			 * PCI error registers.
1433 			 */
1434 			if ((PCIE_DEVSTS_NFE_DETECTED | PCIE_DEVSTS_FE_DETECTED)
1435 			    & PCIE_ERR_REG(pfd_p)->pcie_err_status)
1436 				break;
1437 			/* FALLTHROUGH */
1438 		case PCIE_PCIECAP_DEV_TYPE_PCI_PSEUDO:
1439 			sts_flags |= pf_analyse_error_tbl(derr, impl,
1440 			    pfd_p, pcie_pci_tbl,
1441 			    PCI_ERR_REG(pfd_p)->pci_err_status);
1442 
1443 			if (!PCIE_IS_BDG(PCIE_PFD2BUS(pfd_p)))
1444 				break;
1445 
1446 			sts_flags |= pf_analyse_error_tbl(derr,
1447 			    impl, pfd_p, pcie_pci_bdg_tbl,
1448 			    PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat);
1449 		}
1450 
1451 		pfd_p->pe_severity_flags = sts_flags;
1452 
1453 done:
1454 		pfd_p->pe_orig_severity_flags = pfd_p->pe_severity_flags;
1455 		/* Have pciev_eh adjust the severity */
1456 		pfd_p->pe_severity_flags = pciev_eh(pfd_p, impl);
1457 
1458 		error_flags |= pfd_p->pe_severity_flags;
1459 	}
1460 
1461 	return (error_flags);
1462 }
1463 
1464 static int
1465 pf_analyse_error_tbl(ddi_fm_error_t *derr, pf_impl_t *impl,
1466     pf_data_t *pfd_p, const pf_fab_err_tbl_t *tbl, uint32_t err_reg)
1467 {
1468 	const pf_fab_err_tbl_t *row;
1469 	int err = 0;
1470 	uint16_t flags;
1471 	uint32_t bit;
1472 
1473 	for (row = tbl; err_reg && (row->bit != NULL); row++) {
1474 		bit = row->bit;
1475 		if (!(err_reg & bit))
1476 			continue;
1477 		err |= row->handler(derr, bit, impl->pf_dq_head_p, pfd_p);
1478 
1479 		flags = row->affected_flags;
1480 		/*
1481 		 * check if the primary flag is valid;
1482 		 * if not, use the secondary flag
1483 		 */
1484 		if (flags & PF_AFFECTED_AER) {
1485 			if (!HAS_AER_LOGS(pfd_p, bit)) {
1486 				flags = row->sec_affected_flags;
1487 			}
1488 		} else if (flags & PF_AFFECTED_SAER) {
1489 			if (!HAS_SAER_LOGS(pfd_p, bit)) {
1490 				flags = row->sec_affected_flags;
1491 			}
1492 		} else if (flags & PF_AFFECTED_ADDR) {
1493 			/* only Root has this flag */
1494 			if (PCIE_ROOT_FAULT(pfd_p)->scan_addr == 0) {
1495 				flags = row->sec_affected_flags;
1496 			}
1497 		}
1498 
1499 		PFD_AFFECTED_DEV(pfd_p)->pe_affected_flags |= flags;
1500 	}
1501 
1502 	if (!err)
1503 		err = PF_ERR_NO_ERROR;
1504 
1505 	return (err);
1506 }
1507 
1508 /*
1509  * PCIe Completer Abort and Unsupport Request error analyser.  If a PCIe device
1510  * issues a CA/UR a corresponding Received CA/UR should have been seen in the
1511  * PCIe root complex.  Check to see if RC did indeed receive a CA/UR, if so then
1512  * this error may be safely ignored.  If not check the logs and see if an
1513  * associated handler for this transaction can be found.
1514  */
1515 /* ARGSUSED */
1516 static int
1517 pf_analyse_ca_ur(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1518     pf_data_t *pfd_p)
1519 {
1520 	uint32_t	abort_type;
1521 	dev_info_t	*rpdip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
1522 
1523 	/* If UR's are masked forgive this error */
1524 	if ((pcie_get_aer_uce_mask() & PCIE_AER_UCE_UR) &&
1525 	    (bit == PCIE_AER_UCE_UR))
1526 		return (PF_ERR_NO_PANIC);
1527 
1528 	/*
1529 	 * If a RP has an CA/UR it means a leaf sent a bad request to the RP
1530 	 * such as a config read or a bad DMA address.
1531 	 */
1532 	if (PCIE_IS_RP(PCIE_PFD2BUS(pfd_p)))
1533 		goto handle_lookup;
1534 
1535 	if (bit == PCIE_AER_UCE_UR)
1536 		abort_type = PCI_STAT_R_MAST_AB;
1537 	else
1538 		abort_type = PCI_STAT_R_TARG_AB;
1539 
1540 	if (pf_matched_in_rc(dq_head_p, pfd_p, abort_type))
1541 		return (PF_ERR_MATCHED_RC);
1542 
1543 handle_lookup:
1544 	if (HAS_AER_LOGS(pfd_p, bit) &&
1545 	    pf_log_hdl_lookup(rpdip, derr, pfd_p, B_TRUE) == PF_HDL_FOUND)
1546 			return (PF_ERR_MATCHED_DEVICE);
1547 
1548 	return (PF_ERR_PANIC);
1549 }
1550 
1551 /*
1552  * PCIe-PCI Bridge Received Master Abort and Target error analyser.  If a PCIe
1553  * Bridge receives a MA/TA a corresponding sent CA/UR should have been seen in
1554  * the PCIe root complex.  Check to see if RC did indeed receive a CA/UR, if so
1555  * then this error may be safely ignored.  If not check the logs and see if an
1556  * associated handler for this transaction can be found.
1557  */
1558 /* ARGSUSED */
1559 static int
1560 pf_analyse_ma_ta(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1561     pf_data_t *pfd_p)
1562 {
1563 	dev_info_t	*rpdip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
1564 	uint32_t	abort_type;
1565 
1566 	/* If UR's are masked forgive this error */
1567 	if ((pcie_get_aer_uce_mask() & PCIE_AER_UCE_UR) &&
1568 	    (bit == PCIE_AER_SUCE_RCVD_MA))
1569 		return (PF_ERR_NO_PANIC);
1570 
1571 	if (bit == PCIE_AER_SUCE_RCVD_MA)
1572 		abort_type = PCI_STAT_R_MAST_AB;
1573 	else
1574 		abort_type = PCI_STAT_R_TARG_AB;
1575 
1576 	if (pf_matched_in_rc(dq_head_p, pfd_p, abort_type))
1577 		return (PF_ERR_MATCHED_RC);
1578 
1579 	if (!HAS_SAER_LOGS(pfd_p, bit))
1580 		return (PF_ERR_PANIC);
1581 
1582 	if (pf_log_hdl_lookup(rpdip, derr, pfd_p, B_FALSE) == PF_HDL_FOUND)
1583 		return (PF_ERR_MATCHED_DEVICE);
1584 
1585 	return (PF_ERR_PANIC);
1586 }
1587 
1588 /*
1589  * Generic PCI error analyser.  This function is used for Parity Errors,
1590  * Received Master Aborts, Received Target Aborts, and Signaled Target Aborts.
1591  * In general PCI devices do not have error logs, it is very difficult to figure
1592  * out what transaction caused the error.  Instead find the nearest PCIe-PCI
1593  * Bridge and check to see if it has logs and if it has an error associated with
1594  * this PCI Device.
1595  */
1596 /* ARGSUSED */
1597 static int
1598 pf_analyse_pci(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1599     pf_data_t *pfd_p)
1600 {
1601 	pf_data_t	*parent_pfd_p;
1602 	uint16_t	cmd;
1603 	uint32_t	aer_ue_status;
1604 	pcie_bus_t	*bus_p = PCIE_PFD2BUS(pfd_p);
1605 	pf_pcie_adv_bdg_err_regs_t *parent_saer_p;
1606 
1607 	if (PCI_ERR_REG(pfd_p)->pci_err_status & PCI_STAT_S_SYSERR)
1608 		return (PF_ERR_PANIC);
1609 
1610 	/* If UR's are masked forgive this error */
1611 	if ((pcie_get_aer_uce_mask() & PCIE_AER_UCE_UR) &&
1612 	    (bit == PCI_STAT_R_MAST_AB))
1613 		return (PF_ERR_NO_PANIC);
1614 
1615 
1616 	if (bit & (PCI_STAT_PERROR | PCI_STAT_S_PERROR)) {
1617 		aer_ue_status = PCIE_AER_SUCE_PERR_ASSERT;
1618 	} else {
1619 		aer_ue_status = (PCIE_AER_SUCE_TA_ON_SC |
1620 		    PCIE_AER_SUCE_MA_ON_SC | PCIE_AER_SUCE_RCVD_TA |
1621 		    PCIE_AER_SUCE_RCVD_MA);
1622 	}
1623 
1624 	parent_pfd_p = pf_get_parent_pcie_bridge(pfd_p);
1625 	if (parent_pfd_p == NULL)
1626 		return (PF_ERR_PANIC);
1627 
1628 	/* Check if parent bridge has seen this error */
1629 	parent_saer_p = PCIE_ADV_BDG_REG(parent_pfd_p);
1630 	if (!(parent_saer_p->pcie_sue_status & aer_ue_status) ||
1631 	    !HAS_SAER_LOGS(parent_pfd_p, aer_ue_status))
1632 		return (PF_ERR_PANIC);
1633 
1634 	/*
1635 	 * If the addr or bdf from the parent PCIe bridge logs belong to this
1636 	 * PCI device, assume the PCIe bridge's error handling has already taken
1637 	 * care of this PCI device's error.
1638 	 */
1639 	if (pf_pci_decode(parent_pfd_p, &cmd) != DDI_SUCCESS)
1640 		return (PF_ERR_PANIC);
1641 
1642 	if ((parent_saer_p->pcie_sue_tgt_bdf == bus_p->bus_bdf) ||
1643 	    pf_in_addr_range(bus_p, parent_saer_p->pcie_sue_tgt_addr))
1644 		return (PF_ERR_MATCHED_PARENT);
1645 
1646 	/*
1647 	 * If this device is a PCI-PCI bridge, check if the bdf in the parent
1648 	 * PCIe bridge logs is in the range of this PCI-PCI Bridge's bus ranges.
1649 	 * If they are, then assume the PCIe bridge's error handling has already
1650 	 * taken care of this PCI-PCI bridge device's error.
1651 	 */
1652 	if (PCIE_IS_BDG(bus_p) &&
1653 	    pf_in_bus_range(bus_p, parent_saer_p->pcie_sue_tgt_bdf))
1654 		return (PF_ERR_MATCHED_PARENT);
1655 
1656 	return (PF_ERR_PANIC);
1657 }
1658 
1659 /*
1660  * PCIe Bridge transactions associated with PERR.
