xref: /illumos-gate/usr/src/uts/common/io/pciex/pcie.c (revision 2a6e99a0f1f7d22c0396e8b2ce9b9babbd1056cf)
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 /*
23  * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
24  * Copyright (c) 2017, Joyent, Inc.
25  */
26 
27 #include <sys/sysmacros.h>
28 #include <sys/types.h>
29 #include <sys/kmem.h>
30 #include <sys/modctl.h>
31 #include <sys/ddi.h>
32 #include <sys/sunddi.h>
33 #include <sys/sunndi.h>
34 #include <sys/fm/protocol.h>
35 #include <sys/fm/util.h>
36 #include <sys/promif.h>
37 #include <sys/disp.h>
38 #include <sys/stat.h>
39 #include <sys/file.h>
40 #include <sys/pci_cap.h>
41 #include <sys/pci_impl.h>
42 #include <sys/pcie_impl.h>
43 #include <sys/hotplug/pci/pcie_hp.h>
44 #include <sys/hotplug/pci/pciehpc.h>
45 #include <sys/hotplug/pci/pcishpc.h>
46 #include <sys/hotplug/pci/pcicfg.h>
47 #include <sys/pci_cfgacc.h>
48 
49 /* Local functions prototypes */
50 static void pcie_init_pfd(dev_info_t *);
51 static void pcie_fini_pfd(dev_info_t *);
52 
53 #if defined(__i386) || defined(__amd64)
54 static void pcie_check_io_mem_range(ddi_acc_handle_t, boolean_t *, boolean_t *);
55 #endif /* defined(__i386) || defined(__amd64) */
56 
57 #ifdef DEBUG
58 uint_t pcie_debug_flags = 0;
59 static void pcie_print_bus(pcie_bus_t *bus_p);
60 void pcie_dbg(char *fmt, ...);
61 #endif /* DEBUG */
62 
63 /* Variable to control default PCI-Express config settings */
64 ushort_t pcie_command_default =
65     PCI_COMM_SERR_ENABLE |
66     PCI_COMM_WAIT_CYC_ENAB |
67     PCI_COMM_PARITY_DETECT |
68     PCI_COMM_ME |
69     PCI_COMM_MAE |
70     PCI_COMM_IO;
71 
72 /* xxx_fw are bits that are controlled by FW and should not be modified */
73 ushort_t pcie_command_default_fw =
74     PCI_COMM_SPEC_CYC |
75     PCI_COMM_MEMWR_INVAL |
76     PCI_COMM_PALETTE_SNOOP |
77     PCI_COMM_WAIT_CYC_ENAB |
78     0xF800; /* Reserved Bits */
79 
80 ushort_t pcie_bdg_command_default_fw =
81     PCI_BCNF_BCNTRL_ISA_ENABLE |
82     PCI_BCNF_BCNTRL_VGA_ENABLE |
83     0xF000; /* Reserved Bits */
84 
85 /* PCI-Express Base error defaults */
86 ushort_t pcie_base_err_default =
87     PCIE_DEVCTL_CE_REPORTING_EN |
88     PCIE_DEVCTL_NFE_REPORTING_EN |
89     PCIE_DEVCTL_FE_REPORTING_EN |
90     PCIE_DEVCTL_UR_REPORTING_EN;
91 
92 /* PCI-Express Device Control Register */
93 uint16_t pcie_devctl_default = PCIE_DEVCTL_RO_EN |
94     PCIE_DEVCTL_MAX_READ_REQ_512;
95 
96 /* PCI-Express AER Root Control Register */
97 #define	PCIE_ROOT_SYS_ERR	(PCIE_ROOTCTL_SYS_ERR_ON_CE_EN | \
98 				PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN | \
99 				PCIE_ROOTCTL_SYS_ERR_ON_FE_EN)
100 
101 ushort_t pcie_root_ctrl_default =
102     PCIE_ROOTCTL_SYS_ERR_ON_CE_EN |
103     PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
104     PCIE_ROOTCTL_SYS_ERR_ON_FE_EN;
105 
106 /* PCI-Express Root Error Command Register */
107 ushort_t pcie_root_error_cmd_default =
108     PCIE_AER_RE_CMD_CE_REP_EN |
109     PCIE_AER_RE_CMD_NFE_REP_EN |
110     PCIE_AER_RE_CMD_FE_REP_EN;
111 
112 /* ECRC settings in the PCIe AER Control Register */
113 uint32_t pcie_ecrc_value =
114     PCIE_AER_CTL_ECRC_GEN_ENA |
115     PCIE_AER_CTL_ECRC_CHECK_ENA;
116 
117 /*
118  * If a particular platform wants to disable certain errors such as UR/MA,
119  * instead of using #defines have the platform's PCIe Root Complex driver set
120  * these masks using the pcie_get_XXX_mask and pcie_set_XXX_mask functions.  For
121  * x86 the closest thing to a PCIe root complex driver is NPE.	For SPARC the
122  * closest PCIe root complex driver is PX.
123  *
124  * pcie_serr_disable_flag : disable SERR only (in RCR and command reg) x86
125  * systems may want to disable SERR in general.  For root ports, enabling SERR
126  * causes NMIs which are not handled and results in a watchdog timeout error.
127  */
128 uint32_t pcie_aer_uce_mask = 0;		/* AER UE Mask */
129 uint32_t pcie_aer_ce_mask = 0;		/* AER CE Mask */
130 uint32_t pcie_aer_suce_mask = 0;	/* AER Secondary UE Mask */
131 uint32_t pcie_serr_disable_flag = 0;	/* Disable SERR */
132 
133 /* Default severities needed for eversholt.  Error handling doesn't care */
134 uint32_t pcie_aer_uce_severity = PCIE_AER_UCE_MTLP | PCIE_AER_UCE_RO | \
135     PCIE_AER_UCE_FCP | PCIE_AER_UCE_SD | PCIE_AER_UCE_DLP | \
136     PCIE_AER_UCE_TRAINING;
137 uint32_t pcie_aer_suce_severity = PCIE_AER_SUCE_SERR_ASSERT | \
138     PCIE_AER_SUCE_UC_ADDR_ERR | PCIE_AER_SUCE_UC_ATTR_ERR | \
139     PCIE_AER_SUCE_USC_MSG_DATA_ERR;
140 
141 int pcie_max_mps = PCIE_DEVCTL_MAX_PAYLOAD_4096 >> 5;
142 int pcie_disable_ari = 0;
143 
144 static void pcie_scan_mps(dev_info_t *rc_dip, dev_info_t *dip,
145 	int *max_supported);
146 static int pcie_get_max_supported(dev_info_t *dip, void *arg);
147 static int pcie_map_phys(dev_info_t *dip, pci_regspec_t *phys_spec,
148     caddr_t *addrp, ddi_acc_handle_t *handlep);
149 static void pcie_unmap_phys(ddi_acc_handle_t *handlep,	pci_regspec_t *ph);
150 
151 dev_info_t *pcie_get_rc_dip(dev_info_t *dip);
152 
153 /*
154  * modload support
155  */
156 
157 static struct modlmisc modlmisc	= {
158 	&mod_miscops,	/* Type	of module */
159 	"PCI Express Framework Module"
160 };
161 
162 static struct modlinkage modlinkage = {
163 	MODREV_1,
164 	(void	*)&modlmisc,
165 	NULL
166 };
167 
168 /*
169  * Global Variables needed for a non-atomic version of ddi_fm_ereport_post.
170  * Currently used to send the pci.fabric ereports whose payload depends on the
171  * type of PCI device it is being sent for.
172  */
173 char		*pcie_nv_buf;
174 nv_alloc_t	*pcie_nvap;
175 nvlist_t	*pcie_nvl;
176 
177 int
178 _init(void)
179 {
180 	int rval;
181 
182 	pcie_nv_buf = kmem_alloc(ERPT_DATA_SZ, KM_SLEEP);
183 	pcie_nvap = fm_nva_xcreate(pcie_nv_buf, ERPT_DATA_SZ);
184 	pcie_nvl = fm_nvlist_create(pcie_nvap);
185 
186 	if ((rval = mod_install(&modlinkage)) != 0) {
187 		fm_nvlist_destroy(pcie_nvl, FM_NVA_RETAIN);
188 		fm_nva_xdestroy(pcie_nvap);
189 		kmem_free(pcie_nv_buf, ERPT_DATA_SZ);
190 	}
191 	return (rval);
192 }
193 
194 int
195 _fini()
196 {
197 	int		rval;
198 
199 	if ((rval = mod_remove(&modlinkage)) == 0) {
200 		fm_nvlist_destroy(pcie_nvl, FM_NVA_RETAIN);
201 		fm_nva_xdestroy(pcie_nvap);
202 		kmem_free(pcie_nv_buf, ERPT_DATA_SZ);
203 	}
204 	return (rval);
205 }
206 
207 int
208 _info(struct modinfo *modinfop)
209 {
210 	return (mod_info(&modlinkage, modinfop));
211 }
212 
213 /* ARGSUSED */
214 int
215 pcie_init(dev_info_t *dip, caddr_t arg)
216 {
217 	int	ret = DDI_SUCCESS;
218 
219 	/*
220 	 * Create a "devctl" minor node to support DEVCTL_DEVICE_*
221 	 * and DEVCTL_BUS_* ioctls to this bus.
222 	 */
223 	if ((ret = ddi_create_minor_node(dip, "devctl", S_IFCHR,
224 	    PCI_MINOR_NUM(ddi_get_instance(dip), PCI_DEVCTL_MINOR),
225 	    DDI_NT_NEXUS, 0)) != DDI_SUCCESS) {
226 		PCIE_DBG("Failed to create devctl minor node for %s%d\n",
227 		    ddi_driver_name(dip), ddi_get_instance(dip));
228 
229 		return (ret);
230 	}
231 
232 	if ((ret = pcie_hp_init(dip, arg)) != DDI_SUCCESS) {
233 		/*
234 		 * On some x86 platforms, we observed unexpected hotplug
235 		 * initialization failures in recent years. The known cause
236 		 * is a hardware issue: while the problem PCI bridges have
237 		 * the Hotplug Capable registers set, the machine actually
238 		 * does not implement the expected ACPI object.
239 		 *
240 		 * We don't want to stop PCI driver attach and system boot
241 		 * just because of this hotplug initialization failure.
242 		 * Continue with a debug message printed.
243 		 */
244 		PCIE_DBG("%s%d: Failed setting hotplug framework\n",
245 		    ddi_driver_name(dip), ddi_get_instance(dip));
246 
247 #if defined(__sparc)
248 		ddi_remove_minor_node(dip, "devctl");
249 
250 		return (ret);
251 #endif /* defined(__sparc) */
252 	}
253 
254 	return (DDI_SUCCESS);
255 }
256 
257 /* ARGSUSED */
258 int
259 pcie_uninit(dev_info_t *dip)
260 {
261 	int	ret = DDI_SUCCESS;
262 
263 	if (pcie_ari_is_enabled(dip) == PCIE_ARI_FORW_ENABLED)
264 		(void) pcie_ari_disable(dip);
265 
266 	if ((ret = pcie_hp_uninit(dip)) != DDI_SUCCESS) {
267 		PCIE_DBG("Failed to uninitialize hotplug for %s%d\n",
268 		    ddi_driver_name(dip), ddi_get_instance(dip));
269 
270 		return (ret);
271 	}
272 
273 	ddi_remove_minor_node(dip, "devctl");
274 
275 	return (ret);
276 }
277 
278 /*
279  * PCIe module interface for enabling hotplug interrupt.
280  *
281  * It should be called after pcie_init() is done and bus driver's
282  * interrupt handlers have being attached.
283  */
284 int
285 pcie_hpintr_enable(dev_info_t *dip)
286 {
287 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
288 	pcie_hp_ctrl_t	*ctrl_p = PCIE_GET_HP_CTRL(dip);
289 
290 	if (PCIE_IS_PCIE_HOTPLUG_ENABLED(bus_p)) {
291 		(void) (ctrl_p->hc_ops.enable_hpc_intr)(ctrl_p);
292 	} else if (PCIE_IS_PCI_HOTPLUG_ENABLED(bus_p)) {
293 		(void) pcishpc_enable_irqs(ctrl_p);
294 	}
295 	return (DDI_SUCCESS);
296 }
297 
298 /*
299  * PCIe module interface for disabling hotplug interrupt.
300  *
301  * It should be called before pcie_uninit() is called and bus driver's
302  * interrupt handlers is dettached.
303  */
304 int
305 pcie_hpintr_disable(dev_info_t *dip)
306 {
307 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
308 	pcie_hp_ctrl_t	*ctrl_p = PCIE_GET_HP_CTRL(dip);
309 
310 	if (PCIE_IS_PCIE_HOTPLUG_ENABLED(bus_p)) {
311 		(void) (ctrl_p->hc_ops.disable_hpc_intr)(ctrl_p);
312 	} else if (PCIE_IS_PCI_HOTPLUG_ENABLED(bus_p)) {
313 		(void) pcishpc_disable_irqs(ctrl_p);
314 	}
315 	return (DDI_SUCCESS);
316 }
317 
318 /* ARGSUSED */
319 int
320 pcie_intr(dev_info_t *dip)
321 {
322 	return (pcie_hp_intr(dip));
323 }
324 
325 /* ARGSUSED */
326 int
327 pcie_open(dev_info_t *dip, dev_t *devp, int flags, int otyp, cred_t *credp)
328 {
329 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
330 
331 	/*
332 	 * Make sure the open is for the right file type.
333 	 */
334 	if (otyp != OTYP_CHR)
335 		return (EINVAL);
336 
337 	/*
338 	 * Handle the open by tracking the device state.
