xref: /titanic_50/usr/src/uts/i86pc/io/pci/pci_common.c (revision efd4c9b63ad77503c101fc6c2ed8ba96c9d52964)
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  */
25 
26 /*
27  *	File that has code which is common between pci(7d) and npe(7d)
28  *	It shares the following:
29  *	- interrupt code
30  *	- pci_tools ioctl code
31  *	- name_child code
32  *	- set_parent_private_data code
33  */
34 
35 #include <sys/conf.h>
36 #include <sys/pci.h>
37 #include <sys/sunndi.h>
38 #include <sys/mach_intr.h>
39 #include <sys/pci_intr_lib.h>
40 #include <sys/psm.h>
41 #include <sys/policy.h>
42 #include <sys/sysmacros.h>
43 #include <sys/clock.h>
44 #include <sys/apic.h>
45 #include <sys/pci_tools.h>
46 #include <io/pci/pci_var.h>
47 #include <io/pci/pci_tools_ext.h>
48 #include <io/pci/pci_common.h>
49 #include <sys/pci_cfgspace.h>
50 #include <sys/pci_impl.h>
51 #include <sys/pci_cap.h>
52 
53 /*
54  * Function prototypes
55  */
56 static int	pci_get_priority(dev_info_t *, ddi_intr_handle_impl_t *, int *);
57 static int	pci_enable_intr(dev_info_t *, dev_info_t *,
58 		    ddi_intr_handle_impl_t *, uint32_t);
59 static void	pci_disable_intr(dev_info_t *, dev_info_t *,
60 		    ddi_intr_handle_impl_t *, uint32_t);
61 static int	pci_alloc_intr_fixed(dev_info_t *, dev_info_t *,
62 		    ddi_intr_handle_impl_t *, void *);
63 static int	pci_free_intr_fixed(dev_info_t *, dev_info_t *,
64 		    ddi_intr_handle_impl_t *);
65 
66 /* Extern declarations for PSM module */
67 extern int	(*psm_intr_ops)(dev_info_t *, ddi_intr_handle_impl_t *,
68 		    psm_intr_op_t, int *);
69 extern ddi_irm_pool_t *apix_irm_pool_p;
70 
71 /*
72  * pci_name_child:
73  *
74  *	Assign the address portion of the node name
75  */
76 int
77 pci_common_name_child(dev_info_t *child, char *name, int namelen)
78 {
79 	int		dev, func, length;
80 	char		**unit_addr;
81 	uint_t		n;
82 	pci_regspec_t	*pci_rp;
83 
84 	if (ndi_dev_is_persistent_node(child) == 0) {
85 		/*
86 		 * For .conf node, use "unit-address" property
87 		 */
88 		if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, child,
89 		    DDI_PROP_DONTPASS, "unit-address", &unit_addr, &n) !=
90 		    DDI_PROP_SUCCESS) {
91 			cmn_err(CE_WARN, "cannot find unit-address in %s.conf",
92 			    ddi_get_name(child));
93 			return (DDI_FAILURE);
94 		}
95 		if (n != 1 || *unit_addr == NULL || **unit_addr == 0) {
96 			cmn_err(CE_WARN, "unit-address property in %s.conf"
97 			    " not well-formed", ddi_get_name(child));
98 			ddi_prop_free(unit_addr);
99 			return (DDI_FAILURE);
100 		}
101 		(void) snprintf(name, namelen, "%s", *unit_addr);
102 		ddi_prop_free(unit_addr);
103 		return (DDI_SUCCESS);
104 	}
105 
106 	if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, child, DDI_PROP_DONTPASS,
107 	    "reg", (int **)&pci_rp, (uint_t *)&length) != DDI_PROP_SUCCESS) {
108 		cmn_err(CE_WARN, "cannot find reg property in %s",
109 		    ddi_get_name(child));
110 		return (DDI_FAILURE);
111 	}
112 
113 	/* copy the device identifications */
114 	dev = PCI_REG_DEV_G(pci_rp->pci_phys_hi);
115 	func = PCI_REG_FUNC_G(pci_rp->pci_phys_hi);
116 
117 	/*
118 	 * free the memory allocated by ddi_prop_lookup_int_array
119 	 */
120 	ddi_prop_free(pci_rp);
121 
122 	if (func != 0) {
123 		(void) snprintf(name, namelen, "%x,%x", dev, func);
124 	} else {
125 		(void) snprintf(name, namelen, "%x", dev);
126 	}
127 
128 	return (DDI_SUCCESS);
129 }
130 
131 /*
132  * Interrupt related code:
133  *
134  * The following busop is common to npe and pci drivers
135  *	bus_introp
136  */
137 
138 /*
139  * Create the ddi_parent_private_data for a pseudo child.