1661  * o Bridge received a poisoned Non-Posted Write (CFG Writes) from PCIe
1662  * o Bridge received a poisoned Posted Write from (MEM Writes) from PCIe
1663  * o Bridge received a poisoned Completion on a Split Transction from PCIe
1664  * o Bridge received a poisoned Completion on a Delayed Transction from PCIe
1665  *
1666  * Check for non-poisoned PCIe transactions that got forwarded to the secondary
1667  * side and detects a PERR#.  Except for delayed read completions, a poisoned
1668  * TLP will be forwarded to the secondary bus and PERR# will be asserted.
1669  */
1670 /* ARGSUSED */
1671 static int
1672 pf_analyse_perr_assert(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1673     pf_data_t *pfd_p)
1674 {
1675 	dev_info_t	*rpdip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
1676 	uint16_t	cmd;
1677 	int		hdl_sts = PF_HDL_NOTFOUND;
1678 	int		err = PF_ERR_NO_ERROR;
1679 	pf_pcie_adv_bdg_err_regs_t *saer_p;
1680 
1681 
1682 	if (HAS_SAER_LOGS(pfd_p, bit)) {
1683 		saer_p = PCIE_ADV_BDG_REG(pfd_p);
1684 		if (pf_pci_decode(pfd_p, &cmd) != DDI_SUCCESS)
1685 			return (PF_ERR_PANIC);
1686 
1687 cmd_switch:
1688 		switch (cmd) {
1689 		case PCI_PCIX_CMD_IOWR:
1690 		case PCI_PCIX_CMD_MEMWR:
1691 		case PCI_PCIX_CMD_MEMWR_BL:
1692 		case PCI_PCIX_CMD_MEMWRBL:
1693 			/* Posted Writes Transactions */
1694 			if (saer_p->pcie_sue_tgt_trans == PF_ADDR_PIO)
1695 				hdl_sts = pf_log_hdl_lookup(rpdip, derr, pfd_p,
1696 				    B_FALSE);
1697 			break;
1698 		case PCI_PCIX_CMD_CFWR:
1699 			/*
1700 			 * Check to see if it is a non-posted write.  If so, a
1701 			 * UR Completion would have been sent.
1702 			 */
1703 			if (pf_matched_in_rc(dq_head_p, pfd_p,
1704 			    PCI_STAT_R_MAST_AB)) {
1705 				hdl_sts = PF_HDL_FOUND;
1706 				err = PF_ERR_MATCHED_RC;
1707 				goto done;
1708 			}
1709 			hdl_sts = pf_log_hdl_lookup(rpdip, derr, pfd_p,
1710 			    B_FALSE);
1711 			break;
1712 		case PCI_PCIX_CMD_SPL:
1713 			hdl_sts = pf_log_hdl_lookup(rpdip, derr, pfd_p,
1714 			    B_FALSE);
1715 			break;
1716 		case PCI_PCIX_CMD_DADR:
1717 			cmd = (PCIE_ADV_BDG_HDR(pfd_p, 1) >>
1718 			    PCIE_AER_SUCE_HDR_CMD_UP_SHIFT) &
1719 			    PCIE_AER_SUCE_HDR_CMD_UP_MASK;
1720 			if (cmd != PCI_PCIX_CMD_DADR)
1721 				goto cmd_switch;
1722 			/* FALLTHROUGH */
1723 		default:
1724 			/* Unexpected situation, panic */
1725 			hdl_sts = PF_HDL_NOTFOUND;
1726 		}
1727 
1728 		if (hdl_sts == PF_HDL_FOUND)
1729 			err = PF_ERR_MATCHED_DEVICE;
1730 		else
1731 			err = PF_ERR_PANIC;
1732 	} else {
1733 		/*
1734 		 * Check to see if it is a non-posted write.  If so, a UR
1735 		 * Completion would have been sent.
1736 		 */
1737 		if ((PCIE_ERR_REG(pfd_p)->pcie_err_status &
1738 		    PCIE_DEVSTS_UR_DETECTED) &&
1739 		    pf_matched_in_rc(dq_head_p, pfd_p, PCI_STAT_R_MAST_AB))
1740 			err = PF_ERR_MATCHED_RC;
1741 
1742 		/* Check for posted writes.  Transaction is lost. */
1743 		if (PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat &
1744 		    PCI_STAT_S_PERROR)
1745 			err = PF_ERR_PANIC;
1746 
1747 		/*
1748 		 * All other scenarios are due to read completions.  Check for
1749 		 * PERR on the primary side.  If found the primary side error
1750 		 * handling will take care of this error.
1751 		 */
1752 		if (err == PF_ERR_NO_ERROR) {
1753 			if (PCI_ERR_REG(pfd_p)->pci_err_status &
1754 			    PCI_STAT_PERROR)
1755 				err = PF_ERR_MATCHED_PARENT;
1756 			else
1757 				err = PF_ERR_PANIC;
1758 		}
1759 	}
1760 
1761 done:
1762 	return (err);
1763 }
1764 
1765 /*
1766  * PCIe Poisoned TLP error analyser.  If a PCIe device receives a Poisoned TLP,
1767  * check the logs and see if an associated handler for this transaction can be
1768  * found.
1769  */
1770 /* ARGSUSED */
1771 static int
1772 pf_analyse_ptlp(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1773     pf_data_t *pfd_p)
1774 {
1775 	dev_info_t	*rpdip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
1776 
1777 	/*
1778 	 * If AERs are supported find the logs in this device, otherwise look in
1779 	 * it's parent's logs.
1780 	 */
1781 	if (HAS_AER_LOGS(pfd_p, bit)) {
1782 		pcie_tlp_hdr_t *hdr = (pcie_tlp_hdr_t *)&PCIE_ADV_HDR(pfd_p, 0);
1783 
1784 		/*
1785 		 * Double check that the log contains a poisoned TLP.
1786 		 * Some devices like PLX switch do not log poison TLP headers.
1787 		 */
1788 		if (hdr->ep) {
1789 			if (pf_log_hdl_lookup(rpdip, derr, pfd_p, B_TRUE) ==
1790 			    PF_HDL_FOUND)
1791 				return (PF_ERR_MATCHED_DEVICE);
1792 		}
1793 
1794 		/*
1795 		 * If an address is found and hdl lookup failed panic.
1796 		 * Otherwise check parents to see if there was enough
1797 		 * information recover.
1798 		 */
1799 		if (PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_addr)
1800 			return (PF_ERR_PANIC);
1801 	}
1802 
1803 	/*
1804 	 * Check to see if the rc has already handled this error or a parent has
1805 	 * already handled this error.
1806 	 *
1807 	 * If the error info in the RC wasn't enough to find the fault device,
1808 	 * such as if the faulting device lies behind a PCIe-PCI bridge from a
1809 	 * poisoned completion, check to see if the PCIe-PCI bridge has enough
1810 	 * info to recover.  For completion TLP's, the AER header logs only
1811 	 * contain the faulting BDF in the Root Port.  For PCIe device the fault
1812 	 * BDF is the fault device.  But if the fault device is behind a
1813 	 * PCIe-PCI bridge the fault BDF could turn out just to be a PCIe-PCI
1814 	 * bridge's secondary bus number.
1815 	 */
1816 	if (!PFD_IS_ROOT(pfd_p)) {
1817 		dev_info_t *pdip = ddi_get_parent(PCIE_PFD2DIP(pfd_p));
1818 		pf_data_t *parent_pfd_p;
1819 
1820 		if (PCIE_PFD2BUS(pfd_p)->bus_rp_dip == pdip) {
1821 			if (pf_matched_in_rc(dq_head_p, pfd_p, PCI_STAT_PERROR))
1822 				return (PF_ERR_MATCHED_RC);
1823 		}
1824 
1825 		parent_pfd_p = PCIE_DIP2PFD(pdip);
1826 
1827 		if (HAS_AER_LOGS(parent_pfd_p, bit))
1828 			return (PF_ERR_MATCHED_PARENT);
1829 	} else {
1830 		pf_data_t *bdg_pfd_p;
1831 		pcie_req_id_t secbus;
1832 
1833 		/*
1834 		 * Looking for a pcie bridge only makes sense if the BDF
1835 		 * Dev/Func = 0/0
1836 		 */
1837 		if (!PCIE_HAS_AER(PCIE_PFD2BUS(pfd_p)))
1838 			goto done;
1839 
1840 		secbus = PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_bdf;
1841 
1842 		if (!PCIE_CHECK_VALID_BDF(secbus) || (secbus & 0xFF))
1843 			goto done;
1844 
1845 		bdg_pfd_p = pf_get_pcie_bridge(pfd_p, secbus);
1846 
1847 		if (bdg_pfd_p && HAS_SAER_LOGS(bdg_pfd_p,
1848 		    PCIE_AER_SUCE_PERR_ASSERT)) {
1849 			return pf_analyse_perr_assert(derr,
1850 			    PCIE_AER_SUCE_PERR_ASSERT, dq_head_p, pfd_p);
1851 		}
1852 	}
1853 done:
1854 	return (PF_ERR_PANIC);
1855 }
1856 
1857 /*
1858  * PCIe-PCI Bridge Received Master and Target abort error analyser on Split
1859  * Completions.  If a PCIe Bridge receives a MA/TA check logs and see if an
1860  * associated handler for this transaction can be found.
1861  */
1862 /* ARGSUSED */
1863 static int
1864 pf_analyse_sc(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1865     pf_data_t *pfd_p)
1866 {
1867 	dev_info_t	*rpdip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
1868 	uint16_t	cmd;
1869 	int		sts = PF_HDL_NOTFOUND;
1870 
1871 	if (!HAS_SAER_LOGS(pfd_p, bit))
1872 		return (PF_ERR_PANIC);
1873 
1874 	if (pf_pci_decode(pfd_p, &cmd) != DDI_SUCCESS)
1875 		return (PF_ERR_PANIC);
1876 
1877 	if (cmd == PCI_PCIX_CMD_SPL)
1878 		sts = pf_log_hdl_lookup(rpdip, derr, pfd_p, B_FALSE);
1879 
1880 	if (sts == PF_HDL_FOUND)
1881 		return (PF_ERR_MATCHED_DEVICE);
1882 
1883 	return (PF_ERR_PANIC);
1884 }
1885 
1886 /*
1887  * PCIe Timeout error analyser.  This error can be forgiven if it is marked as
1888  * CE Advisory.  If it is marked as advisory, this means the HW can recover
1889  * and/or retry the transaction automatically.
1890  */
1891 /* ARGSUSED */
1892 static int
1893 pf_analyse_to(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1894     pf_data_t *pfd_p)
1895 {
1896 	if (HAS_AER_LOGS(pfd_p, bit) && CE_ADVISORY(pfd_p))
1897 		return (PF_ERR_NO_PANIC);
1898 
1899 	return (PF_ERR_PANIC);
1900 }
1901 
1902 /*
1903  * PCIe Unexpected Completion.  Check to see if this TLP was misrouted by
1904  * matching the device BDF with the TLP Log.  If misrouting panic, otherwise
1905  * don't panic.