339 	 */
340 	if ((bus_p->bus_soft_state == PCI_SOFT_STATE_OPEN_EXCL) ||
341 	    ((flags & FEXCL) &&
342 	    (bus_p->bus_soft_state != PCI_SOFT_STATE_CLOSED))) {
343 		return (EBUSY);
344 	}
345 
346 	if (flags & FEXCL)
347 		bus_p->bus_soft_state = PCI_SOFT_STATE_OPEN_EXCL;
348 	else
349 		bus_p->bus_soft_state = PCI_SOFT_STATE_OPEN;
350 
351 	return (0);
352 }
353 
354 /* ARGSUSED */
355 int
356 pcie_close(dev_info_t *dip, dev_t dev, int flags, int otyp, cred_t *credp)
357 {
358 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
359 
360 	if (otyp != OTYP_CHR)
361 		return (EINVAL);
362 
363 	bus_p->bus_soft_state = PCI_SOFT_STATE_CLOSED;
364 
365 	return (0);
366 }
367 
368 /* ARGSUSED */
369 int
370 pcie_ioctl(dev_info_t *dip, dev_t dev, int cmd, intptr_t arg, int mode,
371     cred_t *credp, int *rvalp)
372 {
373 	struct devctl_iocdata	*dcp;
374 	uint_t			bus_state;
375 	int			rv = DDI_SUCCESS;
376 
377 	/*
378 	 * We can use the generic implementation for devctl ioctl
379 	 */
380 	switch (cmd) {
381 	case DEVCTL_DEVICE_GETSTATE:
382 	case DEVCTL_DEVICE_ONLINE:
383 	case DEVCTL_DEVICE_OFFLINE:
384 	case DEVCTL_BUS_GETSTATE:
385 		return (ndi_devctl_ioctl(dip, cmd, arg, mode, 0));
386 	default:
387 		break;
388 	}
389 
390 	/*
391 	 * read devctl ioctl data
392 	 */
393 	if (ndi_dc_allochdl((void *)arg, &dcp) != NDI_SUCCESS)
394 		return (EFAULT);
395 
396 	switch (cmd) {
397 	case DEVCTL_BUS_QUIESCE:
398 		if (ndi_get_bus_state(dip, &bus_state) == NDI_SUCCESS)
399 			if (bus_state == BUS_QUIESCED)
400 				break;
401 		(void) ndi_set_bus_state(dip, BUS_QUIESCED);
402 		break;
403 	case DEVCTL_BUS_UNQUIESCE:
404 		if (ndi_get_bus_state(dip, &bus_state) == NDI_SUCCESS)
405 			if (bus_state == BUS_ACTIVE)
406 				break;
407 		(void) ndi_set_bus_state(dip, BUS_ACTIVE);
408 		break;
409 	case DEVCTL_BUS_RESET:
410 	case DEVCTL_BUS_RESETALL:
411 	case DEVCTL_DEVICE_RESET:
412 		rv = ENOTSUP;
413 		break;
414 	default:
415 		rv = ENOTTY;
416 	}
417 
418 	ndi_dc_freehdl(dcp);
419 	return (rv);
420 }
421 
422 /* ARGSUSED */
423 int
424 pcie_prop_op(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op,
425     int flags, char *name, caddr_t valuep, int *lengthp)
426 {
427 	if (dev == DDI_DEV_T_ANY)
428 		goto skip;
429 
430 	if (PCIE_IS_HOTPLUG_CAPABLE(dip) &&
431 	    strcmp(name, "pci-occupant") == 0) {
432 		int	pci_dev = PCI_MINOR_NUM_TO_PCI_DEVNUM(getminor(dev));
433 
434 		pcie_hp_create_occupant_props(dip, dev, pci_dev);
435 	}
436 
437 skip:
438 	return (ddi_prop_op(dev, dip, prop_op, flags, name, valuep, lengthp));
439 }
440 
441 int
442 pcie_init_cfghdl(dev_info_t *cdip)
443 {
444 	pcie_bus_t		*bus_p;
445 	ddi_acc_handle_t	eh = NULL;
446 
447 	bus_p = PCIE_DIP2BUS(cdip);
448 	if (bus_p == NULL)
449 		return (DDI_FAILURE);
450 
451 	/* Create an config access special to error handling */
452 	if (pci_config_setup(cdip, &eh) != DDI_SUCCESS) {
453 		cmn_err(CE_WARN, "Cannot setup config access"
454 		    " for BDF 0x%x\n", bus_p->bus_bdf);
455 		return (DDI_FAILURE);
456 	}
457 
458 	bus_p->bus_cfg_hdl = eh;
459 	return (DDI_SUCCESS);
460 }
461 
462 void
463 pcie_fini_cfghdl(dev_info_t *cdip)
464 {
465 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(cdip);
466 
467 	pci_config_teardown(&bus_p->bus_cfg_hdl);
468 }
469 
470 void
471 pcie_determine_serial(dev_info_t *dip)
472 {
473 	pcie_bus_t		*bus_p = PCIE_DIP2BUS(dip);
474 	ddi_acc_handle_t	h;
475 	uint16_t		cap;
476 	uchar_t			serial[8];
477 	uint32_t		low, high;
478 
479 	if (!PCIE_IS_PCIE(bus_p))
480 		return;
481 
482 	h = bus_p->bus_cfg_hdl;
483 
484 	if ((PCI_CAP_LOCATE(h, PCI_CAP_XCFG_SPC(PCIE_EXT_CAP_ID_SER), &cap)) ==
485 	    DDI_FAILURE)
486 		return;
487 
488 	high = PCI_XCAP_GET32(h, 0, cap, PCIE_SER_SID_UPPER_DW);
489 	low = PCI_XCAP_GET32(h, 0, cap, PCIE_SER_SID_LOWER_DW);
490 
491 	/*
492 	 * Here, we're trying to figure out if we had an invalid PCIe read. From
493 	 * looking at the contents of the value, it can be hard to tell the
494 	 * difference between a value that has all 1s correctly versus if we had
495 	 * an error. In this case, we only assume it's invalid if both register
496 	 * reads are invalid. We also only use 32-bit reads as we're not sure if
497 	 * all devices will support these as 64-bit reads, while we know that
498 	 * they'll support these as 32-bit reads.
499 	 */
500 	if (high == PCI_EINVAL32 && low == PCI_EINVAL32)
501 		return;
502 
503 	serial[0] = low & 0xff;
504 	serial[1] = (low >> 8) & 0xff;
505 	serial[2] = (low >> 16) & 0xff;
506 	serial[3] = (low >> 24) & 0xff;
507 	serial[4] = high & 0xff;
508 	serial[5] = (high >> 8) & 0xff;
509 	serial[6] = (high >> 16) & 0xff;
510 	serial[7] = (high >> 24) & 0xff;
511 
512 	(void) ndi_prop_update_byte_array(DDI_DEV_T_NONE, dip, "pcie-serial",
513 	    serial, sizeof (serial));
514 }
515 
516 /*
517  * PCI-Express child device initialization.
518  * This function enables generic pci-express interrupts and error
519  * handling.
520  *
521  * @param pdip		root dip (root nexus's dip)
522  * @param cdip		child's dip (device's dip)
523  * @return		DDI_SUCCESS or DDI_FAILURE
524  */
525 /* ARGSUSED */
526 int
527 pcie_initchild(dev_info_t *cdip)
528 {
529 	uint16_t		tmp16, reg16;
530 	pcie_bus_t		*bus_p;
531 	uint32_t		devid, venid;
532 
533 	bus_p = PCIE_DIP2BUS(cdip);
534 	if (bus_p == NULL) {
535 		PCIE_DBG("%s: BUS not found.\n",
536 		    ddi_driver_name(cdip));
537 
538 		return (DDI_FAILURE);
539 	}
540 
541 	if (pcie_init_cfghdl(cdip) != DDI_SUCCESS)
542 		return (DDI_FAILURE);
543 
544 	/*
545 	 * Update pcie_bus_t with real Vendor Id Device Id.
546 	 *
547 	 * For assigned devices in IOV environment, the OBP will return
548 	 * faked device id/vendor id on configration read and for both
549 	 * properties in root domain. translate_devid() function will
550 	 * update the properties with real device-id/vendor-id on such
551 	 * platforms, so that we can utilize the properties here to get
552 	 * real device-id/vendor-id and overwrite the faked ids.
553 	 *
554 	 * For unassigned devices or devices in non-IOV environment, the
555 	 * operation below won't make a difference.
556 	 *
557 	 * The IOV implementation only supports assignment of PCIE
558 	 * endpoint devices. Devices under pci-pci bridges don't need
559 	 * operation like this.
560 	 */
561 	devid = ddi_prop_get_int(DDI_DEV_T_ANY, cdip, DDI_PROP_DONTPASS,
562 	    "device-id", -1);
563 	venid = ddi_prop_get_int(DDI_DEV_T_ANY, cdip, DDI_PROP_DONTPASS,
564 	    "vendor-id", -1);
565 	bus_p->bus_dev_ven_id = (devid << 16) | (venid & 0xffff);
566 
567 	/* Clear the device's status register */
568 	reg16 = PCIE_GET(16, bus_p, PCI_CONF_STAT);
569 	PCIE_PUT(16, bus_p, PCI_CONF_STAT, reg16);
570 
571 	/* Setup the device's command register */
572 	reg16 = PCIE_GET(16, bus_p, PCI_CONF_COMM);
573 	tmp16 = (reg16 & pcie_command_default_fw) | pcie_command_default;
574 
575 #if defined(__i386) || defined(__amd64)
576 	boolean_t empty_io_range = B_FALSE;
577 	boolean_t empty_mem_range = B_FALSE;
578 	/*
579 	 * Check for empty IO and Mem ranges on bridges. If so disable IO/Mem
580 	 * access as it can cause a hang if enabled.
581 	 */
582 	pcie_check_io_mem_range(bus_p->bus_cfg_hdl, &empty_io_range,
583 	    &empty_mem_range);
584 	if ((empty_io_range == B_TRUE) &&
585 	    (pcie_command_default & PCI_COMM_IO)) {
586 		tmp16 &= ~PCI_COMM_IO;
587 		PCIE_DBG("No I/O range found for %s, bdf 0x%x\n",
588 		    ddi_driver_name(cdip), bus_p->bus_bdf);
589 	}
590 	if ((empty_mem_range == B_TRUE) &&
591 	    (pcie_command_default & PCI_COMM_MAE)) {
592 		tmp16 &= ~PCI_COMM_MAE;
593 		PCIE_DBG("No Mem range found for %s, bdf 0x%x\n",
594 		    ddi_driver_name(cdip), bus_p->bus_bdf);
595 	}
596 #endif /* defined(__i386) || defined(__amd64) */
597 
598 	if (pcie_serr_disable_flag && PCIE_IS_PCIE(bus_p))
599 		tmp16 &= ~PCI_COMM_SERR_ENABLE;
600 
601 	PCIE_PUT(16, bus_p, PCI_CONF_COMM, tmp16);
602 	PCIE_DBG_CFG(cdip, bus_p, "COMMAND", 16, PCI_CONF_COMM, reg16);
603 
604 	/*
605 	 * If the device has a bus control register then program it
606 	 * based on the settings in the command register.
607 	 */
608 	if (PCIE_IS_BDG(bus_p)) {
609 		/* Clear the device's secondary status register */
610 		reg16 = PCIE_GET(16, bus_p, PCI_BCNF_SEC_STATUS);
611 		PCIE_PUT(16, bus_p, PCI_BCNF_SEC_STATUS, reg16);
612 
613 		/* Setup the device's secondary command register */
614 		reg16 = PCIE_GET(16, bus_p, PCI_BCNF_BCNTRL);
615 		tmp16 = (reg16 & pcie_bdg_command_default_fw);
616 
617 		tmp16 |= PCI_BCNF_BCNTRL_SERR_ENABLE;
618 		/*
619 		 * Workaround for this Nvidia bridge. Don't enable the SERR
620 		 * enable bit in the bridge control register as it could lead to
621 		 * bogus NMIs.
622 		 */
623 		if (bus_p->bus_dev_ven_id == 0x037010DE)
624 			tmp16 &= ~PCI_BCNF_BCNTRL_SERR_ENABLE;
625 
626 		if (pcie_command_default & PCI_COMM_PARITY_DETECT)
627 			tmp16 |= PCI_BCNF_BCNTRL_PARITY_ENABLE;
628 
629 		/*
630 		 * Enable Master Abort Mode only if URs have not been masked.
631 		 * For PCI and PCIe-PCI bridges, enabling this bit causes a
632 		 * Master Aborts/UR to be forwarded as a UR/TA or SERR.  If this
633 		 * bit is masked, posted requests are dropped and non-posted
634 		 * requests are returned with -1.