140  */
141 void
142 pci_common_set_parent_private_data(dev_info_t *dip)
143 {
144 	struct ddi_parent_private_data *pdptr;
145 
146 	pdptr = (struct ddi_parent_private_data *)kmem_zalloc(
147 	    (sizeof (struct ddi_parent_private_data) +
148 	    sizeof (struct intrspec)), KM_SLEEP);
149 	pdptr->par_intr = (struct intrspec *)(pdptr + 1);
150 	pdptr->par_nintr = 1;
151 	ddi_set_parent_data(dip, pdptr);
152 }
153 
154 /*
155  * pci_get_priority:
156  *	Figure out the priority of the device
157  */
158 static int
159 pci_get_priority(dev_info_t *dip, ddi_intr_handle_impl_t *hdlp, int *pri)
160 {
161 	struct intrspec *ispec;
162 
163 	DDI_INTR_NEXDBG((CE_CONT, "pci_get_priority: dip = 0x%p, hdlp = %p\n",
164 	    (void *)dip, (void *)hdlp));
165 
166 	if ((ispec = (struct intrspec *)pci_intx_get_ispec(dip, dip,
167 	    hdlp->ih_inum)) == NULL) {
168 		if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type)) {
169 			*pri = pci_class_to_pil(dip);
170 			pci_common_set_parent_private_data(hdlp->ih_dip);
171 			ispec = (struct intrspec *)pci_intx_get_ispec(dip, dip,
172 			    hdlp->ih_inum);
173 			return (DDI_SUCCESS);
174 		}
175 		return (DDI_FAILURE);
176 	}
177 
178 	*pri = ispec->intrspec_pri;
179 	return (DDI_SUCCESS);
180 }
181 
182 
183 
184 static int pcieb_intr_pri_counter = 0;
185 
186 /*
187  * pci_common_intr_ops: bus_intr_op() function for interrupt support
188  */
189 int
190 pci_common_intr_ops(dev_info_t *pdip, dev_info_t *rdip, ddi_intr_op_t intr_op,
191     ddi_intr_handle_impl_t *hdlp, void *result)
192 {
193 	int			priority = 0;
194 	int			psm_status = 0;
195 	int			pci_status = 0;
196 	int			pci_rval, psm_rval = PSM_FAILURE;
197 	int			types = 0;
198 	int			pciepci = 0;
199 	int			i, j, count;
200 	int			rv;
201 	int			behavior;
202 	int			cap_ptr;
203 	uint16_t		msi_cap_base, msix_cap_base, cap_ctrl;
204 	char			*prop;
205 	ddi_intrspec_t		isp;
206 	struct intrspec		*ispec;
207 	ddi_intr_handle_impl_t	tmp_hdl;
208 	ddi_intr_msix_t		*msix_p;
209 	ihdl_plat_t		*ihdl_plat_datap;
210 	ddi_intr_handle_t	*h_array;
211 	ddi_acc_handle_t	handle;
212 	apic_get_intr_t		intrinfo;
213 
214 	DDI_INTR_NEXDBG((CE_CONT,
215 	    "pci_common_intr_ops: pdip 0x%p, rdip 0x%p, op %x handle 0x%p\n",
216 	    (void *)pdip, (void *)rdip, intr_op, (void *)hdlp));
217 
218 	/* Process the request */
219 	switch (intr_op) {
220 	case DDI_INTROP_SUPPORTED_TYPES:
221 		/*
222 		 * First we determine the interrupt types supported by the
223 		 * device itself, then we filter them through what the OS
224 		 * and system supports.  We determine system-level
225 		 * interrupt type support for anything other than fixed intrs
226 		 * through the psm_intr_ops vector
227 		 */
228 		rv = DDI_FAILURE;
229 
230 		/* Fixed supported by default */
231 		types = DDI_INTR_TYPE_FIXED;
232 
233 		if (psm_intr_ops == NULL) {
234 			*(int *)result = types;