1906  */
1907 /* ARGSUSED */
1908 static int
1909 pf_analyse_uc(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1910     pf_data_t *pfd_p)
1911 {
1912 	if (HAS_AER_LOGS(pfd_p, bit) &&
1913 	    (PCIE_PFD2BUS(pfd_p)->bus_bdf == (PCIE_ADV_HDR(pfd_p, 2) >> 16)))
1914 		return (PF_ERR_NO_PANIC);
1915 
1916 	/*
1917 	 * This is a case of mis-routing. Any of the switches above this
1918 	 * device could be at fault.
1919 	 */
1920 	PFD_AFFECTED_DEV(pfd_p)->pe_affected_flags = PF_AFFECTED_ROOT;
1921 
1922 	return (PF_ERR_PANIC);
1923 }
1924 
1925 /*
1926  * PCIe-PCI Bridge Uncorrectable Data error analyser.  All Uncorrectable Data
1927  * errors should have resulted in a PCIe Poisoned TLP to the RC, except for
1928  * Posted Writes.  Check the logs for Posted Writes and if the RC did not see a
1929  * Poisoned TLP.
1930  *
1931  * Non-Posted Writes will also generate a UR in the completion status, which the
1932  * RC should also see.
1933  */
1934 /* ARGSUSED */
1935 static int
1936 pf_analyse_uc_data(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1937     pf_data_t *pfd_p)
1938 {
1939 	dev_info_t	*rpdip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
1940 
1941 	if (!HAS_SAER_LOGS(pfd_p, bit))
1942 		return (PF_ERR_PANIC);
1943 
1944 	if (pf_matched_in_rc(dq_head_p, pfd_p, PCI_STAT_PERROR))
1945 		return (PF_ERR_MATCHED_RC);
1946 
1947 	if (pf_log_hdl_lookup(rpdip, derr, pfd_p, B_FALSE) == PF_HDL_FOUND)
1948 		return (PF_ERR_MATCHED_DEVICE);
1949 
1950 	return (PF_ERR_PANIC);
1951 }
1952 
1953 /* ARGSUSED */
1954 static int
1955 pf_no_panic(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1956     pf_data_t *pfd_p)
1957 {
1958 	return (PF_ERR_NO_PANIC);
1959 }
1960 
1961 /* ARGSUSED */
1962 static int
1963 pf_panic(ddi_fm_error_t *derr, uint32_t bit, pf_data_t *dq_head_p,
1964     pf_data_t *pfd_p)
1965 {
1966 	return (PF_ERR_PANIC);
1967 }
1968 
1969 /*
1970  * If a PCIe device does not support AER, assume all AER statuses have been set,
1971  * unless other registers do not indicate a certain error occuring.
1972  */
1973 static void
1974 pf_adjust_for_no_aer(pf_data_t *pfd_p)
1975 {
1976 	uint32_t	aer_ue = 0;
1977 	uint16_t	status;
1978 
1979 	if (PCIE_HAS_AER(PCIE_PFD2BUS(pfd_p)))
1980 		return;
1981 
1982 	if (PCIE_ERR_REG(pfd_p)->pcie_err_status & PCIE_DEVSTS_FE_DETECTED)
1983 		aer_ue = PF_AER_FATAL_ERR;
1984 
1985 	if (PCIE_ERR_REG(pfd_p)->pcie_err_status & PCIE_DEVSTS_NFE_DETECTED) {
1986 		aer_ue = PF_AER_NON_FATAL_ERR;
1987 		status = PCI_ERR_REG(pfd_p)->pci_err_status;
1988 
1989 		/* Check if the device received a PTLP */
1990 		if (!(status & PCI_STAT_PERROR))
1991 			aer_ue &= ~PCIE_AER_UCE_PTLP;
1992 
1993 		/* Check if the device signaled a CA */
1994 		if (!(status & PCI_STAT_S_TARG_AB))
1995 			aer_ue &= ~PCIE_AER_UCE_CA;
1996 
1997 		/* Check if the device sent a UR */
1998 		if (!(PCIE_ERR_REG(pfd_p)->pcie_err_status &
1999 		    PCIE_DEVSTS_UR_DETECTED))
2000 			aer_ue &= ~PCIE_AER_UCE_UR;
2001 
2002 		/*
2003 		 * Ignore ECRCs as it is optional and will manefest itself as
2004 		 * another error like PTLP and MFP
2005 		 */
2006 		aer_ue &= ~PCIE_AER_UCE_ECRC;
2007 
2008 		/*
2009 		 * Generally if NFE is set, SERR should also be set. Exception:
2010 		 * When certain non-fatal errors are masked, and some of them
2011 		 * happened to be the cause of the NFE, SERR will not be set and
2012 		 * they can not be the source of this interrupt.
2013 		 *
2014 		 * On x86, URs are masked (NFE + UR can be set), if any other
2015 		 * non-fatal errors (i.e, PTLP, CTO, CA, UC, ECRC, ACS) did
2016 		 * occur, SERR should be set since they are not masked. So if
2017 		 * SERR is not set, none of them occurred.
2018 		 */
2019 		if (!(status & PCI_STAT_S_SYSERR))
2020 			aer_ue &= ~PCIE_AER_UCE_TO;
2021 	}
2022 
2023 	if (!PCIE_IS_BDG(PCIE_PFD2BUS(pfd_p))) {
2024 		aer_ue &= ~PCIE_AER_UCE_TRAINING;
2025 		aer_ue &= ~PCIE_AER_UCE_SD;
2026 	}
2027 
2028 	PCIE_ADV_REG(pfd_p)->pcie_ue_status = aer_ue;
2029 }
2030 
2031 static void
2032 pf_adjust_for_no_saer(pf_data_t *pfd_p)
2033 {
2034 	uint32_t	s_aer_ue = 0;
2035 	uint16_t	status;
2036 
2037 	if (PCIE_HAS_AER(PCIE_PFD2BUS(pfd_p)))
2038 		return;
2039 
2040 	if (PCIE_ERR_REG(pfd_p)->pcie_err_status & PCIE_DEVSTS_FE_DETECTED)
2041 		s_aer_ue = PF_SAER_FATAL_ERR;
2042 
2043 	if (PCIE_ERR_REG(pfd_p)->pcie_err_status & PCIE_DEVSTS_NFE_DETECTED) {
2044 		s_aer_ue = PF_SAER_NON_FATAL_ERR;
2045 		status = PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat;
2046 
2047 		/* Check if the device received a UC_DATA */
2048 		if (!(status & PCI_STAT_PERROR))
2049 			s_aer_ue &= ~PCIE_AER_SUCE_UC_DATA_ERR;
2050 
2051 		/* Check if the device received a RCVD_MA/MA_ON_SC */
2052 		if (!(status & (PCI_STAT_R_MAST_AB))) {
2053 			s_aer_ue &= ~PCIE_AER_SUCE_RCVD_MA;
2054 			s_aer_ue &= ~PCIE_AER_SUCE_MA_ON_SC;
2055 		}
2056 
2057 		/* Check if the device received a RCVD_TA/TA_ON_SC */
2058 		if (!(status & (PCI_STAT_R_TARG_AB))) {
2059 			s_aer_ue &= ~PCIE_AER_SUCE_RCVD_TA;
2060 			s_aer_ue &= ~PCIE_AER_SUCE_TA_ON_SC;
2061 		}
2062 	}
2063 
2064 	PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_status = s_aer_ue;
2065 }
2066 
2067 /* Find the PCIe-PCI bridge based on secondary bus number */
2068 static pf_data_t *
2069 pf_get_pcie_bridge(pf_data_t *pfd_p, pcie_req_id_t secbus)
2070 {
2071 	pf_data_t *bdg_pfd_p;
2072 
2073 	/* Search down for the PCIe-PCI device. */
2074 	for (bdg_pfd_p = pfd_p->pe_next; bdg_pfd_p;
2075 	    bdg_pfd_p = bdg_pfd_p->pe_next) {
2076 		if (PCIE_IS_PCIE_BDG(PCIE_PFD2BUS(bdg_pfd_p)) &&
2077 		    PCIE_PFD2BUS(bdg_pfd_p)->bus_bdg_secbus == secbus)
2078 			return (bdg_pfd_p);
2079 	}
2080 
2081 	return (NULL);
2082 }
2083 
2084 /* Find the PCIe-PCI bridge of a PCI device */
2085 static pf_data_t *
2086 pf_get_parent_pcie_bridge(pf_data_t *pfd_p)
2087 {
2088 	dev_info_t	*dip, *rp_dip = PCIE_PFD2BUS(pfd_p)->bus_rp_dip;
2089 
2090 	/* This only makes sense if the device is a PCI device */
2091 	if (!PCIE_IS_PCI(PCIE_PFD2BUS(pfd_p)))
2092 		return (NULL);
2093 
2094 	/*
2095 	 * Search up for the PCIe-PCI device.  Watchout for x86 where pci
2096 	 * devices hang directly off of NPE.
2097 	 */
2098 	for (dip = PCIE_PFD2DIP(pfd_p); dip; dip = ddi_get_parent(dip)) {
2099 		if (dip == rp_dip)
2100 			dip = NULL;
2101 
2102 		if (PCIE_IS_PCIE_BDG(PCIE_DIP2BUS(dip)))
2103 			return (PCIE_DIP2PFD(dip));
2104 	}
2105 
2106 	return (NULL);
2107 }
2108 
2109 /*
2110  * See if a leaf error was bubbled up to the Root Complex (RC) and handled.
2111  * As of right now only RC's have enough information to have errors found in the
2112  * fabric to be matched to the RC.  Note that Root Port's (RP) do not carry
2113  * enough information.  Currently known RC's are SPARC Fire architecture and
2114  * it's equivalents, and x86's NPE.
2115  * SPARC Fire architectures have a plethora of error registers, while currently
2116  * NPE only have the address of a failed load.
2117  *
2118  * Check if the RC logged an error with the appropriate status type/abort type.
2119  * Ex: Parity Error, Received Master/Target Abort
2120  * Check if either the fault address found in the rc matches the device's
2121  * assigned address range (PIO's only) or the fault BDF in the rc matches the
2122  * device's BDF or Secondary Bus/Bus Range.