635 		 */
636 		if (pcie_aer_uce_mask & PCIE_AER_UCE_UR)
637 			tmp16 &= ~PCI_BCNF_BCNTRL_MAST_AB_MODE;
638 		else
639 			tmp16 |= PCI_BCNF_BCNTRL_MAST_AB_MODE;
640 		PCIE_PUT(16, bus_p, PCI_BCNF_BCNTRL, tmp16);
641 		PCIE_DBG_CFG(cdip, bus_p, "SEC CMD", 16, PCI_BCNF_BCNTRL,
642 		    reg16);
643 	}
644 
645 	if (PCIE_IS_PCIE(bus_p)) {
646 		/* Setup PCIe device control register */
647 		reg16 = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL);
648 		/* note: MPS/MRRS are initialized in pcie_initchild_mps() */
649 		tmp16 = (reg16 & (PCIE_DEVCTL_MAX_READ_REQ_MASK |
650 		    PCIE_DEVCTL_MAX_PAYLOAD_MASK)) |
651 		    (pcie_devctl_default & ~(PCIE_DEVCTL_MAX_READ_REQ_MASK |
652 		    PCIE_DEVCTL_MAX_PAYLOAD_MASK));
653 		PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL, tmp16);
654 		PCIE_DBG_CAP(cdip, bus_p, "DEVCTL", 16, PCIE_DEVCTL, reg16);
655 
656 		/* Enable PCIe errors */
657 		pcie_enable_errors(cdip);
658 
659 		pcie_determine_serial(cdip);
660 	}
661 
662 	bus_p->bus_ari = B_FALSE;
663 	if ((pcie_ari_is_enabled(ddi_get_parent(cdip))
664 	    == PCIE_ARI_FORW_ENABLED) && (pcie_ari_device(cdip)
665 	    == PCIE_ARI_DEVICE)) {
666 		bus_p->bus_ari = B_TRUE;
667 	}
668 
669 	if (pcie_initchild_mps(cdip) == DDI_FAILURE) {
670 		pcie_fini_cfghdl(cdip);
671 		return (DDI_FAILURE);
672 	}
673 
674 	return (DDI_SUCCESS);
675 }
676 
677 static void
678 pcie_init_pfd(dev_info_t *dip)
679 {
680 	pf_data_t	*pfd_p = PCIE_ZALLOC(pf_data_t);
681 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
682 
683 	PCIE_DIP2PFD(dip) = pfd_p;
684 
685 	pfd_p->pe_bus_p = bus_p;
686 	pfd_p->pe_severity_flags = 0;
687 	pfd_p->pe_orig_severity_flags = 0;
688 	pfd_p->pe_lock = B_FALSE;
689 	pfd_p->pe_valid = B_FALSE;
690 
691 	/* Allocate the root fault struct for both RC and RP */
692 	if (PCIE_IS_ROOT(bus_p)) {
693 		PCIE_ROOT_FAULT(pfd_p) = PCIE_ZALLOC(pf_root_fault_t);
694 		PCIE_ROOT_FAULT(pfd_p)->scan_bdf = PCIE_INVALID_BDF;
695 		PCIE_ROOT_EH_SRC(pfd_p) = PCIE_ZALLOC(pf_root_eh_src_t);
696 	}
697 
698 	PCI_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pci_err_regs_t);
699 	PFD_AFFECTED_DEV(pfd_p) = PCIE_ZALLOC(pf_affected_dev_t);
700 	PFD_AFFECTED_DEV(pfd_p)->pe_affected_bdf = PCIE_INVALID_BDF;
701 
702 	if (PCIE_IS_BDG(bus_p))
703 		PCI_BDG_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pci_bdg_err_regs_t);
704 
705 	if (PCIE_IS_PCIE(bus_p)) {
706 		PCIE_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pcie_err_regs_t);
707 
708 		if (PCIE_IS_RP(bus_p))
709 			PCIE_RP_REG(pfd_p) =
710 			    PCIE_ZALLOC(pf_pcie_rp_err_regs_t);
711 
712 		PCIE_ADV_REG(pfd_p) = PCIE_ZALLOC(pf_pcie_adv_err_regs_t);
713 		PCIE_ADV_REG(pfd_p)->pcie_ue_tgt_bdf = PCIE_INVALID_BDF;
714 
715 		if (PCIE_IS_RP(bus_p)) {
716 			PCIE_ADV_RP_REG(pfd_p) =
717 			    PCIE_ZALLOC(pf_pcie_adv_rp_err_regs_t);
718 			PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ce_src_id =
719 			    PCIE_INVALID_BDF;
720 			PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ue_src_id =
721 			    PCIE_INVALID_BDF;
722 		} else if (PCIE_IS_PCIE_BDG(bus_p)) {
723 			PCIE_ADV_BDG_REG(pfd_p) =
724 			    PCIE_ZALLOC(pf_pcie_adv_bdg_err_regs_t);
725 			PCIE_ADV_BDG_REG(pfd_p)->pcie_sue_tgt_bdf =
726 			    PCIE_INVALID_BDF;
727 		}
728 
729 		if (PCIE_IS_PCIE_BDG(bus_p) && PCIE_IS_PCIX(bus_p)) {
730 			PCIX_BDG_ERR_REG(pfd_p) =
731 			    PCIE_ZALLOC(pf_pcix_bdg_err_regs_t);
732 
733 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
734 				PCIX_BDG_ECC_REG(pfd_p, 0) =
735 				    PCIE_ZALLOC(pf_pcix_ecc_regs_t);
736 				PCIX_BDG_ECC_REG(pfd_p, 1) =
737 				    PCIE_ZALLOC(pf_pcix_ecc_regs_t);
738 			}
739 		}
740 	} else if (PCIE_IS_PCIX(bus_p)) {
741 		if (PCIE_IS_BDG(bus_p)) {
742 			PCIX_BDG_ERR_REG(pfd_p) =
743 			    PCIE_ZALLOC(pf_pcix_bdg_err_regs_t);
744 
745 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
746 				PCIX_BDG_ECC_REG(pfd_p, 0) =
747 				    PCIE_ZALLOC(pf_pcix_ecc_regs_t);
748 				PCIX_BDG_ECC_REG(pfd_p, 1) =
749 				    PCIE_ZALLOC(pf_pcix_ecc_regs_t);
750 			}
751 		} else {
752 			PCIX_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pcix_err_regs_t);
753 
754 			if (PCIX_ECC_VERSION_CHECK(bus_p))
755 				PCIX_ECC_REG(pfd_p) =
756 				    PCIE_ZALLOC(pf_pcix_ecc_regs_t);
757 		}
758 	}
759 }
760 
761 static void
762 pcie_fini_pfd(dev_info_t *dip)
763 {
764 	pf_data_t	*pfd_p = PCIE_DIP2PFD(dip);
765 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
766 
767 	if (PCIE_IS_PCIE(bus_p)) {
768 		if (PCIE_IS_PCIE_BDG(bus_p) && PCIE_IS_PCIX(bus_p)) {
769 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
770 				kmem_free(PCIX_BDG_ECC_REG(pfd_p, 0),
771 				    sizeof (pf_pcix_ecc_regs_t));
772 				kmem_free(PCIX_BDG_ECC_REG(pfd_p, 1),
773 				    sizeof (pf_pcix_ecc_regs_t));
774 			}
775 
776 			kmem_free(PCIX_BDG_ERR_REG(pfd_p),
777 			    sizeof (pf_pcix_bdg_err_regs_t));
778 		}
779 
780 		if (PCIE_IS_RP(bus_p))
781 			kmem_free(PCIE_ADV_RP_REG(pfd_p),
782 			    sizeof (pf_pcie_adv_rp_err_regs_t));
783 		else if (PCIE_IS_PCIE_BDG(bus_p))
784 			kmem_free(PCIE_ADV_BDG_REG(pfd_p),
785 			    sizeof (pf_pcie_adv_bdg_err_regs_t));
786 
787 		kmem_free(PCIE_ADV_REG(pfd_p),
788 		    sizeof (pf_pcie_adv_err_regs_t));
789 
790 		if (PCIE_IS_RP(bus_p))
791 			kmem_free(PCIE_RP_REG(pfd_p),
792 			    sizeof (pf_pcie_rp_err_regs_t));
793 
794 		kmem_free(PCIE_ERR_REG(pfd_p), sizeof (pf_pcie_err_regs_t));
795 	} else if (PCIE_IS_PCIX(bus_p)) {
796 		if (PCIE_IS_BDG(bus_p)) {
797 			if (PCIX_ECC_VERSION_CHECK(bus_p)) {
798 				kmem_free(PCIX_BDG_ECC_REG(pfd_p, 0),
799 				    sizeof (pf_pcix_ecc_regs_t));
800 				kmem_free(PCIX_BDG_ECC_REG(pfd_p, 1),
801 				    sizeof (pf_pcix_ecc_regs_t));
802 			}
803 
804 			kmem_free(PCIX_BDG_ERR_REG(pfd_p),
805 			    sizeof (pf_pcix_bdg_err_regs_t));
806 		} else {
807 			if (PCIX_ECC_VERSION_CHECK(bus_p))
808 				kmem_free(PCIX_ECC_REG(pfd_p),
809 				    sizeof (pf_pcix_ecc_regs_t));
810 
811 			kmem_free(PCIX_ERR_REG(pfd_p),
812 			    sizeof (pf_pcix_err_regs_t));
813 		}
814 	}
815 
816 	if (PCIE_IS_BDG(bus_p))
817 		kmem_free(PCI_BDG_ERR_REG(pfd_p),
818 		    sizeof (pf_pci_bdg_err_regs_t));
819 
820 	kmem_free(PFD_AFFECTED_DEV(pfd_p), sizeof (pf_affected_dev_t));
821 	kmem_free(PCI_ERR_REG(pfd_p), sizeof (pf_pci_err_regs_t));
822 
823 	if (PCIE_IS_ROOT(bus_p)) {
824 		kmem_free(PCIE_ROOT_FAULT(pfd_p), sizeof (pf_root_fault_t));
825 		kmem_free(PCIE_ROOT_EH_SRC(pfd_p), sizeof (pf_root_eh_src_t));
826 	}
827 
828 	kmem_free(PCIE_DIP2PFD(dip), sizeof (pf_data_t));
829 
830 	PCIE_DIP2PFD(dip) = NULL;
831 }
832 
833 
834 /*
835  * Special functions to allocate pf_data_t's for PCIe root complexes.
836  * Note: Root Complex not Root Port
837  */
838 void
839 pcie_rc_init_pfd(dev_info_t *dip, pf_data_t *pfd_p)
840 {
841 	pfd_p->pe_bus_p = PCIE_DIP2DOWNBUS(dip);
842 	pfd_p->pe_severity_flags = 0;
843 	pfd_p->pe_orig_severity_flags = 0;
844 	pfd_p->pe_lock = B_FALSE;
845 	pfd_p->pe_valid = B_FALSE;
846 
847 	PCIE_ROOT_FAULT(pfd_p) = PCIE_ZALLOC(pf_root_fault_t);
848 	PCIE_ROOT_FAULT(pfd_p)->scan_bdf = PCIE_INVALID_BDF;
849 	PCIE_ROOT_EH_SRC(pfd_p) = PCIE_ZALLOC(pf_root_eh_src_t);
850 	PCI_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pci_err_regs_t);
851 	PFD_AFFECTED_DEV(pfd_p) = PCIE_ZALLOC(pf_affected_dev_t);
852 	PFD_AFFECTED_DEV(pfd_p)->pe_affected_bdf = PCIE_INVALID_BDF;
853 	PCI_BDG_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pci_bdg_err_regs_t);
854 	PCIE_ERR_REG(pfd_p) = PCIE_ZALLOC(pf_pcie_err_regs_t);
855 	PCIE_RP_REG(pfd_p) = PCIE_ZALLOC(pf_pcie_rp_err_regs_t);
856 	PCIE_ADV_REG(pfd_p) = PCIE_ZALLOC(pf_pcie_adv_err_regs_t);
857 	PCIE_ADV_RP_REG(pfd_p) = PCIE_ZALLOC(pf_pcie_adv_rp_err_regs_t);
858 	PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ce_src_id = PCIE_INVALID_BDF;
859 	PCIE_ADV_RP_REG(pfd_p)->pcie_rp_ue_src_id = PCIE_INVALID_BDF;
860 
861 	PCIE_ADV_REG(pfd_p)->pcie_ue_sev = pcie_aer_uce_severity;
862 }
863 
864 void
865 pcie_rc_fini_pfd(pf_data_t *pfd_p)
866 {
867 	kmem_free(PCIE_ADV_RP_REG(pfd_p), sizeof (pf_pcie_adv_rp_err_regs_t));
868 	kmem_free(PCIE_ADV_REG(pfd_p), sizeof (pf_pcie_adv_err_regs_t));
869 	kmem_free(PCIE_RP_REG(pfd_p), sizeof (pf_pcie_rp_err_regs_t));
870 	kmem_free(PCIE_ERR_REG(pfd_p), sizeof (pf_pcie_err_regs_t));
871 	kmem_free(PCI_BDG_ERR_REG(pfd_p), sizeof (pf_pci_bdg_err_regs_t));
872 	kmem_free(PFD_AFFECTED_DEV(pfd_p), sizeof (pf_affected_dev_t));
873 	kmem_free(PCI_ERR_REG(pfd_p), sizeof (pf_pci_err_regs_t));
874 	kmem_free(PCIE_ROOT_FAULT(pfd_p), sizeof (pf_root_fault_t));
875 	kmem_free(PCIE_ROOT_EH_SRC(pfd_p), sizeof (pf_root_eh_src_t));
876 }
877 
878 /*
879  * init pcie_bus_t for root complex
880  *
881  * Only a few of the fields in bus_t is valid for root complex.