235 			return (DDI_SUCCESS);
236 		}
237 		if (pci_config_setup(rdip, &handle) != DDI_SUCCESS)
238 			return (DDI_FAILURE);
239 
240 		/* Sanity test cap control values if found */
241 
242 		if (PCI_CAP_LOCATE(handle, PCI_CAP_ID_MSI, &msi_cap_base) ==
243 		    DDI_SUCCESS) {
244 			cap_ctrl = PCI_CAP_GET16(handle, 0, msi_cap_base,
245 			    PCI_MSI_CTRL);
246 			if (cap_ctrl == PCI_CAP_EINVAL16)
247 				goto SUPPORTED_TYPES_OUT;
248 
249 			types |= DDI_INTR_TYPE_MSI;
250 		}
251 
252 		if (PCI_CAP_LOCATE(handle, PCI_CAP_ID_MSI_X, &msix_cap_base) ==
253 		    DDI_SUCCESS) {
254 			cap_ctrl = PCI_CAP_GET16(handle, 0, msix_cap_base,
255 			    PCI_MSIX_CTRL);
256 			if (cap_ctrl == PCI_CAP_EINVAL16)
257 				goto SUPPORTED_TYPES_OUT;
258 
259 			types |= DDI_INTR_TYPE_MSIX;
260 		}
261 
262 		/*
263 		 * Filter device-level types through system-level support
264 		 */
265 		tmp_hdl.ih_type = types;
266 		if ((*psm_intr_ops)(rdip, &tmp_hdl, PSM_INTR_OP_CHECK_MSI,
267 		    &types) != PSM_SUCCESS)
268 			goto SUPPORTED_TYPES_OUT;
269 
270 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
271 		    "rdip: 0x%p supported types: 0x%x\n", (void *)rdip,
272 		    types));
273 
274 		/*
275 		 * Export any MSI/MSI-X cap locations via properties
276 		 */
277 		if (types & DDI_INTR_TYPE_MSI) {
278 			if (ndi_prop_update_int(DDI_DEV_T_NONE, rdip,
279 			    "pci-msi-capid-pointer", (int)msi_cap_base) !=
280 			    DDI_PROP_SUCCESS)
281 				goto SUPPORTED_TYPES_OUT;
282 		}
283 		if (types & DDI_INTR_TYPE_MSIX) {
284 			if (ndi_prop_update_int(DDI_DEV_T_NONE, rdip,
285 			    "pci-msix-capid-pointer", (int)msix_cap_base) !=
286 			    DDI_PROP_SUCCESS)
287 				goto SUPPORTED_TYPES_OUT;
288 		}
289 
290 		rv = DDI_SUCCESS;
291 
292 SUPPORTED_TYPES_OUT:
293 		*(int *)result = types;
294 		pci_config_teardown(&handle);
295 		return (rv);
296 
297 	case DDI_INTROP_NAVAIL:
298 	case DDI_INTROP_NINTRS:
299 		if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type)) {
300 			if (pci_msi_get_nintrs(hdlp->ih_dip, hdlp->ih_type,
301 			    result) != DDI_SUCCESS)
302 				return (DDI_FAILURE);
303 		} else {
304 			*(int *)result = i_ddi_get_intx_nintrs(hdlp->ih_dip);
305 			if (*(int *)result == 0)
306 				return (DDI_FAILURE);
307 		}
308 		break;
309 	case DDI_INTROP_ALLOC:
310 
311 		/*
312 		 * FIXED type
313 		 */
314 		if (hdlp->ih_type == DDI_INTR_TYPE_FIXED)
315 			return (pci_alloc_intr_fixed(pdip, rdip, hdlp, result));
316 		/*
317 		 * MSI or MSIX (figure out number of vectors available)
318 		 */
319 		if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type) &&
320 		    (psm_intr_ops != NULL) &&
321 		    (pci_get_priority(rdip, hdlp, &priority) == DDI_SUCCESS)) {
322 			/*
323 			 * Following check is a special case for 'pcieb'.
324 			 * This makes sure vectors with the right priority
325 			 * are allocated for pcieb during ALLOC time.