2123  */
2124 static boolean_t
2125 pf_matched_in_rc(pf_data_t *dq_head_p, pf_data_t *pfd_p,
2126     uint32_t abort_type)
2127 {
2128 	pcie_bus_t	*bus_p = PCIE_PFD2BUS(pfd_p);
2129 	pf_data_t	*rc_pfd_p;
2130 	pcie_req_id_t	fault_bdf;
2131 
2132 	for (rc_pfd_p = dq_head_p; PFD_IS_ROOT(rc_pfd_p);
2133 	    rc_pfd_p = rc_pfd_p->pe_next) {
2134 		/* Only root complex's have enough information to match */
2135 		if (!PCIE_IS_RC(PCIE_PFD2BUS(rc_pfd_p)))
2136 			continue;
2137 
2138 		/* If device and rc abort type does not match continue */
2139 		if (!(PCI_BDG_ERR_REG(rc_pfd_p)->pci_bdg_sec_stat & abort_type))
2140 			continue;
2141 
2142 		fault_bdf = PCIE_ROOT_FAULT(rc_pfd_p)->scan_bdf;
2143 
2144 		/* The Fault BDF = Device's BDF */
2145 		if (fault_bdf == bus_p->bus_bdf)
2146 			return (B_TRUE);
2147 
2148 		/* The Fault Addr is in device's address range */
2149 		if (pf_in_addr_range(bus_p,
2150 		    PCIE_ROOT_FAULT(rc_pfd_p)->scan_addr))
2151 			return (B_TRUE);
2152 
2153 		/* The Fault BDF is from PCIe-PCI Bridge's secondary bus */
2154 		if (PCIE_IS_PCIE_BDG(bus_p) &&
2155 		    pf_in_bus_range(bus_p, fault_bdf))
2156 			return (B_TRUE);
2157 	}
2158 
2159 	return (B_FALSE);
2160 }
2161 
2162 /*
2163  * Check the RP and see if the error is PIO/DMA.  If the RP also has a PERR then
2164  * it is a DMA, otherwise it's a PIO
2165  */
2166 static void
2167 pf_pci_find_trans_type(pf_data_t *pfd_p, uint64_t *addr, uint32_t *trans_type,
2168     pcie_req_id_t *bdf) {
2169 	pf_data_t *rc_pfd_p;
2170 
2171 	/* Could be DMA or PIO.  Find out by look at error type. */
2172 	switch (PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_status) {
2173 	case PCIE_AER_SUCE_TA_ON_SC:
2174 	case PCIE_AER_SUCE_MA_ON_SC:
2175 		*trans_type = PF_ADDR_DMA;
2176 		return;
2177 	case PCIE_AER_SUCE_RCVD_TA:
2178 	case PCIE_AER_SUCE_RCVD_MA:
2179 		*bdf = PCIE_INVALID_BDF;
2180 		*trans_type = PF_ADDR_PIO;
2181 		return;
2182 	case PCIE_AER_SUCE_USC_ERR:
2183 	case PCIE_AER_SUCE_UC_DATA_ERR:
2184 	case PCIE_AER_SUCE_PERR_ASSERT:
2185 		break;
2186 	default:
2187 		*addr = 0;
2188 		*bdf = PCIE_INVALID_BDF;
2189 		*trans_type = 0;
2190 		return;
2191 	}
2192 
2193 	*bdf = PCIE_INVALID_BDF;
2194 	*trans_type = PF_ADDR_PIO;
2195 	for (rc_pfd_p = pfd_p->pe_prev; rc_pfd_p;
2196 	    rc_pfd_p = rc_pfd_p->pe_prev) {
2197 		if (PFD_IS_ROOT(rc_pfd_p) &&
2198 		    (PCI_BDG_ERR_REG(rc_pfd_p)->pci_bdg_sec_stat &
2199 		    PCI_STAT_PERROR)) {
2200 			*trans_type = PF_ADDR_DMA;
2201 			return;
2202 		}
2203 	}
2204 }
2205 
2206 /*
2207  * pf_pci_decode function decodes the secondary aer transaction logs in
2208  * PCIe-PCI bridges.
2209  *
2210  * The log is 128 bits long and arranged in this manner.
2211  * [0:35]   Transaction Attribute	(s_aer_h0-saer_h1)
2212  * [36:39]  Transaction lower command	(saer_h1)
2213  * [40:43]  Transaction upper command	(saer_h1)
2214  * [44:63]  Reserved
2215  * [64:127] Address			(saer_h2-saer_h3)
2216  */
2217 /* ARGSUSED */
2218 int
2219 pf_pci_decode(pf_data_t *pfd_p, uint16_t *cmd) {
2220 	pcix_attr_t	*attr;
2221 	uint64_t	addr;
2222 	uint32_t	trans_type;
2223 	pcie_req_id_t	bdf = PCIE_INVALID_BDF;
2224 
2225 	attr = (pcix_attr_t *)&PCIE_ADV_BDG_HDR(pfd_p, 0);
2226 	*cmd = GET_SAER_CMD(pfd_p);
2227 
2228 cmd_switch:
2229 	switch (*cmd) {
2230 	case PCI_PCIX_CMD_IORD:
2231 	case PCI_PCIX_CMD_IOWR:
2232 		/* IO Access should always be down stream */
2233 		addr = PCIE_ADV_BDG_HDR(pfd_p, 2);
2234 		bdf = attr->rid;
2235 		trans_type = PF_ADDR_PIO;
2236 		break;
2237 	case PCI_PCIX_CMD_MEMRD_DW:
2238 	case PCI_PCIX_CMD_MEMRD_BL:
2239 	case PCI_PCIX_CMD_MEMRDBL:
2240 	case PCI_PCIX_CMD_MEMWR:
2241 	case PCI_PCIX_CMD_MEMWR_BL:
2242 	case PCI_PCIX_CMD_MEMWRBL:
2243 		addr = ((uint64_t)PCIE_ADV_BDG_HDR(pfd_p, 3) <<
2244 		    PCIE_AER_SUCE_HDR_ADDR_SHIFT) | PCIE_ADV_BDG_HDR(pfd_p, 2);
2245 		bdf = attr->rid;
2246 
2247 		pf_pci_find_trans_type(pfd_p, &addr, &trans_type, &bdf);
2248 		break;
2249 	case PCI_PCIX_CMD_CFRD:
2250 	case PCI_PCIX_CMD_CFWR:
2251 		/*
2252 		 * CFG Access should always be down stream.  Match the BDF in
2253 		 * the address phase.
2254 		 */
2255 		addr = 0;
2256 		bdf = attr->rid;
2257 		trans_type = PF_ADDR_CFG;
2258 		break;
2259 	case PCI_PCIX_CMD_SPL:
2260 		/*
2261 		 * Check for DMA read completions.  The requesting BDF is in the
2262 		 * Address phase.
2263 		 */
2264 		addr = 0;
2265 		bdf = attr->rid;
2266 		trans_type = PF_ADDR_DMA;
2267 		break;
2268 	case PCI_PCIX_CMD_DADR:
2269 		/*
2270 		 * For Dual Address Cycles the transaction command is in the 2nd
2271 		 * address phase.
2272 		 */
2273 		*cmd = (PCIE_ADV_BDG_HDR(pfd_p, 1) >>
2274 		    PCIE_AER_SUCE_HDR_CMD_UP_SHIFT) &
2275 		    PCIE_AER_SUCE_HDR_CMD_UP_MASK;
2276 		if (*cmd != PCI_PCIX_CMD_DADR)
2277 			goto cmd_switch;
2278 		/* FALLTHROUGH */
2279 	default:
2280 		PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_trans = 0;
2281 		PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_bdf = PCIE_INVALID_BDF;
2282 		PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_addr = 0;
2283 		return (DDI_FAILURE);
2284 	}
2285 	PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_trans = trans_type;
2286 	PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_bdf = bdf;
2287 	PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_addr = addr;
2288 	return (DDI_SUCCESS);
2289 }
2290 
2291 /*
2292  * Based on either the BDF/ADDR find and mark the faulting DMA/ACC handler.
2293  * Returns either PF_HDL_NOTFOUND or PF_HDL_FOUND.
2294  */
2295 int
2296 pf_hdl_lookup(dev_info_t *dip, uint64_t ena, uint32_t flag, uint64_t addr,
2297     pcie_req_id_t bdf)
2298 {
2299 	ddi_fm_error_t		derr;
2300 
2301 	/* If we don't know the addr or rid just return with NOTFOUND */
2302 	if ((addr == NULL) && !PCIE_CHECK_VALID_BDF(bdf))
2303 		return (PF_HDL_NOTFOUND);
2304 
2305 	/*
2306 	 * Disable DMA handle lookup until DMA errors can be handled and
2307 	 * reported synchronously.  When enabled again, check for the
2308 	 * PF_ADDR_DMA flag
2309 	 */
2310 	if (!(flag & (PF_ADDR_PIO | PF_ADDR_CFG))) {
2311 		return (PF_HDL_NOTFOUND);
2312 	}
2313 
2314 	bzero(&derr, sizeof (ddi_fm_error_t));
2315 	derr.fme_version = DDI_FME_VERSION;
2316 	derr.fme_flag = DDI_FM_ERR_UNEXPECTED;
2317 	derr.fme_ena = ena;
2318 
2319 	return (pf_hdl_child_lookup(dip, &derr, flag, addr, bdf));
2320 }
2321 
2322 static int
2323 pf_hdl_child_lookup(dev_info_t *dip, ddi_fm_error_t *derr, uint32_t flag,
2324     uint64_t addr, pcie_req_id_t bdf)
2325 {
2326 	int			status = PF_HDL_NOTFOUND;
2327 	ndi_fmc_t		*fcp = NULL;
2328 	struct i_ddi_fmhdl	*fmhdl = DEVI(dip)->devi_fmhdl;
2329 	pcie_req_id_t		dip_bdf;
2330 	boolean_t		have_lock = B_FALSE;
2331 	pcie_bus_t		*bus_p;
2332 	dev_info_t		*cdip;
2333 
2334 	if (!(bus_p = pf_is_ready(dip))) {
2335 		return (status);
2336 	}
2337 
2338 	ASSERT(fmhdl);
2339 	if (!i_ddi_fm_handler_owned(dip)) {
2340 		/*
2341 		 * pf_handler_enter always returns SUCCESS if the 'impl' arg is
2342 		 * NULL.
2343 		 */
2344 		(void) pf_handler_enter(dip, NULL);
2345 		have_lock = B_TRUE;
2346 	}
2347 
2348 	dip_bdf = PCI_GET_BDF(dip);
2349 
2350 	/* Check if dip and BDF match, if not recurse to it's children. */
2351 	if (!PCIE_IS_RC(bus_p) && (!PCIE_CHECK_VALID_BDF(bdf) ||
2352 	    dip_bdf == bdf)) {
2353 		if ((flag & PF_ADDR_DMA) && DDI_FM_DMA_ERR_CAP(fmhdl->fh_cap))
2354 			fcp = fmhdl->fh_dma_cache;
2355 		else
2356 			fcp = NULL;
2357 
2358 		if (fcp)
2359 			status = pf_hdl_compare(dip, derr, DMA_HANDLE, addr,
2360 			    bdf, fcp);
2361 
2362 
2363 		if (((flag & PF_ADDR_PIO) || (flag & PF_ADDR_CFG)) &&
2364 		    DDI_FM_ACC_ERR_CAP(fmhdl->fh_cap))
2365 			fcp = fmhdl->fh_acc_cache;
2366 		else
2367 			fcp = NULL;
2368 
2369 		if (fcp)
2370 			status = pf_hdl_compare(dip, derr, ACC_HANDLE, addr,
2371 			    bdf, fcp);
2372 	}
2373 
2374 	/* If we found the handler or know it's this device, we're done */
2375 	if (!PCIE_IS_RC(bus_p) && ((dip_bdf == bdf) ||
2376 	    (status == PF_HDL_FOUND)))
2377 		goto done;
2378 
2379 	/*
2380 	 * If the current devuce us a PCIe-PCI bridge need to check for special
2381 	 * cases:
2382 	 *
2383 	 * If it is a PIO and we don't have an address or this is a DMA, check
2384 	 * to see if the BDF = secondary bus.  If so stop.  The BDF isn't a real
2385 	 * BDF and the fault device could have come from any device in the PCI
2386 	 * bus.