882  * The fields that are bracketed are initialized in this routine:
883  *
884  * dev_info_t *		<bus_dip>
885  * dev_info_t *		bus_rp_dip
886  * ddi_acc_handle_t	bus_cfg_hdl
887  * uint_t		<bus_fm_flags>
888  * pcie_req_id_t	bus_bdf
889  * pcie_req_id_t	bus_rp_bdf
890  * uint32_t		bus_dev_ven_id
891  * uint8_t		bus_rev_id
892  * uint8_t		<bus_hdr_type>
893  * uint16_t		<bus_dev_type>
894  * uint8_t		bus_bdg_secbus
895  * uint16_t		bus_pcie_off
896  * uint16_t		<bus_aer_off>
897  * uint16_t		bus_pcix_off
898  * uint16_t		bus_ecc_ver
899  * pci_bus_range_t	bus_bus_range
900  * ppb_ranges_t	*	bus_addr_ranges
901  * int			bus_addr_entries
902  * pci_regspec_t *	bus_assigned_addr
903  * int			bus_assigned_entries
904  * pf_data_t *		bus_pfd
905  * pcie_domain_t *	<bus_dom>
906  * int			bus_mps
907  * uint64_t		bus_cfgacc_base
908  * void	*		bus_plat_private
909  */
910 void
911 pcie_rc_init_bus(dev_info_t *dip)
912 {
913 	pcie_bus_t *bus_p;
914 
915 	bus_p = (pcie_bus_t *)kmem_zalloc(sizeof (pcie_bus_t), KM_SLEEP);
916 	bus_p->bus_dip = dip;
917 	bus_p->bus_dev_type = PCIE_PCIECAP_DEV_TYPE_RC_PSEUDO;
918 	bus_p->bus_hdr_type = PCI_HEADER_ONE;
919 
920 	/* Fake that there are AER logs */
921 	bus_p->bus_aer_off = (uint16_t)-1;
922 
923 	/* Needed only for handle lookup */
924 	bus_p->bus_fm_flags |= PF_FM_READY;
925 
926 	ndi_set_bus_private(dip, B_FALSE, DEVI_PORT_TYPE_PCI, bus_p);
927 
928 	PCIE_BUS2DOM(bus_p) = PCIE_ZALLOC(pcie_domain_t);
929 }
930 
931 void
932 pcie_rc_fini_bus(dev_info_t *dip)
933 {
934 	pcie_bus_t *bus_p = PCIE_DIP2DOWNBUS(dip);
935 	ndi_set_bus_private(dip, B_FALSE, NULL, NULL);
936 	kmem_free(PCIE_BUS2DOM(bus_p), sizeof (pcie_domain_t));
937 	kmem_free(bus_p, sizeof (pcie_bus_t));
938 }
939 
940 /*
941  * partially init pcie_bus_t for device (dip,bdf) for accessing pci
942  * config space
943  *
944  * This routine is invoked during boot, either after creating a devinfo node
945  * (x86 case) or during px driver attach (sparc case); it is also invoked
946  * in hotplug context after a devinfo node is created.
947  *
948  * The fields that are bracketed are initialized if flag PCIE_BUS_INITIAL
949  * is set:
950  *
951  * dev_info_t *		<bus_dip>
952  * dev_info_t *		<bus_rp_dip>
953  * ddi_acc_handle_t	bus_cfg_hdl
954  * uint_t		bus_fm_flags
955  * pcie_req_id_t	<bus_bdf>
956  * pcie_req_id_t	<bus_rp_bdf>
957  * uint32_t		<bus_dev_ven_id>
958  * uint8_t		<bus_rev_id>
959  * uint8_t		<bus_hdr_type>
960  * uint16_t		<bus_dev_type>
961  * uint8_t		<bus_bdg_secbus
962  * uint16_t		<bus_pcie_off>
963  * uint16_t		<bus_aer_off>
964  * uint16_t		<bus_pcix_off>
965  * uint16_t		<bus_ecc_ver>
966  * pci_bus_range_t	bus_bus_range
967  * ppb_ranges_t	*	bus_addr_ranges
968  * int			bus_addr_entries
969  * pci_regspec_t *	bus_assigned_addr
970  * int			bus_assigned_entries
971  * pf_data_t *		bus_pfd
972  * pcie_domain_t *	bus_dom
973  * int			bus_mps
974  * uint64_t		bus_cfgacc_base
975  * void	*		bus_plat_private
976  *
977  * The fields that are bracketed are initialized if flag PCIE_BUS_FINAL
978  * is set:
979  *
980  * dev_info_t *		bus_dip
981  * dev_info_t *		bus_rp_dip
982  * ddi_acc_handle_t	bus_cfg_hdl
983  * uint_t		bus_fm_flags
984  * pcie_req_id_t	bus_bdf
985  * pcie_req_id_t	bus_rp_bdf
986  * uint32_t		bus_dev_ven_id
987  * uint8_t		bus_rev_id
988  * uint8_t		bus_hdr_type
989  * uint16_t		bus_dev_type
990  * uint8_t		<bus_bdg_secbus>
991  * uint16_t		bus_pcie_off
992  * uint16_t		bus_aer_off
993  * uint16_t		bus_pcix_off
994  * uint16_t		bus_ecc_ver
995  * pci_bus_range_t	<bus_bus_range>
996  * ppb_ranges_t	*	<bus_addr_ranges>
997  * int			<bus_addr_entries>
998  * pci_regspec_t *	<bus_assigned_addr>
999  * int			<bus_assigned_entries>
1000  * pf_data_t *		<bus_pfd>
1001  * pcie_domain_t *	bus_dom
1002  * int			bus_mps
1003  * uint64_t		bus_cfgacc_base
1004  * void	*		<bus_plat_private>
1005  */
1006 
1007 pcie_bus_t *
1008 pcie_init_bus(dev_info_t *dip, pcie_req_id_t bdf, uint8_t flags)
1009 {
1010 	uint16_t	status, base, baseptr, num_cap;
1011 	uint32_t	capid;
1012 	int		range_size;
1013 	pcie_bus_t	*bus_p;
1014 	dev_info_t	*rcdip;
1015 	dev_info_t	*pdip;
1016 	const char	*errstr = NULL;
1017 
1018 	if (!(flags & PCIE_BUS_INITIAL))
1019 		goto initial_done;
1020 
1021 	bus_p = kmem_zalloc(sizeof (pcie_bus_t), KM_SLEEP);
1022 
1023 	bus_p->bus_dip = dip;
1024 	bus_p->bus_bdf = bdf;
1025 
1026 	rcdip = pcie_get_rc_dip(dip);
1027 	ASSERT(rcdip != NULL);
1028 
1029 	/* Save the Vendor ID, Device ID and revision ID */
1030 	bus_p->bus_dev_ven_id = pci_cfgacc_get32(rcdip, bdf, PCI_CONF_VENID);
1031 	bus_p->bus_rev_id = pci_cfgacc_get8(rcdip, bdf, PCI_CONF_REVID);
1032 	/* Save the Header Type */
1033 	bus_p->bus_hdr_type = pci_cfgacc_get8(rcdip, bdf, PCI_CONF_HEADER);
1034 	bus_p->bus_hdr_type &= PCI_HEADER_TYPE_M;
1035 
1036 	/*
1037 	 * Figure out the device type and all the relavant capability offsets
1038 	 */
1039 	/* set default value */
1040 	bus_p->bus_dev_type = PCIE_PCIECAP_DEV_TYPE_PCI_PSEUDO;
1041 
1042 	status = pci_cfgacc_get16(rcdip, bdf, PCI_CONF_STAT);
1043 	if (status == PCI_CAP_EINVAL16 || !(status & PCI_STAT_CAP))
1044 		goto caps_done; /* capability not supported */
1045 
1046 	/* Relevant conventional capabilities first */
1047 
1048 	/* Conventional caps: PCI_CAP_ID_PCI_E, PCI_CAP_ID_PCIX */
1049 	num_cap = 2;
1050 
1051 	switch (bus_p->bus_hdr_type) {
1052 	case PCI_HEADER_ZERO:
1053 		baseptr = PCI_CONF_CAP_PTR;
1054 		break;
1055 	case PCI_HEADER_PPB:
1056 		baseptr = PCI_BCNF_CAP_PTR;
1057 		break;
1058 	case PCI_HEADER_CARDBUS:
1059 		baseptr = PCI_CBUS_CAP_PTR;
1060 		break;
1061 	default:
1062 		cmn_err(CE_WARN, "%s: unexpected pci header type:%x",
1063 		    __func__, bus_p->bus_hdr_type);
1064 		goto caps_done;
1065 	}
1066 
1067 	base = baseptr;
1068 	for (base = pci_cfgacc_get8(rcdip, bdf, base); base && num_cap;
1069 	    base = pci_cfgacc_get8(rcdip, bdf, base + PCI_CAP_NEXT_PTR)) {
1070 		capid = pci_cfgacc_get8(rcdip, bdf, base);
1071 		switch (capid) {
1072 		case PCI_CAP_ID_PCI_E:
1073 			bus_p->bus_pcie_off = base;
1074 			bus_p->bus_dev_type = pci_cfgacc_get16(rcdip, bdf,
1075 			    base + PCIE_PCIECAP) & PCIE_PCIECAP_DEV_TYPE_MASK;
1076 
1077 			/* Check and save PCIe hotplug capability information */
1078 			if ((PCIE_IS_RP(bus_p) || PCIE_IS_SWD(bus_p)) &&
1079 			    (pci_cfgacc_get16(rcdip, bdf, base + PCIE_PCIECAP)
1080 			    & PCIE_PCIECAP_SLOT_IMPL) &&
1081 			    (pci_cfgacc_get32(rcdip, bdf, base + PCIE_SLOTCAP)
1082 			    & PCIE_SLOTCAP_HP_CAPABLE))
1083 				bus_p->bus_hp_sup_modes |= PCIE_NATIVE_HP_MODE;
1084 
1085 			num_cap--;
1086 			break;
1087 		case PCI_CAP_ID_PCIX:
1088 			bus_p->bus_pcix_off = base;
1089 			if (PCIE_IS_BDG(bus_p))
1090 				bus_p->bus_ecc_ver =
1091 				    pci_cfgacc_get16(rcdip, bdf, base +
1092 				    PCI_PCIX_SEC_STATUS) & PCI_PCIX_VER_MASK;
1093 			else
1094 				bus_p->bus_ecc_ver =
1095 				    pci_cfgacc_get16(rcdip, bdf, base +
1096 				    PCI_PCIX_COMMAND) & PCI_PCIX_VER_MASK;
1097 			num_cap--;
1098 			break;
1099 		default:
1100 			break;
1101 		}
1102 	}
1103 
1104 	/* Check and save PCI hotplug (SHPC) capability information */
1105 	if (PCIE_IS_BDG(bus_p)) {
1106 		base = baseptr;
1107 		for (base = pci_cfgacc_get8(rcdip, bdf, base);
1108 		    base; base = pci_cfgacc_get8(rcdip, bdf,
1109 		    base + PCI_CAP_NEXT_PTR)) {
1110 			capid = pci_cfgacc_get8(rcdip, bdf, base);
1111 			if (capid == PCI_CAP_ID_PCI_HOTPLUG) {
1112 				bus_p->bus_pci_hp_off = base;
1113 				bus_p->bus_hp_sup_modes |= PCIE_PCI_HP_MODE;
1114 				break;
1115 			}
1116 		}
1117 	}
1118 
1119 	/* Then, relevant extended capabilities */
1120 
1121 	if (!PCIE_IS_PCIE(bus_p))
1122 		goto caps_done;
1123 
1124 	/* Extended caps: PCIE_EXT_CAP_ID_AER */
1125 	for (base = PCIE_EXT_CAP; base; base = (capid >>
1126 	    PCIE_EXT_CAP_NEXT_PTR_SHIFT) & PCIE_EXT_CAP_NEXT_PTR_MASK) {
1127 		capid = pci_cfgacc_get32(rcdip, bdf, base);
1128 		if (capid == PCI_CAP_EINVAL32)
1129 			break;
1130 		if (((capid >> PCIE_EXT_CAP_ID_SHIFT) & PCIE_EXT_CAP_ID_MASK)
1131 		    == PCIE_EXT_CAP_ID_AER) {
1132 			bus_p->bus_aer_off = base;
1133 			break;
1134 		}
1135 	}
1136 
1137 caps_done:
1138 	/* save RP dip and RP bdf */
1139 	if (PCIE_IS_RP(bus_p)) {
1140 		bus_p->bus_rp_dip = dip;
1141 		bus_p->bus_rp_bdf = bus_p->bus_bdf;
1142 	} else {
1143 		for (pdip = ddi_get_parent(dip); pdip;
1144 		    pdip = ddi_get_parent(pdip)) {
1145 			pcie_bus_t *parent_bus_p = PCIE_DIP2BUS(pdip);
1146 
1147 			/*
1148 			 * If RP dip and RP bdf in parent's bus_t have
1149 			 * been initialized, simply use these instead of
1150 			 * continuing up to the RC.