326 			 */
327 			if (strcmp(ddi_driver_name(rdip), "pcieb") == 0) {
328 				hdlp->ih_pri =
329 				    (pcieb_intr_pri_counter % 2) ? 4 : 7;
330 				pciepci = 1;
331 			} else
332 				hdlp->ih_pri = priority;
333 			behavior = (int)(uintptr_t)hdlp->ih_scratch2;
334 
335 			/*
336 			 * Cache in the config handle and cap_ptr
337 			 */
338 			if (i_ddi_get_pci_config_handle(rdip) == NULL) {
339 				if (pci_config_setup(rdip, &handle) !=
340 				    DDI_SUCCESS)
341 					return (DDI_FAILURE);
342 				i_ddi_set_pci_config_handle(rdip, handle);
343 			}
344 
345 			prop = NULL;
346 			cap_ptr = 0;
347 			if (hdlp->ih_type == DDI_INTR_TYPE_MSI)
348 				prop = "pci-msi-capid-pointer";
349 			else if (hdlp->ih_type == DDI_INTR_TYPE_MSIX)
350 				prop = "pci-msix-capid-pointer";
351 
352 			/*
353 			 * Enforce the calling of DDI_INTROP_SUPPORTED_TYPES
354 			 * for MSI(X) before allocation
355 			 */
356 			if (prop != NULL) {
357 				cap_ptr = ddi_prop_get_int(DDI_DEV_T_ANY, rdip,
358 				    DDI_PROP_DONTPASS, prop, 0);
359 				if (cap_ptr == 0) {
360 					DDI_INTR_NEXDBG((CE_CONT,
361 					    "pci_common_intr_ops: rdip: 0x%p "
362 					    "attempted MSI(X) alloc without "
363 					    "cap property\n", (void *)rdip));
364 					return (DDI_FAILURE);
365 				}
366 			}
367 			i_ddi_set_msi_msix_cap_ptr(rdip, cap_ptr);
368 
369 			/*
370 			 * Allocate interrupt vectors
371 			 */
372 			(void) (*psm_intr_ops)(rdip, hdlp,
373 			    PSM_INTR_OP_ALLOC_VECTORS, result);
374 
375 			if (*(int *)result == 0)
376 				return (DDI_INTR_NOTFOUND);
377 
378 			/* verify behavior flag and take appropriate action */
379 			if ((behavior == DDI_INTR_ALLOC_STRICT) &&
380 			    (*(int *)result < hdlp->ih_scratch1)) {
381 				DDI_INTR_NEXDBG((CE_CONT,
382 				    "pci_common_intr_ops: behavior %x, "
383 				    "couldn't get enough intrs\n", behavior));
384 				hdlp->ih_scratch1 = *(int *)result;
385 				(void) (*psm_intr_ops)(rdip, hdlp,
386 				    PSM_INTR_OP_FREE_VECTORS, NULL);
387 				return (DDI_EAGAIN);
388 			}
389 
390 			if (hdlp->ih_type == DDI_INTR_TYPE_MSIX) {
391 				if (!(msix_p = i_ddi_get_msix(hdlp->ih_dip))) {
392 					msix_p = pci_msix_init(hdlp->ih_dip);
393 					if (msix_p) {
394 						i_ddi_set_msix(hdlp->ih_dip,
395 						    msix_p);
396 					} else {
397 						DDI_INTR_NEXDBG((CE_CONT,
398 						    "pci_common_intr_ops: MSI-X"
399 						    "table initilization failed"
400 						    ", rdip 0x%p inum 0x%x\n",
401 						    (void *)rdip,
402 						    hdlp->ih_inum));
403 
404 						(void) (*psm_intr_ops)(rdip,
405 						    hdlp,
406 						    PSM_INTR_OP_FREE_VECTORS,
407 						    NULL);
408 
409 						return (DDI_FAILURE);
410 					}
411 				}
412 			}
413 
414 			if (pciepci) {
415 				/* update priority in ispec */
416 				isp = pci_intx_get_ispec(pdip, rdip,
417 				    (int)hdlp->ih_inum);
418 				ispec = (struct intrspec *)isp;
419 				if (ispec)
420 					ispec->intrspec_pri = hdlp->ih_pri;
421 				++pcieb_intr_pri_counter;
422 			}
423 
424 		} else
425 			return (DDI_FAILURE);
426 		break;
427 	case DDI_INTROP_FREE:
428 		if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type) &&
429 		    (psm_intr_ops != NULL)) {
430 			if (i_ddi_intr_get_current_nintrs(hdlp->ih_dip) - 1 ==
431 			    0) {
432 				if (handle = i_ddi_get_pci_config_handle(
433 				    rdip)) {
434 					(void) pci_config_teardown(&handle);
435 					i_ddi_set_pci_config_handle(rdip, NULL);
436 				}
437 				if (cap_ptr = i_ddi_get_msi_msix_cap_ptr(rdip))