2387 	 */
2388 	if (PCIE_IS_PCIE_BDG(bus_p) &&
2389 	    ((flag & PF_ADDR_DMA || flag & PF_ADDR_PIO)) &&
2390 	    ((bus_p->bus_bdg_secbus << PCIE_REQ_ID_BUS_SHIFT) == bdf))
2391 		goto done;
2392 
2393 
2394 	/* If we can't find the handler check it's children */
2395 	for (cdip = ddi_get_child(dip); cdip;
2396 	    cdip = ddi_get_next_sibling(cdip)) {
2397 		if ((bus_p = PCIE_DIP2BUS(cdip)) == NULL)
2398 			continue;
2399 
2400 		if (pf_in_bus_range(bus_p, bdf) ||
2401 		    pf_in_addr_range(bus_p, addr))
2402 			status = pf_hdl_child_lookup(cdip, derr, flag, addr,
2403 			    bdf);
2404 
2405 		if (status == PF_HDL_FOUND)
2406 			goto done;
2407 	}
2408 
2409 done:
2410 	if (have_lock == B_TRUE)
2411 		pf_handler_exit(dip);
2412 
2413 	return (status);
2414 }
2415 
2416 static int
2417 pf_hdl_compare(dev_info_t *dip, ddi_fm_error_t *derr, uint32_t flag,
2418     uint64_t addr, pcie_req_id_t bdf, ndi_fmc_t *fcp) {
2419 	ndi_fmcentry_t	*fep;
2420 	int		found = 0;
2421 	int		status;
2422 
2423 	mutex_enter(&fcp->fc_lock);
2424 	for (fep = fcp->fc_head; fep != NULL; fep = fep->fce_next) {
2425 		ddi_fmcompare_t compare_func;
2426 
2427 		/*
2428 		 * Compare captured error state with handle
2429 		 * resources.  During the comparison and
2430 		 * subsequent error handling, we block
2431 		 * attempts to free the cache entry.
2432 		 */
2433 		compare_func = (flag == ACC_HANDLE) ?
2434 		    i_ddi_fm_acc_err_cf_get((ddi_acc_handle_t)
2435 			fep->fce_resource) :
2436 		    i_ddi_fm_dma_err_cf_get((ddi_dma_handle_t)
2437 			fep->fce_resource);
2438 
2439 		if (compare_func == NULL) /* unbound or not FLAGERR */
2440 			continue;
2441 
2442 		status = compare_func(dip, fep->fce_resource,
2443 			    (void *)&addr, (void *)&bdf);
2444 
2445 		if (status == DDI_FM_NONFATAL) {
2446 			found++;
2447 
2448 			/* Set the error for this resource handle */
2449 			if (flag == ACC_HANDLE) {
2450 				ddi_acc_handle_t ap = fep->fce_resource;
2451 
2452 				i_ddi_fm_acc_err_set(ap, derr->fme_ena, status,
2453 				    DDI_FM_ERR_UNEXPECTED);
2454 				ddi_fm_acc_err_get(ap, derr, DDI_FME_VERSION);
2455 				derr->fme_acc_handle = ap;
2456 			} else {
2457 				ddi_dma_handle_t dp = fep->fce_resource;
2458 
2459 				i_ddi_fm_dma_err_set(dp, derr->fme_ena, status,
2460 				    DDI_FM_ERR_UNEXPECTED);
2461 				ddi_fm_dma_err_get(dp, derr, DDI_FME_VERSION);
2462 				derr->fme_dma_handle = dp;
2463 			}
2464 		}
2465 	}
2466 	mutex_exit(&fcp->fc_lock);
2467 
2468 	/*
2469 	 * If a handler isn't found and we know this is the right device mark
2470 	 * them all failed.
2471 	 */
2472 	if ((addr != NULL) && PCIE_CHECK_VALID_BDF(bdf) && (found == 0)) {
2473 		status = pf_hdl_compare(dip, derr, flag, addr, bdf, fcp);
2474 		if (status == PF_HDL_FOUND)
2475 			found++;
2476 	}
2477 
2478 	return ((found) ? PF_HDL_FOUND : PF_HDL_NOTFOUND);
2479 }
2480 
2481 /*
2482  * Automatically decode AER header logs and does a handling look up based on the
2483  * AER header decoding.
2484  *
2485  * For this function only the Primary/Secondary AER Header Logs need to be valid
2486  * in the pfd (PCIe Fault Data) arg.
2487  *
2488  * Returns either PF_HDL_NOTFOUND or PF_HDL_FOUND.
2489  */
2490 /* ARGSUSED */
2491 static int
2492 pf_log_hdl_lookup(dev_info_t *rpdip, ddi_fm_error_t *derr, pf_data_t *pfd_p,
2493 	boolean_t is_primary)
2494 {
2495 	/*
2496 	 * Disabling this function temporarily until errors can be handled
2497 	 * synchronously.
2498 	 *
2499 	 * This function is currently only called during the middle of a fabric
2500 	 * scan.  If the fabric scan is called synchronously with an error seen
2501 	 * in the RP/RC, then the related errors in the fabric will have a
2502 	 * PF_ERR_MATCHED_RC error severity.  pf_log_hdl_lookup code will be by
2503 	 * passed when the severity is PF_ERR_MATCHED_RC.  Handle lookup would
2504 	 * have already happened in RP/RC error handling in a synchronous
2505 	 * manner.  Errors unrelated should panic, because they are being
2506 	 * handled asynchronously.
2507 	 *
2508 	 * If fabric scan is called asynchronously from any RP/RC error, then
2509 	 * DMA/PIO UE errors seen in the fabric should panic.  pf_lop_hdl_lookup
2510 	 * will return PF_HDL_NOTFOUND to ensure that the system panics.
2511 	 */
2512 	return (PF_HDL_NOTFOUND);
2513 }
2514 
2515 /*
2516  * Decodes the TLP and returns the BDF of the handler, address and transaction
2517  * type if known.
2518  *
2519  * Types of TLP logs seen in RC, and what to extract:
2520  *
2521  * Memory(DMA) - Requester BDF, address, PF_DMA_ADDR
2522  * Memory(PIO) - address, PF_PIO_ADDR
2523  * CFG - Should not occur and result in UR
2524  * Completion(DMA) - Requester BDF, PF_DMA_ADDR
2525  * Completion(PIO) - Requester BDF, PF_PIO_ADDR
2526  *
2527  * Types of TLP logs seen in SW/Leaf, and what to extract:
2528  *
2529  * Memory(DMA) - Requester BDF, address, PF_DMA_ADDR
2530  * Memory(PIO) - address, PF_PIO_ADDR
2531  * CFG - Destined BDF, address, PF_CFG_ADDR
2532  * Completion(DMA) - Requester BDF, PF_DMA_ADDR
2533  * Completion(PIO) - Requester BDF, PF_PIO_ADDR
2534  *
2535  * The adv_reg_p must be passed in separately for use with SPARC RPs.  A
2536  * SPARC RP could have multiple AER header logs which cannot be directly
2537  * accessed via the bus_p.
2538  */
2539 int
2540 pf_tlp_decode(pcie_bus_t *bus_p, pf_pcie_adv_err_regs_t *adv_reg_p) {
2541 	pcie_tlp_hdr_t	*tlp_hdr = (pcie_tlp_hdr_t *)adv_reg_p->pcie_ue_hdr;
2542 	pcie_req_id_t	my_bdf, tlp_bdf, flt_bdf = PCIE_INVALID_BDF;
2543 	uint64_t	flt_addr = 0;
2544 	uint32_t	flt_trans_type = 0;
2545 
2546 	adv_reg_p->pcie_ue_tgt_addr = 0;
2547 	adv_reg_p->pcie_ue_tgt_bdf = PCIE_INVALID_BDF;
2548 	adv_reg_p->pcie_ue_tgt_trans = 0;
2549 
2550 	my_bdf = bus_p->bus_bdf;
2551 	switch (tlp_hdr->type) {
2552 	case PCIE_TLP_TYPE_IO:
2553 	case PCIE_TLP_TYPE_MEM:
2554 	case PCIE_TLP_TYPE_MEMLK:
2555 		/* Grab the 32/64bit fault address */
2556 		if (tlp_hdr->fmt & 0x1) {
2557 			flt_addr = ((uint64_t)adv_reg_p->pcie_ue_hdr[2] << 32);
2558 			flt_addr |= adv_reg_p->pcie_ue_hdr[3];
2559 		} else {
2560 			flt_addr = adv_reg_p->pcie_ue_hdr[2];
2561 		}
2562 
2563 		tlp_bdf = (pcie_req_id_t)(adv_reg_p->pcie_ue_hdr[1] >> 16);
2564 
2565 		/*
2566 		 * If the req bdf >= this.bdf, then it means the request is this
2567 		 * device or came from a device below it.  Unless this device is
2568 		 * a PCIe root port then it means is a DMA, otherwise PIO.
2569 		 */
2570 		if ((tlp_bdf >= my_bdf) && !PCIE_IS_ROOT(bus_p)) {
2571 			flt_trans_type = PF_ADDR_DMA;
2572 			flt_bdf = tlp_bdf;
2573 		} else if (PCIE_IS_ROOT(bus_p) &&
2574 		    (PF_FIRST_AER_ERR(PCIE_AER_UCE_PTLP, adv_reg_p) ||
2575 			(PF_FIRST_AER_ERR(PCIE_AER_UCE_CA, adv_reg_p)))) {
2576 			flt_trans_type = PF_ADDR_DMA;
2577 			flt_bdf = tlp_bdf;
2578 		} else {
2579 			flt_trans_type = PF_ADDR_PIO;
2580 			flt_bdf = PCIE_INVALID_BDF;
2581 		}
2582 		break;
2583 	case PCIE_TLP_TYPE_CFG0:
2584 	case PCIE_TLP_TYPE_CFG1:
2585 		flt_addr = 0;
2586 		flt_bdf = (pcie_req_id_t)(adv_reg_p->pcie_ue_hdr[2] >> 16);
2587 		flt_trans_type = PF_ADDR_CFG;
2588 		break;
2589 	case PCIE_TLP_TYPE_CPL:
2590 	case PCIE_TLP_TYPE_CPLLK:
2591 	{
2592 		pcie_cpl_t *cpl_tlp = (pcie_cpl_t *)&adv_reg_p->pcie_ue_hdr[1];
2593 
2594 		flt_addr = NULL;
2595 		flt_bdf = (cpl_tlp->rid > cpl_tlp->cid) ? cpl_tlp->rid :
2596 		    cpl_tlp->cid;
2597 
2598 		/*
2599 		 * If the cpl bdf < this.bdf, then it means the request is this
2600 		 * device or came from a device below it.  Unless this device is
2601 		 * a PCIe root port then it means is a DMA, otherwise PIO.