1151 			 */
1152 			if (parent_bus_p->bus_rp_dip != NULL) {
1153 				bus_p->bus_rp_dip = parent_bus_p->bus_rp_dip;
1154 				bus_p->bus_rp_bdf = parent_bus_p->bus_rp_bdf;
1155 				break;
1156 			}
1157 
1158 			/*
1159 			 * When debugging be aware that some NVIDIA x86
1160 			 * architectures have 2 nodes for each RP, One at Bus
1161 			 * 0x0 and one at Bus 0x80.  The requester is from Bus
1162 			 * 0x80
1163 			 */
1164 			if (PCIE_IS_ROOT(parent_bus_p)) {
1165 				bus_p->bus_rp_dip = pdip;
1166 				bus_p->bus_rp_bdf = parent_bus_p->bus_bdf;
1167 				break;
1168 			}
1169 		}
1170 	}
1171 
1172 	bus_p->bus_soft_state = PCI_SOFT_STATE_CLOSED;
1173 	bus_p->bus_fm_flags = 0;
1174 	bus_p->bus_mps = 0;
1175 
1176 	ndi_set_bus_private(dip, B_TRUE, DEVI_PORT_TYPE_PCI, (void *)bus_p);
1177 
1178 	if (PCIE_IS_HOTPLUG_CAPABLE(dip))
1179 		(void) ndi_prop_create_boolean(DDI_DEV_T_NONE, dip,
1180 		    "hotplug-capable");
1181 
1182 initial_done:
1183 	if (!(flags & PCIE_BUS_FINAL))
1184 		goto final_done;
1185 
1186 	/* already initialized? */
1187 	bus_p = PCIE_DIP2BUS(dip);
1188 
1189 	/* Save the Range information if device is a switch/bridge */
1190 	if (PCIE_IS_BDG(bus_p)) {
1191 		/* get "bus_range" property */
1192 		range_size = sizeof (pci_bus_range_t);
1193 		if (ddi_getlongprop_buf(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
1194 		    "bus-range", (caddr_t)&bus_p->bus_bus_range, &range_size)
1195 		    != DDI_PROP_SUCCESS) {
1196 			errstr = "Cannot find \"bus-range\" property";
1197 			cmn_err(CE_WARN,
1198 			    "PCIE init err info failed BDF 0x%x:%s\n",
1199 			    bus_p->bus_bdf, errstr);
1200 		}
1201 
1202 		/* get secondary bus number */
1203 		rcdip = pcie_get_rc_dip(dip);
1204 		ASSERT(rcdip != NULL);
1205 
1206 		bus_p->bus_bdg_secbus = pci_cfgacc_get8(rcdip,
1207 		    bus_p->bus_bdf, PCI_BCNF_SECBUS);
1208 
1209 		/* Get "ranges" property */
1210 		if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
1211 		    "ranges", (caddr_t)&bus_p->bus_addr_ranges,
1212 		    &bus_p->bus_addr_entries) != DDI_PROP_SUCCESS)
1213 			bus_p->bus_addr_entries = 0;
1214 		bus_p->bus_addr_entries /= sizeof (ppb_ranges_t);
1215 	}
1216 
1217 	/* save "assigned-addresses" property array, ignore failues */
1218 	if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
1219 	    "assigned-addresses", (caddr_t)&bus_p->bus_assigned_addr,
1220 	    &bus_p->bus_assigned_entries) == DDI_PROP_SUCCESS)
1221 		bus_p->bus_assigned_entries /= sizeof (pci_regspec_t);
1222 	else
1223 		bus_p->bus_assigned_entries = 0;
1224 
1225 	pcie_init_pfd(dip);
1226 
1227 	pcie_init_plat(dip);
1228 
1229 final_done:
1230 
1231 	PCIE_DBG("Add %s(dip 0x%p, bdf 0x%x, secbus 0x%x)\n",
1232 	    ddi_driver_name(dip), (void *)dip, bus_p->bus_bdf,
1233 	    bus_p->bus_bdg_secbus);
1234 #ifdef DEBUG
1235 	pcie_print_bus(bus_p);
1236 #endif
1237 
1238 	return (bus_p);
1239 }
1240 
1241 /*
1242  * Invoked before destroying devinfo node, mostly during hotplug
1243  * operation to free pcie_bus_t data structure
1244  */
1245 /* ARGSUSED */
1246 void
1247 pcie_fini_bus(dev_info_t *dip, uint8_t flags)
1248 {
1249 	pcie_bus_t *bus_p = PCIE_DIP2UPBUS(dip);
1250 	ASSERT(bus_p);
1251 
1252 	if (flags & PCIE_BUS_INITIAL) {
1253 		pcie_fini_plat(dip);
1254 		pcie_fini_pfd(dip);
1255 
1256 		kmem_free(bus_p->bus_assigned_addr,
1257 		    (sizeof (pci_regspec_t) * bus_p->bus_assigned_entries));
1258 		kmem_free(bus_p->bus_addr_ranges,
1259 		    (sizeof (ppb_ranges_t) * bus_p->bus_addr_entries));
1260 		/* zero out the fields that have been destroyed */
1261 		bus_p->bus_assigned_addr = NULL;
1262 		bus_p->bus_addr_ranges = NULL;
1263 		bus_p->bus_assigned_entries = 0;
1264 		bus_p->bus_addr_entries = 0;
1265 	}
1266 
1267 	if (flags & PCIE_BUS_FINAL) {
1268 		if (PCIE_IS_HOTPLUG_CAPABLE(dip)) {
1269 			(void) ndi_prop_remove(DDI_DEV_T_NONE, dip,
1270 			    "hotplug-capable");
1271 		}
1272 
1273 		ndi_set_bus_private(dip, B_TRUE, NULL, NULL);
1274 		kmem_free(bus_p, sizeof (pcie_bus_t));
1275 	}
1276 }
1277 
1278 int
1279 pcie_postattach_child(dev_info_t *cdip)
1280 {
1281 	pcie_bus_t *bus_p = PCIE_DIP2BUS(cdip);
1282 
1283 	if (!bus_p)
1284 		return (DDI_FAILURE);
1285 
1286 	return (pcie_enable_ce(cdip));
1287 }
1288 
1289 /*
1290  * PCI-Express child device de-initialization.
1291  * This function disables generic pci-express interrupts and error
1292  * handling.
1293  */
1294 void
1295 pcie_uninitchild(dev_info_t *cdip)
1296 {
1297 	pcie_disable_errors(cdip);
1298 	pcie_fini_cfghdl(cdip);
1299 	pcie_fini_dom(cdip);
1300 }
1301 
1302 /*
1303  * find the root complex dip
1304  */
1305 dev_info_t *
1306 pcie_get_rc_dip(dev_info_t *dip)
1307 {
1308 	dev_info_t *rcdip;
1309 	pcie_bus_t *rc_bus_p;
1310 
1311 	for (rcdip = ddi_get_parent(dip); rcdip;
1312 	    rcdip = ddi_get_parent(rcdip)) {
1313 		rc_bus_p = PCIE_DIP2BUS(rcdip);
1314 		if (rc_bus_p && PCIE_IS_RC(rc_bus_p))
1315 			break;
1316 	}
1317 
1318 	return (rcdip);
1319 }
1320 
1321 static boolean_t
1322 pcie_is_pci_device(dev_info_t *dip)
1323 {
1324 	dev_info_t	*pdip;
1325 	char		*device_type;
1326 
1327 	pdip = ddi_get_parent(dip);
1328 	ASSERT(pdip);
1329 
1330 	if (ddi_prop_lookup_string(DDI_DEV_T_ANY, pdip, DDI_PROP_DONTPASS,
1331 	    "device_type", &device_type) != DDI_PROP_SUCCESS)
1332 		return (B_FALSE);
1333 
1334 	if (strcmp(device_type, "pciex") != 0 &&
1335 	    strcmp(device_type, "pci") != 0) {
1336 		ddi_prop_free(device_type);
1337 		return (B_FALSE);
1338 	}
1339 
1340 	ddi_prop_free(device_type);
1341 	return (B_TRUE);
1342 }
1343 
1344 typedef struct {
1345 	boolean_t	init;
1346 	uint8_t		flags;
1347 } pcie_bus_arg_t;
1348 
1349 /*ARGSUSED*/
1350 static int
1351 pcie_fab_do_init_fini(dev_info_t *dip, void *arg)
1352 {
1353 	pcie_req_id_t	bdf;
1354 	pcie_bus_arg_t	*bus_arg = (pcie_bus_arg_t *)arg;
1355 
1356 	if (!pcie_is_pci_device(dip))
1357 		goto out;
1358 
1359 	if (bus_arg->init) {
1360 		if (pcie_get_bdf_from_dip(dip, &bdf) != DDI_SUCCESS)
1361 			goto out;
1362 
1363 		(void) pcie_init_bus(dip, bdf, bus_arg->flags);
1364 	} else {
1365 		(void) pcie_fini_bus(dip, bus_arg->flags);
1366 	}
1367 
1368 	return (DDI_WALK_CONTINUE);
1369 
1370 out:
1371 	return (DDI_WALK_PRUNECHILD);
1372 }
1373 
1374 void
1375 pcie_fab_init_bus(dev_info_t *rcdip, uint8_t flags)
1376 {
1377 	int		circular_count;
1378 	dev_info_t	*dip = ddi_get_child(rcdip);
1379 	pcie_bus_arg_t	arg;
1380 
1381 	arg.init = B_TRUE;
1382 	arg.flags = flags;
1383 
1384 	ndi_devi_enter(rcdip, &circular_count);
1385 	ddi_walk_devs(dip, pcie_fab_do_init_fini, &arg);
1386 	ndi_devi_exit(rcdip, circular_count);
1387 }
1388 
1389 void
1390 pcie_fab_fini_bus(dev_info_t *rcdip, uint8_t flags)
1391 {
1392 	int		circular_count;
1393 	dev_info_t	*dip = ddi_get_child(rcdip);
1394 	pcie_bus_arg_t	arg;
1395 
1396 	arg.init = B_FALSE;
1397 	arg.flags = flags;
1398 
1399 	ndi_devi_enter(rcdip, &circular_count);
1400 	ddi_walk_devs(dip, pcie_fab_do_init_fini, &arg);
1401 	ndi_devi_exit(rcdip, circular_count);
1402 }
1403 
1404 void
1405 pcie_enable_errors(dev_info_t *dip)
1406 {
1407 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
1408 	uint16_t	reg16, tmp16;
1409 	uint32_t	reg32, tmp32;
1410 
1411 	ASSERT(bus_p);
1412 
1413 	/*
1414 	 * Clear any pending errors
1415 	 */
1416 	pcie_clear_errors(dip);
1417 
1418 	if (!PCIE_IS_PCIE(bus_p))
1419 		return;
1420 
1421 	/*
1422 	 * Enable Baseline Error Handling but leave CE reporting off (poweron
1423 	 * default).
1424 	 */
1425 	if ((reg16 = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL)) !=
1426 	    PCI_CAP_EINVAL16) {
1427 		tmp16 = (reg16 & (PCIE_DEVCTL_MAX_READ_REQ_MASK |
1428 		    PCIE_DEVCTL_MAX_PAYLOAD_MASK)) |
1429 		    (pcie_devctl_default & ~(PCIE_DEVCTL_MAX_READ_REQ_MASK |
1430 		    PCIE_DEVCTL_MAX_PAYLOAD_MASK)) |
1431 		    (pcie_base_err_default & (~PCIE_DEVCTL_CE_REPORTING_EN));
1432 
1433 		PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL, tmp16);
1434 		PCIE_DBG_CAP(dip, bus_p, "DEVCTL", 16, PCIE_DEVCTL, reg16);
1435 	}
1436 
1437 	/* Enable Root Port Baseline Error Receiving */
1438 	if (PCIE_IS_ROOT(bus_p) &&
1439 	    (reg16 = PCIE_CAP_GET(16, bus_p, PCIE_ROOTCTL)) !=
1440 	    PCI_CAP_EINVAL16) {
1441 
1442 		tmp16 = pcie_serr_disable_flag ?
1443 		    (pcie_root_ctrl_default & ~PCIE_ROOT_SYS_ERR) :
1444 		    pcie_root_ctrl_default;
1445 		PCIE_CAP_PUT(16, bus_p, PCIE_ROOTCTL, tmp16);
1446 		PCIE_DBG_CAP(dip, bus_p, "ROOT DEVCTL", 16, PCIE_ROOTCTL,
1447 		    reg16);
1448 	}
1449 
1450 	/*
1451 	 * Enable PCI-Express Advanced Error Handling if Exists
1452 	 */
1453 	if (!PCIE_HAS_AER(bus_p))
1454 		return;
1455 
1456 	/* Set Uncorrectable Severity */
1457 	if ((reg32 = PCIE_AER_GET(32, bus_p, PCIE_AER_UCE_SERV)) !=
1458 	    PCI_CAP_EINVAL32) {
1459 		tmp32 = pcie_aer_uce_severity;
1460 
1461 		PCIE_AER_PUT(32, bus_p, PCIE_AER_UCE_SERV, tmp32);
1462 		PCIE_DBG_AER(dip, bus_p, "AER UCE SEV", 32, PCIE_AER_UCE_SERV,
1463 		    reg32);
1464 	}
1465 
1466 	/* Enable Uncorrectable errors */
1467 	if ((reg32 = PCIE_AER_GET(32, bus_p, PCIE_AER_UCE_MASK)) !=
1468 	    PCI_CAP_EINVAL32) {
1469 		tmp32 = pcie_aer_uce_mask;
1470 
1471 		PCIE_AER_PUT(32, bus_p, PCIE_AER_UCE_MASK, tmp32);
1472 		PCIE_DBG_AER(dip, bus_p, "AER UCE MASK", 32, PCIE_AER_UCE_MASK,
1473 		    reg32);
1474 	}
1475 
1476 	/* Enable ECRC generation and checking */
1477 	if ((reg32 = PCIE_AER_GET(32, bus_p, PCIE_AER_CTL)) !=
1478 	    PCI_CAP_EINVAL32) {
1479 		tmp32 = reg32 | pcie_ecrc_value;
1480 		PCIE_AER_PUT(32, bus_p, PCIE_AER_CTL, tmp32);
1481 		PCIE_DBG_AER(dip, bus_p, "AER CTL", 32, PCIE_AER_CTL, reg32);
1482 	}
1483 
1484 	/* Enable Secondary Uncorrectable errors if this is a bridge */
1485 	if (!PCIE_IS_PCIE_BDG(bus_p))
1486 		goto root;
1487 
1488 	/* Set Uncorrectable Severity */
1489 	if ((reg32 = PCIE_AER_GET(32, bus_p, PCIE_AER_SUCE_SERV)) !=
1490 	    PCI_CAP_EINVAL32) {
1491 		tmp32 = pcie_aer_suce_severity;
1492 
1493 		PCIE_AER_PUT(32, bus_p, PCIE_AER_SUCE_SERV, tmp32);
1494 		PCIE_DBG_AER(dip, bus_p, "AER SUCE SEV", 32, PCIE_AER_SUCE_SERV,
1495 		    reg32);
1496 	}
1497 
1498 	if ((reg32 = PCIE_AER_GET(32, bus_p, PCIE_AER_SUCE_MASK)) !=
1499 	    PCI_CAP_EINVAL32) {
1500 		PCIE_AER_PUT(32, bus_p, PCIE_AER_SUCE_MASK, pcie_aer_suce_mask);
1501 		PCIE_DBG_AER(dip, bus_p, "AER SUCE MASK", 32,
1502 		    PCIE_AER_SUCE_MASK, reg32);
1503 	}
1504 
1505 root:
1506 	/*
1507 	 * Enable Root Control this is a Root device
1508 	 */
1509 	if (!PCIE_IS_ROOT(bus_p))
1510 		return;
1511 
1512 	if ((reg16 = PCIE_AER_GET(16, bus_p, PCIE_AER_RE_CMD)) !=
1513 	    PCI_CAP_EINVAL16) {
1514 		PCIE_AER_PUT(16, bus_p, PCIE_AER_RE_CMD,
1515 		    pcie_root_error_cmd_default);
1516 		PCIE_DBG_AER(dip, bus_p, "AER Root Err Cmd", 16,
1517 		    PCIE_AER_RE_CMD, reg16);
1518 	}
1519 }
1520 
1521 /*
1522  * This function is used for enabling CE reporting and setting the AER CE mask.