438 					i_ddi_set_msi_msix_cap_ptr(rdip, 0);
439 			}
440 
441 			(void) (*psm_intr_ops)(rdip, hdlp,
442 			    PSM_INTR_OP_FREE_VECTORS, NULL);
443 
444 			if (hdlp->ih_type == DDI_INTR_TYPE_MSIX) {
445 				msix_p = i_ddi_get_msix(hdlp->ih_dip);
446 				if (msix_p &&
447 				    (i_ddi_intr_get_current_nintrs(
448 				    hdlp->ih_dip) - 1) == 0) {
449 					pci_msix_fini(msix_p);
450 					i_ddi_set_msix(hdlp->ih_dip, NULL);
451 				}
452 			}
453 		} else if (hdlp->ih_type == DDI_INTR_TYPE_FIXED) {
454 			return (pci_free_intr_fixed(pdip, rdip, hdlp));
455 		} else
456 			return (DDI_FAILURE);
457 		break;
458 	case DDI_INTROP_GETPRI:
459 		/* Get the priority */
460 		if (pci_get_priority(rdip, hdlp, &priority) != DDI_SUCCESS)
461 			return (DDI_FAILURE);
462 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
463 		    "priority = 0x%x\n", priority));
464 		*(int *)result = priority;
465 		break;
466 	case DDI_INTROP_SETPRI:
467 		/* Validate the interrupt priority passed */
468 		if (*(int *)result > LOCK_LEVEL)
469 			return (DDI_FAILURE);
470 
471 		/* Ensure that PSM is all initialized */
472 		if (psm_intr_ops == NULL)
473 			return (DDI_FAILURE);
474 
475 		isp = pci_intx_get_ispec(pdip, rdip, (int)hdlp->ih_inum);
476 		ispec = (struct intrspec *)isp;
477 		if (ispec == NULL)
478 			return (DDI_FAILURE);
479 
480 		/* For fixed interrupts */
481 		if (hdlp->ih_type == DDI_INTR_TYPE_FIXED) {
482 			/* if interrupt is shared, return failure */
483 			((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec;
484 			psm_rval = (*psm_intr_ops)(rdip, hdlp,
485 			    PSM_INTR_OP_GET_SHARED, &psm_status);
486 			/*
487 			 * For fixed interrupts, the irq may not have been
488 			 * allocated when SET_PRI is called, and the above
489 			 * GET_SHARED op may return PSM_FAILURE. This is not
490 			 * a real error and is ignored below.
491 			 */
492 			if ((psm_rval != PSM_FAILURE) && (psm_status == 1)) {
493 				DDI_INTR_NEXDBG((CE_CONT,
494 				    "pci_common_intr_ops: "
495 				    "dip 0x%p cannot setpri, psm_rval=%d,"
496 				    "psm_status=%d\n", (void *)rdip, psm_rval,
497 				    psm_status));
498 				return (DDI_FAILURE);
499 			}
500 		}
501 
502 		/* Change the priority */
503 		if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_SET_PRI, result) ==
504 		    PSM_FAILURE)
505 			return (DDI_FAILURE);
506 
507 		/* update ispec */
508 		ispec->intrspec_pri = *(int *)result;
509 		break;
510 	case DDI_INTROP_ADDISR:
511 		/* update ispec */
512 		isp = pci_intx_get_ispec(pdip, rdip, (int)hdlp->ih_inum);
513 		ispec = (struct intrspec *)isp;
514 		if (ispec) {
515 			ispec->intrspec_func = hdlp->ih_cb_func;
516 			ihdl_plat_datap = (ihdl_plat_t *)hdlp->ih_private;
517 			pci_kstat_create(&ihdl_plat_datap->ip_ksp, pdip, hdlp);
518 		}
519 		break;
520 	case DDI_INTROP_REMISR:
521 		/* Get the interrupt structure pointer */
522 		isp = pci_intx_get_ispec(pdip, rdip, (int)hdlp->ih_inum);
523 		ispec = (struct intrspec *)isp;
524 		if (ispec) {
525 			ispec->intrspec_func = (uint_t (*)()) 0;
526 			ihdl_plat_datap = (ihdl_plat_t *)hdlp->ih_private;
527 			if (ihdl_plat_datap->ip_ksp != NULL)
528 				pci_kstat_delete(ihdl_plat_datap->ip_ksp);
529 		}
530 		break;
531 	case DDI_INTROP_GETCAP:
532 		/*
533 		 * First check the config space and/or
534 		 * MSI capability register(s)
535 		 */
536 		if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type))
537 			pci_rval = pci_msi_get_cap(rdip, hdlp->ih_type,