2602 		 */
2603 		if (cpl_tlp->rid > cpl_tlp->cid) {
2604 			flt_trans_type = PF_ADDR_DMA;
2605 		} else {
2606 			flt_trans_type = PF_ADDR_PIO | PF_ADDR_CFG;
2607 		}
2608 		break;
2609 	}
2610 	default:
2611 		return (DDI_FAILURE);
2612 	}
2613 
2614 	adv_reg_p->pcie_ue_tgt_addr = flt_addr;
2615 	adv_reg_p->pcie_ue_tgt_bdf = flt_bdf;
2616 	adv_reg_p->pcie_ue_tgt_trans = flt_trans_type;
2617 
2618 	return (DDI_SUCCESS);
2619 }
2620 
2621 #define	PCIE_EREPORT	DDI_IO_CLASS "." PCI_ERROR_SUBCLASS "." PCIEX_FABRIC
2622 static int
2623 pf_ereport_setup(dev_info_t *dip, uint64_t ena, nvlist_t **ereport,
2624     nvlist_t **detector, errorq_elem_t **eqep)
2625 {
2626 	struct i_ddi_fmhdl *fmhdl = DEVI(dip)->devi_fmhdl;
2627 	char device_path[MAXPATHLEN];
2628 	nv_alloc_t *nva;
2629 
2630 	*eqep = errorq_reserve(fmhdl->fh_errorq);
2631 	if (*eqep == NULL) {
2632 		atomic_add_64(&fmhdl->fh_kstat.fek_erpt_dropped.value.ui64, 1);
2633 		return (DDI_FAILURE);
2634 	}
2635 
2636 	*ereport = errorq_elem_nvl(fmhdl->fh_errorq, *eqep);
2637 	nva = errorq_elem_nva(fmhdl->fh_errorq, *eqep);
2638 
2639 	ASSERT(*ereport);
2640 	ASSERT(nva);
2641 
2642 	/*
2643 	 * Use the dev_path/devid for this device instance.
2644 	 */
2645 	*detector = fm_nvlist_create(nva);
2646 	if (dip == ddi_root_node()) {
2647 		device_path[0] = '/';
2648 		device_path[1] = '\0';
2649 	} else {
2650 		(void) ddi_pathname(dip, device_path);
2651 	}
2652 
2653 	fm_fmri_dev_set(*detector, FM_DEV_SCHEME_VERSION, NULL,
2654 	    device_path, NULL, NULL);
2655 
2656 	if (ena == 0)
2657 		ena = fm_ena_generate(0, FM_ENA_FMT1);
2658 
2659 	fm_ereport_set(*ereport, 0, PCIE_EREPORT, ena, *detector, NULL);
2660 
2661 	return (DDI_SUCCESS);
2662 }
2663 
2664 /* ARGSUSED */
2665 static void
2666 pf_ereport_post(dev_info_t *dip, nvlist_t **ereport, nvlist_t **detector,
2667     errorq_elem_t **eqep)
2668 {
2669 	struct i_ddi_fmhdl *fmhdl = DEVI(dip)->devi_fmhdl;
2670 
2671 	errorq_commit(fmhdl->fh_errorq, *eqep, ERRORQ_ASYNC);
2672 }
2673 
2674 static void
2675 pf_send_ereport(ddi_fm_error_t *derr, pf_impl_t *impl)
2676 {
2677 	nvlist_t	*ereport;
2678 	nvlist_t	*detector;
2679 	errorq_elem_t	*eqep;
2680 	pcie_bus_t	*bus_p;
2681 	pf_data_t	*pfd_p;
2682 	uint32_t	total = impl->pf_total;
2683 
2684 	/*
2685 	 * Ereports need to be sent in a top down fashion. The fabric translator
2686 	 * expects the ereports from the Root first. This is needed to tell if
2687 	 * the system contains a PCIe complaint RC/RP.
2688 	 */
2689 	for (pfd_p = impl->pf_dq_head_p; pfd_p; pfd_p = pfd_p->pe_next) {
2690 		bus_p = PCIE_PFD2BUS(pfd_p);
2691 		pfd_p->pe_valid = B_FALSE;
2692 
2693 		if (derr->fme_flag != DDI_FM_ERR_UNEXPECTED ||
2694 		    !DDI_FM_EREPORT_CAP(ddi_fm_capable(PCIE_PFD2DIP(pfd_p))))
2695 			continue;
2696 
2697 		if (pf_ereport_setup(PCIE_BUS2DIP(bus_p), derr->fme_ena,
2698 		    &ereport, &detector, &eqep) != DDI_SUCCESS)
2699 			continue;
2700 
2701 		if (PFD_IS_RC(pfd_p)) {
2702 			fm_payload_set(ereport,
2703 			    "scan_bdf", DATA_TYPE_UINT16,
2704 			    PCIE_ROOT_FAULT(pfd_p)->scan_bdf,
2705 			    "scan_addr", DATA_TYPE_UINT64,
2706 			    PCIE_ROOT_FAULT(pfd_p)->scan_addr,
2707 			    "intr_src", DATA_TYPE_UINT16,
2708 			    PCIE_ROOT_EH_SRC(pfd_p)->intr_type,
2709 			    NULL);
2710 			goto generic;
2711 		}
2712 
2713 		/* Generic PCI device information */
2714 		fm_payload_set(ereport,
2715 		    "bdf", DATA_TYPE_UINT16, bus_p->bus_bdf,
2716 		    "device_id", DATA_TYPE_UINT16,
2717 		    (bus_p->bus_dev_ven_id >> 16),
2718 		    "vendor_id", DATA_TYPE_UINT16,
2719 		    (bus_p->bus_dev_ven_id & 0xFFFF),
2720 		    "rev_id", DATA_TYPE_UINT8, bus_p->bus_rev_id,
2721 		    "dev_type", DATA_TYPE_UINT16, bus_p->bus_dev_type,
2722 		    "pcie_off", DATA_TYPE_UINT16, bus_p->bus_pcie_off,
2723 		    "pcix_off", DATA_TYPE_UINT16, bus_p->bus_pcix_off,
2724 		    "aer_off", DATA_TYPE_UINT16, bus_p->bus_aer_off,
2725 		    "ecc_ver", DATA_TYPE_UINT16, bus_p->bus_ecc_ver,
2726 		    NULL);
2727 
2728 		/* PCI registers */
2729 		fm_payload_set(ereport,
2730 		    "pci_status", DATA_TYPE_UINT16,
2731 		    PCI_ERR_REG(pfd_p)->pci_err_status,
2732 		    "pci_command", DATA_TYPE_UINT16,
2733 		    PCI_ERR_REG(pfd_p)->pci_cfg_comm,
2734 		    NULL);
2735 
2736 		/* PCI bridge registers */
2737 		if (PCIE_IS_BDG(bus_p)) {
2738 			fm_payload_set(ereport,
2739 			    "pci_bdg_sec_status", DATA_TYPE_UINT16,
2740 			    PCI_BDG_ERR_REG(pfd_p)->pci_bdg_sec_stat,
2741 			    "pci_bdg_ctrl", DATA_TYPE_UINT16,
2742 			    PCI_BDG_ERR_REG(pfd_p)->pci_bdg_ctrl,
2743 			    NULL);
2744 		}
2745 
2746 		/* PCIx registers */
2747 		if (PCIE_IS_PCIX(bus_p) && !PCIE_IS_BDG(bus_p)) {
2748 			fm_payload_set(ereport,
2749 			    "pcix_status", DATA_TYPE_UINT32,
2750 			    PCIX_ERR_REG(pfd_p)->pcix_status,
2751 			    "pcix_command", DATA_TYPE_UINT16,
2752 			    PCIX_ERR_REG(pfd_p)->pcix_command,
2753 			    NULL);
2754 		}
2755 
2756 		/* PCIx ECC Registers */
2757 		if (PCIX_ECC_VERSION_CHECK(bus_p)) {
2758 			pf_pcix_ecc_regs_t *ecc_bdg_reg;
2759 			pf_pcix_ecc_regs_t *ecc_reg;
2760 
2761 			if (PCIE_IS_BDG(bus_p))
2762 				ecc_bdg_reg = PCIX_BDG_ECC_REG(pfd_p, 0);
2763 			ecc_reg = PCIX_ECC_REG(pfd_p);
2764 			fm_payload_set(ereport,
2765 			    "pcix_ecc_control_0", DATA_TYPE_UINT16,
2766 			    PCIE_IS_BDG(bus_p) ?
2767 			    (ecc_bdg_reg->pcix_ecc_ctlstat >> 16) :
2768 			    (ecc_reg->pcix_ecc_ctlstat >> 16),
2769 			    "pcix_ecc_status_0", DATA_TYPE_UINT16,
2770 			    PCIE_IS_BDG(bus_p) ?
2771 			    (ecc_bdg_reg->pcix_ecc_ctlstat & 0xFFFF) :
2772 			    (ecc_reg->pcix_ecc_ctlstat & 0xFFFF),
2773 			    "pcix_ecc_fst_addr_0", DATA_TYPE_UINT32,
2774 			    PCIE_IS_BDG(bus_p) ?
2775 			    ecc_bdg_reg->pcix_ecc_fstaddr :
2776 			    ecc_reg->pcix_ecc_fstaddr,
2777 			    "pcix_ecc_sec_addr_0", DATA_TYPE_UINT32,
2778 			    PCIE_IS_BDG(bus_p) ?
2779 			    ecc_bdg_reg->pcix_ecc_secaddr :