1523  * When called from outside the pcie module it should always be preceded by
1524  * a call to pcie_enable_errors.
1525  */
1526 int
1527 pcie_enable_ce(dev_info_t *dip)
1528 {
1529 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
1530 	uint16_t	device_sts, device_ctl;
1531 	uint32_t	tmp_pcie_aer_ce_mask;
1532 
1533 	if (!PCIE_IS_PCIE(bus_p))
1534 		return (DDI_SUCCESS);
1535 
1536 	/*
1537 	 * The "pcie_ce_mask" property is used to control both the CE reporting
1538 	 * enable field in the device control register and the AER CE mask. We
1539 	 * leave CE reporting disabled if pcie_ce_mask is set to -1.
1540 	 */
1541 
1542 	tmp_pcie_aer_ce_mask = (uint32_t)ddi_prop_get_int(DDI_DEV_T_ANY, dip,
1543 	    DDI_PROP_DONTPASS, "pcie_ce_mask", pcie_aer_ce_mask);
1544 
1545 	if (tmp_pcie_aer_ce_mask == (uint32_t)-1) {
1546 		/*
1547 		 * Nothing to do since CE reporting has already been disabled.
1548 		 */
1549 		return (DDI_SUCCESS);
1550 	}
1551 
1552 	if (PCIE_HAS_AER(bus_p)) {
1553 		/* Enable AER CE */
1554 		PCIE_AER_PUT(32, bus_p, PCIE_AER_CE_MASK, tmp_pcie_aer_ce_mask);
1555 		PCIE_DBG_AER(dip, bus_p, "AER CE MASK", 32, PCIE_AER_CE_MASK,
1556 		    0);
1557 
1558 		/* Clear any pending AER CE errors */
1559 		PCIE_AER_PUT(32, bus_p, PCIE_AER_CE_STS, -1);
1560 	}
1561 
1562 	/* clear any pending CE errors */
1563 	if ((device_sts = PCIE_CAP_GET(16, bus_p, PCIE_DEVSTS)) !=
1564 	    PCI_CAP_EINVAL16)
1565 		PCIE_CAP_PUT(16, bus_p, PCIE_DEVSTS,
1566 		    device_sts & (~PCIE_DEVSTS_CE_DETECTED));
1567 
1568 	/* Enable CE reporting */
1569 	device_ctl = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL);
1570 	PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL,
1571 	    (device_ctl & (~PCIE_DEVCTL_ERR_MASK)) | pcie_base_err_default);
1572 	PCIE_DBG_CAP(dip, bus_p, "DEVCTL", 16, PCIE_DEVCTL, device_ctl);
1573 
1574 	return (DDI_SUCCESS);
1575 }
1576 
1577 /* ARGSUSED */
1578 void
1579 pcie_disable_errors(dev_info_t *dip)
1580 {
1581 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
1582 	uint16_t	device_ctl;
1583 	uint32_t	aer_reg;
1584 
1585 	if (!PCIE_IS_PCIE(bus_p))
1586 		return;
1587 
1588 	/*
1589 	 * Disable PCI-Express Baseline Error Handling
1590 	 */
1591 	device_ctl = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL);
1592 	device_ctl &= ~PCIE_DEVCTL_ERR_MASK;
1593 	PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL, device_ctl);
1594 
1595 	/*
1596 	 * Disable PCI-Express Advanced Error Handling if Exists
1597 	 */
1598 	if (!PCIE_HAS_AER(bus_p))
1599 		goto root;
1600 
1601 	/* Disable Uncorrectable errors */
1602 	PCIE_AER_PUT(32, bus_p, PCIE_AER_UCE_MASK, PCIE_AER_UCE_BITS);
1603 
1604 	/* Disable Correctable errors */
1605 	PCIE_AER_PUT(32, bus_p, PCIE_AER_CE_MASK, PCIE_AER_CE_BITS);
1606 
1607 	/* Disable ECRC generation and checking */
1608 	if ((aer_reg = PCIE_AER_GET(32, bus_p, PCIE_AER_CTL)) !=
1609 	    PCI_CAP_EINVAL32) {
1610 		aer_reg &= ~(PCIE_AER_CTL_ECRC_GEN_ENA |
1611 		    PCIE_AER_CTL_ECRC_CHECK_ENA);
1612 
1613 		PCIE_AER_PUT(32, bus_p, PCIE_AER_CTL, aer_reg);
1614 	}
1615 	/*
1616 	 * Disable Secondary Uncorrectable errors if this is a bridge
1617 	 */
1618 	if (!PCIE_IS_PCIE_BDG(bus_p))
1619 		goto root;
1620 
1621 	PCIE_AER_PUT(32, bus_p, PCIE_AER_SUCE_MASK, PCIE_AER_SUCE_BITS);
1622 
1623 root:
1624 	/*
1625 	 * disable Root Control this is a Root device
1626 	 */
1627 	if (!PCIE_IS_ROOT(bus_p))
1628 		return;
1629 
1630 	if (!pcie_serr_disable_flag) {
1631 		device_ctl = PCIE_CAP_GET(16, bus_p, PCIE_ROOTCTL);
1632 		device_ctl &= ~PCIE_ROOT_SYS_ERR;
1633 		PCIE_CAP_PUT(16, bus_p, PCIE_ROOTCTL, device_ctl);
1634 	}
1635 
1636 	if (!PCIE_HAS_AER(bus_p))
1637 		return;
1638 
1639 	if ((device_ctl = PCIE_CAP_GET(16, bus_p, PCIE_AER_RE_CMD)) !=
1640 	    PCI_CAP_EINVAL16) {
1641 		device_ctl &= ~pcie_root_error_cmd_default;
1642 		PCIE_CAP_PUT(16, bus_p, PCIE_AER_RE_CMD, device_ctl);
1643 	}
1644 }
1645 
1646 /*
1647  * Extract bdf from "reg" property.
1648  */
1649 int
1650 pcie_get_bdf_from_dip(dev_info_t *dip, pcie_req_id_t *bdf)
1651 {
1652 	pci_regspec_t	*regspec;
1653 	int		reglen;
1654 
1655 	if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
1656 	    "reg", (int **)&regspec, (uint_t *)&reglen) != DDI_SUCCESS)
1657 		return (DDI_FAILURE);
1658 
1659 	if (reglen < (sizeof (pci_regspec_t) / sizeof (int))) {
1660 		ddi_prop_free(regspec);
1661 		return (DDI_FAILURE);
1662 	}
1663 
1664 	/* Get phys_hi from first element.  All have same bdf. */
1665 	*bdf = (regspec->pci_phys_hi & (PCI_REG_BDFR_M ^ PCI_REG_REG_M)) >> 8;
1666 
1667 	ddi_prop_free(regspec);
1668 	return (DDI_SUCCESS);
1669 }
1670 
1671 dev_info_t *
1672 pcie_get_my_childs_dip(dev_info_t *dip, dev_info_t *rdip)
1673 {
1674 	dev_info_t *cdip = rdip;
1675 
1676 	for (; ddi_get_parent(cdip) != dip; cdip = ddi_get_parent(cdip))
1677 		;
1678 
1679 	return (cdip);
1680 }
1681 
1682 uint32_t
1683 pcie_get_bdf_for_dma_xfer(dev_info_t *dip, dev_info_t *rdip)
1684 {
1685 	dev_info_t *cdip;
1686 
1687 	/*
1688 	 * As part of the probing, the PCI fcode interpreter may setup a DMA
1689 	 * request if a given card has a fcode on it using dip and rdip of the
1690 	 * hotplug connector i.e, dip and rdip of px/pcieb driver. In this
1691 	 * case, return a invalid value for the bdf since we cannot get to the
1692 	 * bdf value of the actual device which will be initiating this DMA.
1693 	 */
1694 	if (rdip == dip)
1695 		return (PCIE_INVALID_BDF);
1696 
1697 	cdip = pcie_get_my_childs_dip(dip, rdip);
1698 
1699 	/*
1700 	 * For a given rdip, return the bdf value of dip's (px or pcieb)
1701 	 * immediate child or secondary bus-id if dip is a PCIe2PCI bridge.
1702 	 *
1703 	 * XXX - For now, return a invalid bdf value for all PCI and PCI-X
1704 	 * devices since this needs more work.
1705 	 */
1706 	return (PCI_GET_PCIE2PCI_SECBUS(cdip) ?
1707 	    PCIE_INVALID_BDF : PCI_GET_BDF(cdip));
1708 }
1709 
1710 uint32_t
1711 pcie_get_aer_uce_mask()
1712 {
1713 	return (pcie_aer_uce_mask);
1714 }
1715 uint32_t
1716 pcie_get_aer_ce_mask()
1717 {
1718 	return (pcie_aer_ce_mask);
1719 }
1720 uint32_t
1721 pcie_get_aer_suce_mask()
1722 {
1723 	return (pcie_aer_suce_mask);
1724 }
1725 uint32_t
1726 pcie_get_serr_mask()
1727 {
1728 	return (pcie_serr_disable_flag);
1729 }
1730 
1731 void
1732 pcie_set_aer_uce_mask(uint32_t mask)
1733 {
1734 	pcie_aer_uce_mask = mask;
1735 	if (mask & PCIE_AER_UCE_UR)
1736 		pcie_base_err_default &= ~PCIE_DEVCTL_UR_REPORTING_EN;
1737 	else
1738 		pcie_base_err_default |= PCIE_DEVCTL_UR_REPORTING_EN;
1739 
1740 	if (mask & PCIE_AER_UCE_ECRC)
1741 		pcie_ecrc_value = 0;
1742 }
1743 
1744 void
1745 pcie_set_aer_ce_mask(uint32_t mask)
1746 {
1747 	pcie_aer_ce_mask = mask;
1748 }
1749 void
1750 pcie_set_aer_suce_mask(uint32_t mask)
1751 {
1752 	pcie_aer_suce_mask = mask;
1753 }
1754 void
1755 pcie_set_serr_mask(uint32_t mask)
1756 {
1757 	pcie_serr_disable_flag = mask;
1758 }
1759 
1760 /*
1761  * Is the rdip a child of dip.	Used for checking certain CTLOPS from bubbling
1762  * up erronously.  Ex.	ISA ctlops to a PCI-PCI Bridge.
1763  */
1764 boolean_t
1765 pcie_is_child(dev_info_t *dip, dev_info_t *rdip)
1766 {
1767 	dev_info_t	*cdip = ddi_get_child(dip);
1768 	for (; cdip; cdip = ddi_get_next_sibling(cdip))
1769 		if (cdip == rdip)
1770 			break;
1771 	return (cdip != NULL);
1772 }
1773 
1774 boolean_t
1775 pcie_is_link_disabled(dev_info_t *dip)
1776 {
1777 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
1778 
1779 	if (PCIE_IS_PCIE(bus_p)) {
1780 		if (PCIE_CAP_GET(16, bus_p, PCIE_LINKCTL) &
1781 		    PCIE_LINKCTL_LINK_DISABLE)
1782 			return (B_TRUE);
1783 	}
1784 	return (B_FALSE);
1785 }
1786 
1787 /*
1788  * Initialize the MPS for a root port.
1789  *
1790  * dip - dip of root port device.
1791  */
1792 void
1793 pcie_init_root_port_mps(dev_info_t *dip)
1794 {
1795 	pcie_bus_t	*bus_p = PCIE_DIP2BUS(dip);
1796 	int rp_cap, max_supported = pcie_max_mps;
1797 
1798 	(void) pcie_get_fabric_mps(ddi_get_parent(dip),
1799 	    ddi_get_child(dip), &max_supported);
1800 
1801 	rp_cap = PCI_CAP_GET16(bus_p->bus_cfg_hdl, NULL,
1802 	    bus_p->bus_pcie_off, PCIE_DEVCAP) &
1803 	    PCIE_DEVCAP_MAX_PAYLOAD_MASK;
1804 
1805 	if (rp_cap < max_supported)
1806 		max_supported = rp_cap;
1807 
1808 	bus_p->bus_mps = max_supported;
1809 	(void) pcie_initchild_mps(dip);
1810 }
1811 
1812 /*
1813  * Initialize the Maximum Payload Size of a device.
1814  *
1815  * cdip - dip of device.
1816  *
1817  * returns - DDI_SUCCESS or DDI_FAILURE
1818  */
1819 int
1820 pcie_initchild_mps(dev_info_t *cdip)
1821 {
1822 	pcie_bus_t	*bus_p;
1823 	dev_info_t	*pdip = ddi_get_parent(cdip);
1824 	uint8_t		dev_type;
1825 
1826 	bus_p = PCIE_DIP2BUS(cdip);
1827 	if (bus_p == NULL) {
1828 		PCIE_DBG("%s: BUS not found.\n",
1829 		    ddi_driver_name(cdip));
1830 		return (DDI_FAILURE);
1831 	}
1832 
1833 	dev_type = bus_p->bus_dev_type;
1834 
1835 	/*
1836 	 * For ARI Devices, only function zero's MPS needs to be set.