538 			    &pci_status);
539 		else if (hdlp->ih_type == DDI_INTR_TYPE_FIXED)
540 			pci_rval = pci_intx_get_cap(rdip, &pci_status);
541 
542 		/* next check with PSM module */
543 		if (psm_intr_ops != NULL)
544 			psm_rval = (*psm_intr_ops)(rdip, hdlp,
545 			    PSM_INTR_OP_GET_CAP, &psm_status);
546 
547 		DDI_INTR_NEXDBG((CE_CONT, "pci: GETCAP returned psm_rval = %x, "
548 		    "psm_status = %x, pci_rval = %x, pci_status = %x\n",
549 		    psm_rval, psm_status, pci_rval, pci_status));
550 
551 		if (psm_rval == PSM_FAILURE && pci_rval == DDI_FAILURE) {
552 			*(int *)result = 0;
553 			return (DDI_FAILURE);
554 		}
555 
556 		if (psm_rval == PSM_SUCCESS)
557 			*(int *)result = psm_status;
558 
559 		if (pci_rval == DDI_SUCCESS)
560 			*(int *)result |= pci_status;
561 
562 		DDI_INTR_NEXDBG((CE_CONT, "pci: GETCAP returned = %x\n",
563 		    *(int *)result));
564 		break;
565 	case DDI_INTROP_SETCAP:
566 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
567 		    "SETCAP cap=0x%x\n", *(int *)result));
568 		if (psm_intr_ops == NULL)
569 			return (DDI_FAILURE);
570 
571 		if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_SET_CAP, result)) {
572 			DDI_INTR_NEXDBG((CE_CONT, "GETCAP: psm_intr_ops"
573 			    " returned failure\n"));
574 			return (DDI_FAILURE);
575 		}
576 		break;
577 	case DDI_INTROP_ENABLE:
578 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: ENABLE\n"));
579 		if (psm_intr_ops == NULL)
580 			return (DDI_FAILURE);
581 
582 		if (pci_enable_intr(pdip, rdip, hdlp, hdlp->ih_inum) !=
583 		    DDI_SUCCESS)
584 			return (DDI_FAILURE);
585 
586 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: ENABLE "
587 		    "vector=0x%x\n", hdlp->ih_vector));
588 		break;
589 	case DDI_INTROP_DISABLE:
590 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: DISABLE\n"));
591 		if (psm_intr_ops == NULL)
592 			return (DDI_FAILURE);
593 
594 		pci_disable_intr(pdip, rdip, hdlp, hdlp->ih_inum);
595 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: DISABLE "
596 		    "vector = %x\n", hdlp->ih_vector));
597 		break;
598 	case DDI_INTROP_BLOCKENABLE:
599 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
600 		    "BLOCKENABLE\n"));
601 		if (hdlp->ih_type != DDI_INTR_TYPE_MSI) {
602 			DDI_INTR_NEXDBG((CE_CONT, "BLOCKENABLE: not MSI\n"));
603 			return (DDI_FAILURE);
604 		}
605 
606 		/* Check if psm_intr_ops is NULL? */
607 		if (psm_intr_ops == NULL)
608 			return (DDI_FAILURE);
609 
610 		count = hdlp->ih_scratch1;
611 		h_array = (ddi_intr_handle_t *)hdlp->ih_scratch2;
612 		for (i = 0; i < count; i++) {
613 			hdlp = (ddi_intr_handle_impl_t *)h_array[i];
614 			if (pci_enable_intr(pdip, rdip, hdlp,
615 			    hdlp->ih_inum) != DDI_SUCCESS) {
616 				DDI_INTR_NEXDBG((CE_CONT, "BLOCKENABLE: "
617 				    "pci_enable_intr failed for %d\n", i));
618 				for (j = 0; j < i; j++) {
619 					hdlp = (ddi_intr_handle_impl_t *)
620 					    h_array[j];
621 					pci_disable_intr(pdip, rdip, hdlp,
622 					    hdlp->ih_inum);
623 				}
624 				return (DDI_FAILURE);
625 			}
626 			DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
627 			    "BLOCKENABLE inum %x done\n", hdlp->ih_inum));
628 		}
629 		break;
630 	case DDI_INTROP_BLOCKDISABLE:
631 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
632 		    "BLOCKDISABLE\n"));
633 		if (hdlp->ih_type != DDI_INTR_TYPE_MSI) {
634 			DDI_INTR_NEXDBG((CE_CONT, "BLOCKDISABLE: not MSI\n"));
635 			return (DDI_FAILURE);
636 		}