2780 			    ecc_reg->pcix_ecc_secaddr,
2781 			    "pcix_ecc_attr_0", DATA_TYPE_UINT32,
2782 			    PCIE_IS_BDG(bus_p) ?
2783 			    ecc_bdg_reg->pcix_ecc_attr :
2784 			    ecc_reg->pcix_ecc_attr,
2785 			    NULL);
2786 		}
2787 
2788 		/* PCIx ECC Bridge Registers */
2789 		if (PCIX_ECC_VERSION_CHECK(bus_p) && PCIE_IS_BDG(bus_p)) {
2790 			pf_pcix_ecc_regs_t *ecc_bdg_reg;
2791 
2792 			ecc_bdg_reg = PCIX_BDG_ECC_REG(pfd_p, 1);
2793 			fm_payload_set(ereport,
2794 			    "pcix_ecc_control_1", DATA_TYPE_UINT16,
2795 			    (ecc_bdg_reg->pcix_ecc_ctlstat >> 16),
2796 			    "pcix_ecc_status_1", DATA_TYPE_UINT16,
2797 			    (ecc_bdg_reg->pcix_ecc_ctlstat & 0xFFFF),
2798 			    "pcix_ecc_fst_addr_1", DATA_TYPE_UINT32,
2799 			    ecc_bdg_reg->pcix_ecc_fstaddr,
2800 			    "pcix_ecc_sec_addr_1", DATA_TYPE_UINT32,
2801 			    ecc_bdg_reg->pcix_ecc_secaddr,
2802 			    "pcix_ecc_attr_1", DATA_TYPE_UINT32,
2803 			    ecc_bdg_reg->pcix_ecc_attr,
2804 			    NULL);
2805 		}
2806 
2807 		/* PCIx Bridge */
2808 		if (PCIE_IS_PCIX(bus_p) && PCIE_IS_BDG(bus_p)) {
2809 			fm_payload_set(ereport,
2810 			    "pcix_bdg_status", DATA_TYPE_UINT32,
2811 			    PCIX_BDG_ERR_REG(pfd_p)->pcix_bdg_stat,
2812 			    "pcix_bdg_sec_status", DATA_TYPE_UINT16,
2813 			    PCIX_BDG_ERR_REG(pfd_p)->pcix_bdg_sec_stat,
2814 			    NULL);
2815 		}
2816 
2817 		/* PCIe registers */
2818 		if (PCIE_IS_PCIE(bus_p)) {
2819 			fm_payload_set(ereport,
2820 			    "pcie_status", DATA_TYPE_UINT16,
2821 			    PCIE_ERR_REG(pfd_p)->pcie_err_status,
2822 			    "pcie_command", DATA_TYPE_UINT16,
2823 			    PCIE_ERR_REG(pfd_p)->pcie_err_ctl,
2824 			    "pcie_dev_cap", DATA_TYPE_UINT32,
2825 			    PCIE_ERR_REG(pfd_p)->pcie_dev_cap,
2826 			    NULL);
2827 		}
2828 
2829 		/* PCIe AER registers */
2830 		if (PCIE_HAS_AER(bus_p)) {
2831 			fm_payload_set(ereport,
2832 			    "pcie_adv_ctl", DATA_TYPE_UINT32,
2833 			    PCIE_ADV_REG(pfd_p)->pcie_adv_ctl,
2834 			    "pcie_ue_status", DATA_TYPE_UINT32,
2835 			    PCIE_ADV_REG(pfd_p)->pcie_ue_status,
2836 			    "pcie_ue_mask", DATA_TYPE_UINT32,
2837 			    PCIE_ADV_REG(pfd_p)->pcie_ue_mask,
2838 			    "pcie_ue_sev", DATA_TYPE_UINT32,
2839 			    PCIE_ADV_REG(pfd_p)->pcie_ue_sev,
2840 			    "pcie_ue_hdr0", DATA_TYPE_UINT32,
2841 			    PCIE_ADV_REG(pfd_p)->pcie_ue_hdr[0],
2842 			    "pcie_ue_hdr1", DATA_TYPE_UINT32,
2843 			    PCIE_ADV_REG(pfd_p)->pcie_ue_hdr[1],
2844 			    "pcie_ue_hdr2", DATA_TYPE_UINT32,
2845 			    PCIE_ADV_REG(pfd_p)->pcie_ue_hdr[2],
2846 			    "pcie_ue_hdr3", DATA_TYPE_UINT32,
2847 			    PCIE_ADV_REG(pfd_p)->pcie_ue_hdr[3],
2848 			    "pcie_ce_status", DATA_TYPE_UINT32,
2849 			    PCIE_ADV_REG(pfd_p)->pcie_ce_status,
2850 			    "pcie_ce_mask", DATA_TYPE_UINT32,
2851 			    PCIE_ADV_REG(pfd_p)->pcie_ce_mask,
2852 			    NULL);
2853 		}
2854 
2855 		/* PCIe AER decoded header */
2856 		if (HAS_AER_LOGS(pfd_p, PCIE_ADV_REG(pfd_p)->pcie_ue_status)) {
2857 			fm_payload_set(ereport,
2858 			    "pcie_ue_tgt_trans", DATA_TYPE_UINT32,
2859 			    PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_trans,
2860 			    "pcie_ue_tgt_addr", DATA_TYPE_UINT64,
2861 			    PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_addr,
2862 			    "pcie_ue_tgt_bdf", DATA_TYPE_UINT16,
2863 			    PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_bdf,
2864 			    NULL);
2865 			/* Clear these values as they no longer valid */
2866 			PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_trans = 0;
2867 			PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_addr = 0;
2868 			PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_bdf = PCIE_INVALID_BDF;
2869 		}
2870 
2871 		/* PCIe BDG AER registers */
2872 		if (PCIE_IS_PCIE_BDG(bus_p) && PCIE_HAS_AER(bus_p)) {
2873 			fm_payload_set(ereport,
2874 			    "pcie_sue_adv_ctl", DATA_TYPE_UINT32,
2875 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_ctl,
2876 			    "pcie_sue_status", DATA_TYPE_UINT32,
2877 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_status,
2878 			    "pcie_sue_mask", DATA_TYPE_UINT32,
2879 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_mask,
2880 			    "pcie_sue_sev", DATA_TYPE_UINT32,
2881 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_sev,
2882 			    "pcie_sue_hdr0", DATA_TYPE_UINT32,
2883 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_hdr[0],
2884 			    "pcie_sue_hdr1", DATA_TYPE_UINT32,
2885 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_hdr[1],
2886 			    "pcie_sue_hdr2", DATA_TYPE_UINT32,
2887 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_hdr[2],
2888 			    "pcie_sue_hdr3", DATA_TYPE_UINT32,
2889 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_hdr[3],
2890 			    NULL);
2891 		}
2892 
2893 		/* PCIe BDG AER decoded header */
2894 		if (PCIE_IS_PCIE_BDG(bus_p) && HAS_SAER_LOGS(pfd_p,
2895 		    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_status)) {
2896 			fm_payload_set(ereport,
2897 			    "pcie_sue_tgt_trans", DATA_TYPE_UINT32,
2898 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_trans,
2899 			    "pcie_sue_tgt_addr", DATA_TYPE_UINT64,
2900 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_addr,
2901 			    "pcie_sue_tgt_bdf", DATA_TYPE_UINT16,
2902 			    PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_bdf,
2903 			    NULL);
2904 			/* Clear these values as they no longer valid */
2905 			PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_trans = 0;
2906 			PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_addr = 0;
2907 			PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_bdf =
2908 			    PCIE_INVALID_BDF;
2909 		}
2910 
2911 		/* PCIe RP registers */
2912 		if (PCIE_IS_RP(bus_p)) {
2913 			fm_payload_set(ereport,
2914 			    "pcie_rp_status", DATA_TYPE_UINT32,
2915 			    PCIE_RP_REG(pfd_p)->pcie_rp_status,
2916 			    "pcie_rp_control", DATA_TYPE_UINT16,
2917 			    PCIE_RP_REG(pfd_p)->pcie_rp_ctl,
2918 			    NULL);
2919 		}
2920 
2921 		/* PCIe RP AER registers */
2922 		if (PCIE_IS_RP(bus_p) && PCIE_HAS_AER(bus_p)) {
2923 			fm_payload_set(ereport,
2924 			    "pcie_adv_rp_status", DATA_TYPE_UINT32,
2925 			    PCIE_ADV_RP_REG(pfd_p)->pcie_rp_err_status,
2926 			    "pcie_adv_rp_command", DATA_TYPE_UINT32,
2927 			    PCIE_ADV_RP_REG(pfd_p)->pcie_rp_err_cmd,
2928 			    "pcie_adv_rp_ce_src_id", DATA_TYPE_UINT16,
2929 			    PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ce_src_id,
2930 			    "pcie_adv_rp_ue_src_id", DATA_TYPE_UINT16,
2931 			    PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ue_src_id,
2932 			    NULL);
2933 		}
2934 
2935 generic:
2936 		/* IOV related information */
2937 		if (!PCIE_BDG_IS_UNASSIGNED(PCIE_PFD2BUS(impl->pf_dq_head_p))) {
2938 			fm_payload_set(ereport,
2939 			    "pcie_aff_flags", DATA_TYPE_UINT16,
2940 			    PFD_AFFECTED_DEV(pfd_p)->pe_affected_flags,
2941 			    "pcie_aff_bdf", DATA_TYPE_UINT16,
2942 			    PFD_AFFECTED_DEV(pfd_p)->pe_affected_bdf,
2943 			    "orig_sev", DATA_TYPE_UINT32,
2944 			    pfd_p->pe_orig_severity_flags,
2945 			    NULL);
2946 		}
2947 
2948 		/* Misc ereport information */
2949 		fm_payload_set(ereport,
2950 		    "remainder", DATA_TYPE_UINT32, --total,
2951 		    "severity", DATA_TYPE_UINT32, pfd_p->pe_severity_flags,
2952 		    NULL);
2953 
2954 		pf_ereport_post(PCIE_BUS2DIP(bus_p), &ereport, &detector,
2955 		    &eqep);
2956 	}
2957 
2958 	/* Unlock all the devices in the queue */
2959 	for (pfd_p = impl->pf_dq_tail_p; pfd_p; pfd_p = pfd_p->pe_prev) {
2960 		if (pfd_p->pe_lock) {
2961 			pf_handler_exit(PCIE_PFD2DIP(pfd_p));
2962 		}
2963 	}
2964 }
2965 
2966 /*
2967  * pf_handler_enter must be called to serial access to each device's pf_data_t.
2968  * Once error handling is finished with the device call pf_handler_exit to allow
2969  * other threads to access it.  The same thread may call pf_handler_enter
2970  * several times without any consequences.
2971  *
2972  * The "impl" variable is passed in during scan fabric to double check that
2973  * there is not a recursive algorithm and to ensure only one thread is doing a
2974  * fabric scan at all times.
2975  *
2976  * In some cases "impl" is not available, such as "child lookup" being called
2977  * from outside of scan fabric, just pass in NULL for this variable and this
2978  * extra check will be skipped.
2979  */
2980 static int
2981 pf_handler_enter(dev_info_t *dip, pf_impl_t *impl)
2982 {
2983 	pf_data_t *pfd_p = PCIE_DIP2PFD(dip);
2984 
2985 	ASSERT(pfd_p);
2986 
2987 	/*
2988 	 * Check to see if the lock has already been taken by this
2989 	 * thread.  If so just return and don't take lock again.
2990 	 */
2991 	if (!pfd_p->pe_lock || !impl) {
2992 		i_ddi_fm_handler_enter(dip);
2993 		pfd_p->pe_lock = B_TRUE;
2994 		return (PF_SCAN_SUCCESS);
2995 	}
2996 
2997 	/* Check to see that this dip is already in the "impl" error queue */
2998 	for (pfd_p = impl->pf_dq_head_p; pfd_p; pfd_p = pfd_p->pe_next) {
2999 		if (PCIE_PFD2DIP(pfd_p) == dip) {
3000 			return (PF_SCAN_SUCCESS);
3001 		}
3002 	}
3003 
3004 	return (PF_SCAN_DEADLOCK);
3005 }
3006 
3007 static void
3008 pf_handler_exit(dev_info_t *dip)
3009 {
3010 	pf_data_t *pfd_p = PCIE_DIP2PFD(dip);
3011 
3012 	ASSERT(pfd_p);
3013 
3014 	ASSERT(pfd_p->pe_lock == B_TRUE);
3015 	i_ddi_fm_handler_exit(dip);
3016 	pfd_p->pe_lock = B_FALSE;
3017 }
3018 
3019 /*
3020  * This function calls the driver's callback function (if it's FMA hardened
3021  * and callback capable). This function relies on the current thread already
3022  * owning the driver's fmhdl lock.