1837 	 */
1838 	if ((dev_type == PCIE_PCIECAP_DEV_TYPE_PCIE_DEV) &&
1839 	    (pcie_ari_is_enabled(pdip) == PCIE_ARI_FORW_ENABLED)) {
1840 		pcie_req_id_t child_bdf;
1841 
1842 		if (pcie_get_bdf_from_dip(cdip, &child_bdf) == DDI_FAILURE)
1843 			return (DDI_FAILURE);
1844 		if ((child_bdf & PCIE_REQ_ID_ARI_FUNC_MASK) != 0)
1845 			return (DDI_SUCCESS);
1846 	}
1847 
1848 	if (PCIE_IS_PCIE(bus_p)) {
1849 		int suggested_mrrs, fabric_mps;
1850 		uint16_t device_mps, device_mps_cap, device_mrrs, dev_ctrl;
1851 
1852 		dev_ctrl = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL);
1853 		if ((fabric_mps = (PCIE_IS_RP(bus_p) ? bus_p :
1854 		    PCIE_DIP2BUS(pdip))->bus_mps) < 0) {
1855 			dev_ctrl = (dev_ctrl & ~(PCIE_DEVCTL_MAX_READ_REQ_MASK |
1856 			    PCIE_DEVCTL_MAX_PAYLOAD_MASK)) |
1857 			    (pcie_devctl_default &
1858 			    (PCIE_DEVCTL_MAX_READ_REQ_MASK |
1859 			    PCIE_DEVCTL_MAX_PAYLOAD_MASK));
1860 
1861 			PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL, dev_ctrl);
1862 			return (DDI_SUCCESS);
1863 		}
1864 
1865 		device_mps_cap = PCIE_CAP_GET(16, bus_p, PCIE_DEVCAP) &
1866 		    PCIE_DEVCAP_MAX_PAYLOAD_MASK;
1867 
1868 		device_mrrs = (dev_ctrl & PCIE_DEVCTL_MAX_READ_REQ_MASK) >>
1869 		    PCIE_DEVCTL_MAX_READ_REQ_SHIFT;
1870 
1871 		if (device_mps_cap < fabric_mps)
1872 			device_mrrs = device_mps = device_mps_cap;
1873 		else
1874 			device_mps = (uint16_t)fabric_mps;
1875 
1876 		suggested_mrrs = (uint32_t)ddi_prop_get_int(DDI_DEV_T_ANY,
1877 		    cdip, DDI_PROP_DONTPASS, "suggested-mrrs", device_mrrs);
1878 
1879 		if ((device_mps == fabric_mps) ||
1880 		    (suggested_mrrs < device_mrrs))
1881 			device_mrrs = (uint16_t)suggested_mrrs;
1882 
1883 		/*
1884 		 * Replace MPS and MRRS settings.
1885 		 */
1886 		dev_ctrl &= ~(PCIE_DEVCTL_MAX_READ_REQ_MASK |
1887 		    PCIE_DEVCTL_MAX_PAYLOAD_MASK);
1888 
1889 		dev_ctrl |= ((device_mrrs << PCIE_DEVCTL_MAX_READ_REQ_SHIFT) |
1890 		    device_mps << PCIE_DEVCTL_MAX_PAYLOAD_SHIFT);
1891 
1892 		PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL, dev_ctrl);
1893 
1894 		bus_p->bus_mps = device_mps;
1895 	}
1896 
1897 	return (DDI_SUCCESS);
1898 }
1899 
1900 /*
1901  * Scans a device tree/branch for a maximum payload size capabilities.
1902  *
1903  * rc_dip - dip of Root Complex.
1904  * dip - dip of device where scan will begin.
1905  * max_supported (IN) - maximum allowable MPS.
1906  * max_supported (OUT) - maximum payload size capability of fabric.
1907  */
1908 void
1909 pcie_get_fabric_mps(dev_info_t *rc_dip, dev_info_t *dip, int *max_supported)
1910 {
1911 	if (dip == NULL)
1912 		return;
1913 
1914 	/*
1915 	 * Perform a fabric scan to obtain Maximum Payload Capabilities
1916 	 */
1917 	(void) pcie_scan_mps(rc_dip, dip, max_supported);
1918 
1919 	PCIE_DBG("MPS: Highest Common MPS= %x\n", max_supported);
1920 }
1921 
1922 /*
1923  * Scans fabric and determines Maximum Payload Size based on
1924  * highest common denominator alogorithm
1925  */
1926 static void
1927 pcie_scan_mps(dev_info_t *rc_dip, dev_info_t *dip, int *max_supported)
1928 {
1929 	int circular_count;
1930 	pcie_max_supported_t max_pay_load_supported;
1931 
1932 	max_pay_load_supported.dip = rc_dip;
1933 	max_pay_load_supported.highest_common_mps = *max_supported;
1934 
1935 	ndi_devi_enter(ddi_get_parent(dip), &circular_count);
1936 	ddi_walk_devs(dip, pcie_get_max_supported,
1937 	    (void *)&max_pay_load_supported);
1938 	ndi_devi_exit(ddi_get_parent(dip), circular_count);
1939 
1940 	*max_supported = max_pay_load_supported.highest_common_mps;
1941 }
1942 
1943 /*
1944  * Called as part of the Maximum Payload Size scan.
1945  */
1946 static int
1947 pcie_get_max_supported(dev_info_t *dip, void *arg)
1948 {
1949 	uint32_t max_supported;
1950 	uint16_t cap_ptr;
1951 	pcie_max_supported_t *current = (pcie_max_supported_t *)arg;
1952 	pci_regspec_t *reg;
1953 	int rlen;
1954 	caddr_t virt;
1955 	ddi_acc_handle_t config_handle;
1956 
1957 	if (ddi_get_child(current->dip) == NULL) {
1958 		goto fail1;
1959 	}
1960 
1961 	if (pcie_dev(dip) == DDI_FAILURE) {
1962 		PCIE_DBG("MPS: pcie_get_max_supported: %s:  "
1963 		    "Not a PCIe dev\n", ddi_driver_name(dip));
1964 		goto fail1;
1965 	}
1966 
1967 	/*
1968 	 * If the suggested-mrrs property exists, then don't include this
1969 	 * device in the MPS capabilities scan.
1970 	 */
1971 	if (ddi_prop_exists(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
1972 	    "suggested-mrrs") != 0)
1973 		goto fail1;
1974 
1975 	if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "reg",
1976 	    (caddr_t)&reg, &rlen) != DDI_PROP_SUCCESS) {
1977 		PCIE_DBG("MPS: pcie_get_max_supported: %s:  "
1978 		    "Can not read reg\n", ddi_driver_name(dip));
1979 		goto fail1;
1980 	}
1981 
1982 	if (pcie_map_phys(ddi_get_child(current->dip), reg, &virt,
1983 	    &config_handle) != DDI_SUCCESS) {
1984 		PCIE_DBG("MPS: pcie_get_max_supported: %s:  pcie_map_phys "
1985 		    "failed\n", ddi_driver_name(dip));
1986 		goto fail2;
1987 	}
1988 
1989 	if ((PCI_CAP_LOCATE(config_handle, PCI_CAP_ID_PCI_E, &cap_ptr)) ==
1990 	    DDI_FAILURE) {
1991 		goto fail3;
1992 	}
1993 
1994 	max_supported = PCI_CAP_GET16(config_handle, NULL, cap_ptr,
1995 	    PCIE_DEVCAP) & PCIE_DEVCAP_MAX_PAYLOAD_MASK;
1996 
1997 	PCIE_DBG("PCIE MPS: %s: MPS Capabilities %x\n", ddi_driver_name(dip),
1998 	    max_supported);
1999 
2000 	if (max_supported < current->highest_common_mps)
2001 		current->highest_common_mps = max_supported;
2002 
2003 fail3:
2004 	pcie_unmap_phys(&config_handle, reg);
2005 fail2:
2006 	kmem_free(reg, rlen);
2007 fail1:
2008 	return (DDI_WALK_CONTINUE);
2009 }
2010 
2011 /*
2012  * Determines if there are any root ports attached to a root complex.
2013  *
2014  * dip - dip of root complex
2015  *
2016  * Returns - DDI_SUCCESS if there is at least one root port otherwise
2017  *	     DDI_FAILURE.
2018  */
2019 int
2020 pcie_root_port(dev_info_t *dip)
2021 {
2022 	int port_type;
2023 	uint16_t cap_ptr;
2024 	ddi_acc_handle_t config_handle;
2025 	dev_info_t *cdip = ddi_get_child(dip);
2026 
2027 	/*
2028 	 * Determine if any of the children of the passed in dip
2029 	 * are root ports.
2030 	 */
2031 	for (; cdip; cdip = ddi_get_next_sibling(cdip)) {
2032 
2033 		if (pci_config_setup(cdip, &config_handle) != DDI_SUCCESS)
2034 			continue;
2035 
2036 		if ((PCI_CAP_LOCATE(config_handle, PCI_CAP_ID_PCI_E,
2037 		    &cap_ptr)) == DDI_FAILURE) {
2038 			pci_config_teardown(&config_handle);
2039 			continue;
2040 		}
2041 
2042 		port_type = PCI_CAP_GET16(config_handle, NULL, cap_ptr,
2043 		    PCIE_PCIECAP) & PCIE_PCIECAP_DEV_TYPE_MASK;
2044 
2045 		pci_config_teardown(&config_handle);
2046 
2047 		if (port_type == PCIE_PCIECAP_DEV_TYPE_ROOT)
2048 			return (DDI_SUCCESS);
2049 	}
2050 
2051 	/* No root ports were found */
2052 
2053 	return (DDI_FAILURE);
2054 }
2055 
2056 /*
2057  * Function that determines if a device a PCIe device.
2058  *
2059  * dip - dip of device.
2060  *
2061  * returns - DDI_SUCCESS if device is a PCIe device, otherwise DDI_FAILURE.
2062  */
2063 int
2064 pcie_dev(dev_info_t *dip)
2065 {
2066 	/* get parent device's device_type property */
2067 	char *device_type;
2068 	int rc = DDI_FAILURE;
2069 	dev_info_t *pdip = ddi_get_parent(dip);
2070 
2071 	if (ddi_prop_lookup_string(DDI_DEV_T_ANY, pdip,
2072 	    DDI_PROP_DONTPASS, "device_type", &device_type)
2073 	    != DDI_PROP_SUCCESS) {
2074 		return (DDI_FAILURE);
2075 	}
2076 
2077 	if (strcmp(device_type, "pciex") == 0)
2078 		rc = DDI_SUCCESS;
2079 	else
2080 		rc = DDI_FAILURE;
2081 
2082 	ddi_prop_free(device_type);
2083 	return (rc);
2084 }
2085 
2086 /*
2087  * Function to map in a device's memory space.
2088  */
2089 static int
2090 pcie_map_phys(dev_info_t *dip, pci_regspec_t *phys_spec,
2091     caddr_t *addrp, ddi_acc_handle_t *handlep)
2092 {
2093 	ddi_map_req_t mr;
2094 	ddi_acc_hdl_t *hp;
2095 	int result;
2096 	ddi_device_acc_attr_t attr;
2097 
2098 	attr.devacc_attr_version = DDI_DEVICE_ATTR_V0;
2099 	attr.devacc_attr_endian_flags = DDI_STRUCTURE_LE_ACC;
2100 	attr.devacc_attr_dataorder = DDI_STRICTORDER_ACC;
2101 	attr.devacc_attr_access = DDI_CAUTIOUS_ACC;
2102 
2103 	*handlep = impl_acc_hdl_alloc(KM_SLEEP, NULL);
2104 	hp = impl_acc_hdl_get(*handlep);
2105 	hp->ah_vers = VERS_ACCHDL;
2106 	hp->ah_dip = dip;
2107 	hp->ah_rnumber = 0;
2108 	hp->ah_offset = 0;
2109 	hp->ah_len = 0;
2110 	hp->ah_acc = attr;
2111 
2112 	mr.map_op = DDI_MO_MAP_LOCKED;
2113 	mr.map_type = DDI_MT_REGSPEC;
2114 	mr.map_obj.rp = (struct regspec *)phys_spec;
2115 	mr.map_prot = PROT_READ | PROT_WRITE;
2116 	mr.map_flags = DDI_MF_KERNEL_MAPPING;
2117 	mr.map_handlep = hp;
2118 	mr.map_vers = DDI_MAP_VERSION;
2119 
2120 	result = ddi_map(dip, &mr, 0, 0, addrp);
2121 
2122 	if (result != DDI_SUCCESS) {
2123 		impl_acc_hdl_free(*handlep);
2124 		*handlep = (ddi_acc_handle_t)NULL;
2125 	} else {
2126 		hp->ah_addr = *addrp;
2127 	}
2128 
2129 	return (result);
2130 }
2131 
2132 /*
2133  * Map out memory that was mapped in with pcie_map_phys();
2134  */
2135 static void
2136 pcie_unmap_phys(ddi_acc_handle_t *handlep,  pci_regspec_t *ph)
2137 {
2138 	ddi_map_req_t mr;
2139 	ddi_acc_hdl_t *hp;
2140 
2141 	hp = impl_acc_hdl_get(*handlep);
2142 	ASSERT(hp);
2143 
2144 	mr.map_op = DDI_MO_UNMAP;
2145 	mr.map_type = DDI_MT_REGSPEC;
2146 	mr.map_obj.rp = (struct regspec *)ph;
2147 	mr.map_prot = PROT_READ | PROT_WRITE;
2148 	mr.map_flags = DDI_MF_KERNEL_MAPPING;
2149 	mr.map_handlep = hp;
2150 	mr.map_vers = DDI_MAP_VERSION;
2151 
2152 	(void) ddi_map(hp->ah_dip, &mr, hp->ah_offset,
2153 	    hp->ah_len, &hp->ah_addr);
2154 
2155 	impl_acc_hdl_free(*handlep);
2156 	*handlep = (ddi_acc_handle_t)NULL;
2157 }
2158 
2159 void
2160 pcie_set_rber_fatal(dev_info_t *dip, boolean_t val)
2161 {
2162 	pcie_bus_t *bus_p = PCIE_DIP2UPBUS(dip);
2163 	bus_p->bus_pfd->pe_rber_fatal = val;
2164 }
2165 
2166 /*
2167  * Return parent Root Port's pe_rber_fatal value.
2168  */
2169 boolean_t
2170 pcie_get_rber_fatal(dev_info_t *dip)
2171 {
2172 	pcie_bus_t *bus_p = PCIE_DIP2UPBUS(dip);
2173 	pcie_bus_t *rp_bus_p = PCIE_DIP2UPBUS(bus_p->bus_rp_dip);
2174 	return (rp_bus_p->bus_pfd->pe_rber_fatal);
2175 }
2176 
2177 int
2178 pcie_ari_supported(dev_info_t *dip)
2179 {
2180 	uint32_t devcap2;
2181 	uint16_t pciecap;
2182 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
2183 	uint8_t dev_type;
2184 
2185 	PCIE_DBG("pcie_ari_supported: dip=%p\n", dip);
2186 
2187 	if (bus_p == NULL)
2188 		return (PCIE_ARI_FORW_NOT_SUPPORTED);
2189 
2190 	dev_type = bus_p->bus_dev_type;
2191 
2192 	if ((dev_type != PCIE_PCIECAP_DEV_TYPE_DOWN) &&
2193 	    (dev_type != PCIE_PCIECAP_DEV_TYPE_ROOT))
2194 		return (PCIE_ARI_FORW_NOT_SUPPORTED);
2195 
2196 	if (pcie_disable_ari) {
2197 		PCIE_DBG("pcie_ari_supported: dip=%p: ARI Disabled\n", dip);
2198 		return (PCIE_ARI_FORW_NOT_SUPPORTED);
2199 	}
2200 
2201 	pciecap = PCIE_CAP_GET(16, bus_p, PCIE_PCIECAP);
2202 
2203 	if ((pciecap & PCIE_PCIECAP_VER_MASK) < PCIE_PCIECAP_VER_2_0) {
2204 		PCIE_DBG("pcie_ari_supported: dip=%p: Not 2.0\n", dip);
2205 		return (PCIE_ARI_FORW_NOT_SUPPORTED);
2206 	}
2207 
2208 	devcap2 = PCIE_CAP_GET(32, bus_p, PCIE_DEVCAP2);
2209 
2210 	PCIE_DBG("pcie_ari_supported: dip=%p: DevCap2=0x%x\n",
2211 	    dip, devcap2);
2212 
2213 	if (devcap2 & PCIE_DEVCAP2_ARI_FORWARD) {
2214 		PCIE_DBG("pcie_ari_supported: "
2215 		    "dip=%p: ARI Forwarding is supported\n", dip);
2216 		return (PCIE_ARI_FORW_SUPPORTED);
2217 	}
2218 	return (PCIE_ARI_FORW_NOT_SUPPORTED);
2219 }
2220 
2221 int
2222 pcie_ari_enable(dev_info_t *dip)
2223 {
2224 	uint16_t devctl2;
2225 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
2226 
2227 	PCIE_DBG("pcie_ari_enable: dip=%p\n", dip);
2228 
2229 	if (pcie_ari_supported(dip) == PCIE_ARI_FORW_NOT_SUPPORTED)
2230 		return (DDI_FAILURE);
2231 
2232 	devctl2 = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL2);
2233 	devctl2 |= PCIE_DEVCTL2_ARI_FORWARD_EN;
2234 	PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL2, devctl2);
2235 
2236 	PCIE_DBG("pcie_ari_enable: dip=%p: writing 0x%x to DevCtl2\n",
2237 	    dip, devctl2);
2238 
2239 	return (DDI_SUCCESS);
2240 }
2241 
2242 int
2243 pcie_ari_disable(dev_info_t *dip)
2244 {
2245 	uint16_t devctl2;
2246 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
2247 
2248 	PCIE_DBG("pcie_ari_disable: dip=%p\n", dip);
2249 
2250 	if (pcie_ari_supported(dip) == PCIE_ARI_FORW_NOT_SUPPORTED)
2251 		return (DDI_FAILURE);
2252 
2253 	devctl2 = PCIE_CAP_GET(16, bus_p, PCIE_DEVCTL2);
2254 	devctl2 &= ~PCIE_DEVCTL2_ARI_FORWARD_EN;
2255 	PCIE_CAP_PUT(16, bus_p, PCIE_DEVCTL2, devctl2);
2256 
2257 	PCIE_DBG("pcie_ari_disable: dip=%p: writing 0x%x to DevCtl2\n",
2258 	    dip, devctl2);
2259 
2260 	return (DDI_SUCCESS);
2261 }
2262 
2263 int
2264 pcie_ari_is_enabled(dev_info_t *dip)
2265 {
2266 	uint16_t devctl2;
2267 	pcie_bus_t *bus_p = PCIE_DIP2BUS(dip);
2268 
2269 	PCIE_DBG("pcie_ari_is_enabled: dip=%p\n", dip);
2270 
2271 	if (pcie_ari_supported(dip) == PCIE_ARI_FORW_NOT_SUPPORTED)
2272 		return (PCIE_ARI_FORW_DISABLED);
2273 
2274 	devctl2 = PCIE_CAP_GET(32, bus_p, PCIE_DEVCTL2);
2275 
2276 	PCIE_DBG("pcie_ari_is_enabled: dip=%p: DevCtl2=0x%x\n",
2277 	    dip, devctl2);
2278 
2279 	if (devctl2 & PCIE_DEVCTL2_ARI_FORWARD_EN) {
2280 		PCIE_DBG("pcie_ari_is_enabled: "
2281 		    "dip=%p: ARI Forwarding is enabled\n", dip);
2282 		return (PCIE_ARI_FORW_ENABLED);
2283 	}
2284 
2285 	return (PCIE_ARI_FORW_DISABLED);
2286 }
2287 
2288 int
2289 pcie_ari_device(dev_info_t *dip)
2290 {
2291 	ddi_acc_handle_t handle;
2292 	uint16_t cap_ptr;
2293 
2294 	PCIE_DBG("pcie_ari_device: dip=%p\n", dip);
2295 
2296 	/*
2297 	 * XXX - This function may be called before the bus_p structure
2298 	 * has been populated.  This code can be changed to remove
2299 	 * pci_config_setup()/pci_config_teardown() when the RFE
2300 	 * to populate the bus_p structures early in boot is putback.
2301 	 */
2302 
2303 	/* First make sure it is a PCIe device */
2304 
2305 	if (pci_config_setup(dip, &handle) != DDI_SUCCESS)
2306 		return (PCIE_NOT_ARI_DEVICE);
2307 
2308 	if ((PCI_CAP_LOCATE(handle, PCI_CAP_ID_PCI_E, &cap_ptr))
2309 	    != DDI_SUCCESS) {
2310 		pci_config_teardown(&handle);
2311 		return (PCIE_NOT_ARI_DEVICE);
2312 	}
2313 
2314 	/* Locate the ARI Capability */
2315 
2316 	if ((PCI_CAP_LOCATE(handle, PCI_CAP_XCFG_SPC(PCIE_EXT_CAP_ID_ARI),
2317 	    &cap_ptr)) == DDI_FAILURE) {
2318 		pci_config_teardown(&handle);
2319 		return (PCIE_NOT_ARI_DEVICE);
2320 	}
2321 
2322 	/* ARI Capability was found so it must be a ARI device */
2323 	PCIE_DBG("pcie_ari_device: ARI Device dip=%p\n", dip);
2324 
2325 	pci_config_teardown(&handle);
2326 	return (PCIE_ARI_DEVICE);
2327 }
2328 
2329 int
2330 pcie_ari_get_next_function(dev_info_t *dip, int *func)
2331 {
2332 	uint32_t val;
2333 	uint16_t cap_ptr, next_function;
2334 	ddi_acc_handle_t handle;
2335 
2336 	/*
2337 	 * XXX - This function may be called before the bus_p structure
2338 	 * has been populated.  This code can be changed to remove
2339 	 * pci_config_setup()/pci_config_teardown() when the RFE
2340 	 * to populate the bus_p structures early in boot is putback.
2341 	 */
2342 
2343 	if (pci_config_setup(dip, &handle) != DDI_SUCCESS)
2344 		return (DDI_FAILURE);
2345 
2346 	if ((PCI_CAP_LOCATE(handle,
2347 	    PCI_CAP_XCFG_SPC(PCIE_EXT_CAP_ID_ARI), &cap_ptr)) == DDI_FAILURE) {
2348 		pci_config_teardown(&handle);
2349 		return (DDI_FAILURE);
2350 	}
2351 
2352 	val = PCI_CAP_GET32(handle, NULL, cap_ptr, PCIE_ARI_CAP);
2353 
2354 	next_function = (val >> PCIE_ARI_CAP_NEXT_FUNC_SHIFT) &
2355 	    PCIE_ARI_CAP_NEXT_FUNC_MASK;
2356 
2357 	pci_config_teardown(&handle);
2358 
2359 	*func = next_function;
2360 
2361 	return (DDI_SUCCESS);
2362 }
2363 
2364 dev_info_t *
2365 pcie_func_to_dip(dev_info_t *dip, pcie_req_id_t function)
2366 {
2367 	pcie_req_id_t child_bdf;
2368 	dev_info_t *cdip;
2369 
2370 	for (cdip = ddi_get_child(dip); cdip;
2371 	    cdip = ddi_get_next_sibling(cdip)) {
2372 
2373 		if (pcie_get_bdf_from_dip(cdip, &child_bdf) == DDI_FAILURE)
2374 			return (NULL);
2375 
2376 		if ((child_bdf & PCIE_REQ_ID_ARI_FUNC_MASK) == function)
2377 			return (cdip);
2378 	}
2379 	return (NULL);
2380 }
2381 
2382 #ifdef	DEBUG
2383 
2384 static void
2385 pcie_print_bus(pcie_bus_t *bus_p)
2386 {
2387 	pcie_dbg("\tbus_dip = 0x%p\n", bus_p->bus_dip);
2388 	pcie_dbg("\tbus_fm_flags = 0x%x\n", bus_p->bus_fm_flags);
2389 
2390 	pcie_dbg("\tbus_bdf = 0x%x\n", bus_p->bus_bdf);
2391 	pcie_dbg("\tbus_dev_ven_id = 0x%x\n", bus_p->bus_dev_ven_id);
2392 	pcie_dbg("\tbus_rev_id = 0x%x\n", bus_p->bus_rev_id);
2393 	pcie_dbg("\tbus_hdr_type = 0x%x\n", bus_p->bus_hdr_type);
2394 	pcie_dbg("\tbus_dev_type = 0x%x\n", bus_p->bus_dev_type);
2395 	pcie_dbg("\tbus_bdg_secbus = 0x%x\n", bus_p->bus_bdg_secbus);
2396 	pcie_dbg("\tbus_pcie_off = 0x%x\n", bus_p->bus_pcie_off);
2397 	pcie_dbg("\tbus_aer_off = 0x%x\n", bus_p->bus_aer_off);
2398 	pcie_dbg("\tbus_pcix_off = 0x%x\n", bus_p->bus_pcix_off);
2399 	pcie_dbg("\tbus_ecc_ver = 0x%x\n", bus_p->bus_ecc_ver);
2400 }
2401 
2402 /*
2403  * For debugging purposes set pcie_dbg_print != 0 to see printf messages
2404  * during interrupt.
2405  *
2406  * When a proper solution is in place this code will disappear.
2407  * Potential solutions are:
2408  * o circular buffers
2409  * o taskq to print at lower pil
2410  */
2411 int pcie_dbg_print = 0;
2412 void
2413 pcie_dbg(char *fmt, ...)
2414 {
2415 	va_list ap;
2416 
2417 	if (!pcie_debug_flags) {
2418 		return;
2419 	}
2420 	va_start(ap, fmt);
2421 	if (servicing_interrupt()) {
2422 		if (pcie_dbg_print) {
2423 			prom_vprintf(fmt, ap);
2424 		}
2425 	} else {
2426 		prom_vprintf(fmt, ap);
2427 	}
2428 	va_end(ap);
2429 }
2430 #endif	/* DEBUG */
2431 
2432 #if defined(__i386) || defined(__amd64)
2433 static void
2434 pcie_check_io_mem_range(ddi_acc_handle_t cfg_hdl, boolean_t *empty_io_range,
2435     boolean_t *empty_mem_range)
2436 {
2437 	uint8_t	class, subclass;
2438 	uint_t	val;
2439 
2440 	class = pci_config_get8(cfg_hdl, PCI_CONF_BASCLASS);
2441 	subclass = pci_config_get8(cfg_hdl, PCI_CONF_SUBCLASS);
2442 
2443 	if ((class == PCI_CLASS_BRIDGE) && (subclass == PCI_BRIDGE_PCI)) {
2444 		val = (((uint_t)pci_config_get8(cfg_hdl, PCI_BCNF_IO_BASE_LOW) &
2445 		    PCI_BCNF_IO_MASK) << 8);
2446 		/*
2447 		 * Assuming that a zero based io_range[0] implies an
2448 		 * invalid I/O range.  Likewise for mem_range[0].
2449 		 */
2450 		if (val == 0)
2451 			*empty_io_range = B_TRUE;
2452 		val = (((uint_t)pci_config_get16(cfg_hdl, PCI_BCNF_MEM_BASE) &
2453 		    PCI_BCNF_MEM_MASK) << 16);
2454 		if (val == 0)
2455 			*empty_mem_range = B_TRUE;
2456 	}
2457 }
2458 
2459 #endif /* defined(__i386) || defined(__amd64) */
2460