3023  */
3024 static int
3025 pf_fm_callback(dev_info_t *dip, ddi_fm_error_t *derr)
3026 {
3027 	int cb_sts = DDI_FM_OK;
3028 
3029 	if (DDI_FM_ERRCB_CAP(ddi_fm_capable(dip))) {
3030 		dev_info_t *pdip = ddi_get_parent(dip);
3031 		struct i_ddi_fmhdl *hdl = DEVI(pdip)->devi_fmhdl;
3032 		struct i_ddi_fmtgt *tgt = hdl->fh_tgts;
3033 		struct i_ddi_errhdl *errhdl;
3034 		while (tgt != NULL) {
3035 			if (dip == tgt->ft_dip) {
3036 				errhdl = tgt->ft_errhdl;
3037 				cb_sts = errhdl->eh_func(dip, derr,
3038 				    errhdl->eh_impl);
3039 				break;
3040 			}
3041 			tgt = tgt->ft_next;
3042 		}
3043 	}
3044 	return (cb_sts);
3045 }
3046 
3047 static void
3048 pf_reset_pfd(pf_data_t *pfd_p)
3049 {
3050 	pcie_bus_t	*bus_p = PCIE_PFD2BUS(pfd_p);
3051 
3052 	pfd_p->pe_severity_flags = 0;
3053 	pfd_p->pe_orig_severity_flags = 0;
3054 	/* pe_lock and pe_valid were reset in pf_send_ereport */
3055 
3056 	PFD_AFFECTED_DEV(pfd_p)->pe_affected_flags = 0;
3057 	PFD_AFFECTED_DEV(pfd_p)->pe_affected_bdf = PCIE_INVALID_BDF;
3058 
3059 	if (PCIE_IS_ROOT(bus_p)) {
3060 		PCIE_ROOT_FAULT(pfd_p)->scan_bdf = PCIE_INVALID_BDF;
3061 		PCIE_ROOT_FAULT(pfd_p)->scan_addr = 0;
3062 		PCIE_ROOT_FAULT(pfd_p)->full_scan = B_FALSE;
3063 		PCIE_ROOT_EH_SRC(pfd_p)->intr_type = PF_INTR_TYPE_NONE;
3064 		PCIE_ROOT_EH_SRC(pfd_p)->intr_data = NULL;
3065 	}
3066 
3067 	if (PCIE_IS_BDG(bus_p)) {
3068 		bzero(PCI_BDG_ERR_REG(pfd_p), sizeof (pf_pci_bdg_err_regs_t));
3069 	}
3070 
3071 	PCI_ERR_REG(pfd_p)->pci_err_status = 0;
3072 	PCI_ERR_REG(pfd_p)->pci_cfg_comm = 0;
3073 
3074 	if (PCIE_IS_PCIE(bus_p)) {
3075 		if (PCIE_IS_ROOT(bus_p)) {
3076 			bzero(PCIE_RP_REG(pfd_p),
3077 			    sizeof (pf_pcie_rp_err_regs_t));
3078 			bzero(PCIE_ADV_RP_REG(pfd_p),
3079 			    sizeof (pf_pcie_adv_rp_err_regs_t));
3080 			PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ce_src_id =
3081 			    PCIE_INVALID_BDF;
3082 			PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ue_src_id =
3083 			    PCIE_INVALID_BDF;
3084 		} else if (PCIE_IS_PCIE_BDG(bus_p)) {
3085 			bzero(PCIE_ADV_BDG_REG(pfd_p),
3086 			    sizeof (pf_pcie_adv_bdg_err_regs_t));
3087 			PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_bdf =
3088 			    PCIE_INVALID_BDF;
3089 		}
3090 
3091 		if (PCIE_IS_PCIE_BDG(bus_p) && PCIE_IS_PCIX(bus_p)) {
3092 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
3093 				bzero(PCIX_BDG_ECC_REG(pfd_p, 0),
3094 				    sizeof (pf_pcix_ecc_regs_t));
3095 				bzero(PCIX_BDG_ECC_REG(pfd_p, 1),
3096 				    sizeof (pf_pcix_ecc_regs_t));
3097 			}
3098 			PCIX_BDG_ERR_REG(pfd_p)->pcix_bdg_sec_stat = 0;
3099 			PCIX_BDG_ERR_REG(pfd_p)->pcix_bdg_stat = 0;
3100 		}
3101 
3102 		PCIE_ADV_REG(pfd_p)->pcie_adv_ctl = 0;
3103 		PCIE_ADV_REG(pfd_p)->pcie_ue_status = 0;
3104 		PCIE_ADV_REG(pfd_p)->pcie_ue_mask = 0;
3105 		PCIE_ADV_REG(pfd_p)->pcie_ue_sev = 0;
3106 		PCIE_ADV_HDR(pfd_p, 0) = 0;
3107 		PCIE_ADV_HDR(pfd_p, 1) = 0;
3108 		PCIE_ADV_HDR(pfd_p, 2) = 0;
3109 		PCIE_ADV_HDR(pfd_p, 3) = 0;
3110 		PCIE_ADV_REG(pfd_p)->pcie_ce_status = 0;
3111 		PCIE_ADV_REG(pfd_p)->pcie_ce_mask = 0;
3112 		PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_trans = 0;
3113 		PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_addr = 0;
3114 		PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_bdf = PCIE_INVALID_BDF;
3115 
3116 		PCIE_ERR_REG(pfd_p)->pcie_err_status = 0;
3117 		PCIE_ERR_REG(pfd_p)->pcie_err_ctl = 0;
3118 		PCIE_ERR_REG(pfd_p)->pcie_dev_cap = 0;
3119 
3120 	} else if (PCIE_IS_PCIX(bus_p)) {
3121 		if (PCIE_IS_BDG(bus_p)) {
3122 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
3123 				bzero(PCIX_BDG_ECC_REG(pfd_p, 0),
3124 				    sizeof (pf_pcix_ecc_regs_t));
3125 				bzero(PCIX_BDG_ECC_REG(pfd_p, 1),
3126 				    sizeof (pf_pcix_ecc_regs_t));
3127 			}
3128 			PCIX_BDG_ERR_REG(pfd_p)->pcix_bdg_sec_stat = 0;
3129 			PCIX_BDG_ERR_REG(pfd_p)->pcix_bdg_stat = 0;
3130 		} else {
3131 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
3132 				bzero(PCIX_ECC_REG(pfd_p),
3133 				    sizeof (pf_pcix_ecc_regs_t));
3134 			}
3135 			PCIX_ERR_REG(pfd_p)->pcix_command = 0;
3136 			PCIX_ERR_REG(pfd_p)->pcix_status = 0;
3137 		}
3138 	}
3139 
3140 	pfd_p->pe_prev = NULL;
3141 	pfd_p->pe_next = NULL;
3142 	pfd_p->pe_rber_fatal = B_FALSE;
3143 }
3144 
3145 pcie_bus_t *
3146 pf_find_busp_by_bdf(pf_impl_t *impl, pcie_req_id_t bdf)
3147 {
3148 	pcie_bus_t *temp_bus_p;
3149 	pf_data_t *temp_pfd_p;
3150 
3151 	for (temp_pfd_p = impl->pf_dq_head_p;
3152 	    temp_pfd_p;
3153 	    temp_pfd_p = temp_pfd_p->pe_next) {
3154 		temp_bus_p = PCIE_PFD2BUS(temp_pfd_p);
3155 
3156 		if (bdf == temp_bus_p->bus_bdf) {
3157 			return (temp_bus_p);
3158 		}
3159 	}
3160 
3161 	return (NULL);
3162 }
3163 
3164 pcie_bus_t *
3165 pf_find_busp_by_addr(pf_impl_t *impl, uint64_t addr)
3166 {
3167 	pcie_bus_t *temp_bus_p;
3168 	pf_data_t *temp_pfd_p;
3169 
3170 	for (temp_pfd_p = impl->pf_dq_head_p;
3171 	    temp_pfd_p;
3172 	    temp_pfd_p = temp_pfd_p->pe_next) {
3173 		temp_bus_p = PCIE_PFD2BUS(temp_pfd_p);
3174 
3175 		if (pf_in_assigned_addr(temp_bus_p, addr)) {
3176 			return (temp_bus_p);
3177 		}
3178 	}
3179 
3180 	return (NULL);
3181 }
3182 
3183 pcie_bus_t *
3184 pf_find_busp_by_aer(pf_impl_t *impl, pf_data_t *pfd_p)
3185 {
3186 	pf_pcie_adv_err_regs_t *reg_p = PCIE_ADV_REG(pfd_p);
3187 	pcie_bus_t *temp_bus_p = NULL;
3188 	pcie_req_id_t bdf;
3189 	uint64_t addr;
3190 	pcie_tlp_hdr_t *tlp_hdr = (pcie_tlp_hdr_t *)reg_p->pcie_ue_hdr;
3191 	uint32_t trans_type = reg_p->pcie_ue_tgt_trans;
3192 
3193 	if ((tlp_hdr->type == PCIE_TLP_TYPE_CPL) ||
3194 	    (tlp_hdr->type == PCIE_TLP_TYPE_CPLLK)) {
3195 		pcie_cpl_t *cpl_tlp = (pcie_cpl_t *)&reg_p->pcie_ue_hdr[1];
3196 
3197 		bdf = (cpl_tlp->rid > cpl_tlp->cid) ? cpl_tlp->rid :
3198 		    cpl_tlp->cid;
3199 		temp_bus_p = pf_find_busp_by_bdf(impl, bdf);
3200 	} else if (trans_type == PF_ADDR_PIO) {
3201 		addr = reg_p->pcie_ue_tgt_addr;
3202 		temp_bus_p = pf_find_busp_by_addr(impl, addr);
3203 	} else {
3204 		/* PF_ADDR_DMA type */
3205 		bdf = reg_p->pcie_ue_tgt_bdf;
3206 		temp_bus_p = pf_find_busp_by_bdf(impl, bdf);
3207 	}
3208 
3209 	return (temp_bus_p);
3210 }
3211 
3212 pcie_bus_t *
3213 pf_find_busp_by_saer(pf_impl_t *impl, pf_data_t *pfd_p)
3214 {
3215 	pf_pcie_adv_bdg_err_regs_t *reg_p = PCIE_ADV_BDG_REG(pfd_p);
3216 	pcie_bus_t *temp_bus_p = NULL;
3217 	pcie_req_id_t bdf;
3218 	uint64_t addr;
3219 
3220 	addr = reg_p->pcie_sue_tgt_addr;
3221 	bdf = reg_p->pcie_sue_tgt_bdf;
3222 
3223 	if (addr != NULL) {
3224 		temp_bus_p = pf_find_busp_by_addr(impl, addr);
3225 	} else if (PCIE_CHECK_VALID_BDF(bdf)) {
3226 		temp_bus_p = pf_find_busp_by_bdf(impl, bdf);
3227 	}
3228 
3229 	return (temp_bus_p);
3230 }
3231