637 
638 		/* Check if psm_intr_ops is present */
639 		if (psm_intr_ops == NULL)
640 			return (DDI_FAILURE);
641 
642 		count = hdlp->ih_scratch1;
643 		h_array = (ddi_intr_handle_t *)hdlp->ih_scratch2;
644 		for (i = 0; i < count; i++) {
645 			hdlp = (ddi_intr_handle_impl_t *)h_array[i];
646 			pci_disable_intr(pdip, rdip, hdlp, hdlp->ih_inum);
647 			DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: "
648 			    "BLOCKDISABLE inum %x done\n", hdlp->ih_inum));
649 		}
650 		break;
651 	case DDI_INTROP_SETMASK:
652 	case DDI_INTROP_CLRMASK:
653 		/*
654 		 * First handle in the config space
655 		 */
656 		if (intr_op == DDI_INTROP_SETMASK) {
657 			if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type))
658 				pci_status = pci_msi_set_mask(rdip,
659 				    hdlp->ih_type, hdlp->ih_inum);
660 			else if (hdlp->ih_type == DDI_INTR_TYPE_FIXED)
661 				pci_status = pci_intx_set_mask(rdip);
662 		} else {
663 			if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type))
664 				pci_status = pci_msi_clr_mask(rdip,
665 				    hdlp->ih_type, hdlp->ih_inum);
666 			else if (hdlp->ih_type == DDI_INTR_TYPE_FIXED)
667 				pci_status = pci_intx_clr_mask(rdip);
668 		}
669 
670 		/* For MSI/X; no need to check with PSM module */
671 		if (hdlp->ih_type != DDI_INTR_TYPE_FIXED)
672 			return (pci_status);
673 
674 		/* For fixed interrupts only: handle config space first */
675 		if (hdlp->ih_type == DDI_INTR_TYPE_FIXED &&
676 		    pci_status == DDI_SUCCESS)
677 			break;
678 
679 		/* For fixed interrupts only: confer with PSM module next */
680 		if (psm_intr_ops != NULL) {
681 			/* If interrupt is shared; do nothing */
682 			psm_rval = (*psm_intr_ops)(rdip, hdlp,
683 			    PSM_INTR_OP_GET_SHARED, &psm_status);
684 
685 			if (psm_rval == PSM_FAILURE || psm_status == 1)
686 				return (pci_status);
687 
688 			/* Now, PSM module should try to set/clear the mask */
689 			if (intr_op == DDI_INTROP_SETMASK)
690 				psm_rval = (*psm_intr_ops)(rdip, hdlp,
691 				    PSM_INTR_OP_SET_MASK, NULL);
692 			else
693 				psm_rval = (*psm_intr_ops)(rdip, hdlp,
694 				    PSM_INTR_OP_CLEAR_MASK, NULL);
695 		}
696 		return ((psm_rval == PSM_FAILURE) ? DDI_FAILURE : DDI_SUCCESS);
697 	case DDI_INTROP_GETPENDING:
698 		/*
699 		 * First check the config space and/or
700 		 * MSI capability register(s)
701 		 */
702 		if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type))
703 			pci_rval = pci_msi_get_pending(rdip, hdlp->ih_type,
704 			    hdlp->ih_inum, &pci_status);
705 		else if (hdlp->ih_type == DDI_INTR_TYPE_FIXED)
706 			pci_rval = pci_intx_get_pending(rdip, &pci_status);
707 
708 		/* On failure; next try with PSM module */
709 		if (pci_rval != DDI_SUCCESS && psm_intr_ops != NULL)
710 			psm_rval = (*psm_intr_ops)(rdip, hdlp,
711 			    PSM_INTR_OP_GET_PENDING, &psm_status);
712 
713 		DDI_INTR_NEXDBG((CE_CONT, "pci: GETPENDING returned "
714 		    "psm_rval = %x, psm_status = %x, pci_rval = %x, "
715 		    "pci_status = %x\n", psm_rval, psm_status, pci_rval,
716 		    pci_status));
717 		if (psm_rval == PSM_FAILURE && pci_rval == DDI_FAILURE) {
718 			*(int *)result = 0;
719 			return (DDI_FAILURE);
720 		}
721 
722 		if (psm_rval != PSM_FAILURE)
723 			*(int *)result = psm_status;
724 		else if (pci_rval != DDI_FAILURE)
725 			*(int *)result = pci_status;
726 		DDI_INTR_NEXDBG((CE_CONT, "pci: GETPENDING returned = %x\n",
727 		    *(int *)result));
728 		break;
729 	case DDI_INTROP_GETTARGET:
730 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: GETTARGET\n"));
731 
732 		bcopy(hdlp, &tmp_hdl, sizeof (ddi_intr_handle_impl_t));
733 		tmp_hdl.ih_private = (void *)&intrinfo;
734 		intrinfo.avgi_req_flags = PSMGI_INTRBY_DEFAULT;
735 		intrinfo.avgi_req_flags |= PSMGI_REQ_CPUID;
736 
737 		if ((*psm_intr_ops)(rdip, &tmp_hdl, PSM_INTR_OP_GET_INTR,
738 		    NULL) == PSM_FAILURE)
739 			return (DDI_FAILURE);
740 
741 		*(int *)result = intrinfo.avgi_cpu_id;
742 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: GETTARGET "
743 		    "vector = 0x%x, cpu = 0x%x\n", hdlp->ih_vector,
744 		    *(int *)result));
745 		break;
746 	case DDI_INTROP_SETTARGET:
747 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: SETTARGET\n"));
748 
749 		bcopy(hdlp, &tmp_hdl, sizeof (ddi_intr_handle_impl_t));
750 		tmp_hdl.ih_private = (void *)(uintptr_t)*(int *)result;
751 		tmp_hdl.ih_flags = PSMGI_INTRBY_DEFAULT;
752 
753 		if ((*psm_intr_ops)(rdip, &tmp_hdl, PSM_INTR_OP_SET_CPU,
754 		    &psm_status) == PSM_FAILURE)
755 			return (DDI_FAILURE);
756 
757 		hdlp->ih_vector = tmp_hdl.ih_vector;
758 		DDI_INTR_NEXDBG((CE_CONT, "pci_common_intr_ops: SETTARGET "
759 		    "vector = 0x%x\n", hdlp->ih_vector));
760 		break;
761 	case DDI_INTROP_GETPOOL:
762 		/*
763 		 * For MSI/X interrupts use global IRM pool if available.
764 		 */
765 		if (apix_irm_pool_p && DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type)) {
766 			*(ddi_irm_pool_t **)result = apix_irm_pool_p;
767 			return (DDI_SUCCESS);
768 		}
769 		return (DDI_ENOTSUP);
770 	default:
771 		return (i_ddi_intr_ops(pdip, rdip, intr_op, hdlp, result));
772 	}
773 
774 	return (DDI_SUCCESS);
775 }
776 
777 /*
778  * Allocate a vector for FIXED type interrupt.
779  */
780 int
781 pci_alloc_intr_fixed(dev_info_t *pdip, dev_info_t *rdip,
782     ddi_intr_handle_impl_t *hdlp, void *result)
783 {
784 	struct intrspec		*ispec;
785 	ddi_intr_handle_impl_t	info_hdl;
786 	int			ret;
787 	int			free_phdl = 0;
788 	int			pci_rval;
789 	int			pci_status = 0;
790 	apic_get_type_t		type_info;
791 
792 	if (psm_intr_ops == NULL)
793 		return (DDI_FAILURE);
794 
795 	/* Figure out if this device supports MASKING */
796 	pci_rval = pci_intx_get_cap(rdip, &pci_status);
797 	if (pci_rval == DDI_SUCCESS && pci_status)
798 		hdlp->ih_cap |= pci_status;
799 
800 	/*
801 	 * If the PSM module is "APIX" then pass the request for
802 	 * allocating the vector now.
803 	 */
804 	bzero(&info_hdl, sizeof (ddi_intr_handle_impl_t));
805 	info_hdl.ih_private = &type_info;
806 	if ((*psm_intr_ops)(NULL, &info_hdl, PSM_INTR_OP_APIC_TYPE, NULL) ==
807 	    PSM_SUCCESS && strcmp(type_info.avgi_type, APIC_APIX_NAME) == 0) {
808 		ispec = (struct intrspec *)pci_intx_get_ispec(pdip, rdip,
809 		    (int)hdlp->ih_inum);
810 		if (ispec == NULL)
811 			return (DDI_FAILURE);
812 		if (hdlp->ih_private == NULL) { /* allocate phdl structure */
813 			free_phdl = 1;
814 			i_ddi_alloc_intr_phdl(hdlp);
815 		}
816 		((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec;
817 		ret = (*psm_intr_ops)(rdip, hdlp,
818 		    PSM_INTR_OP_ALLOC_VECTORS, result);
819 		if (free_phdl) { /* free up the phdl structure */
820 			free_phdl = 0;
821 			i_ddi_free_intr_phdl(hdlp);
822 			hdlp->ih_private = NULL;
823 		}
824 	} else {
825 		/*
826 		 * No APIX module; fall back to the old scheme where the
827 		 * interrupt vector is allocated during ddi_enable_intr() call.
828 		 */
829 		*(int *)result = 1;
830 		ret = DDI_SUCCESS;
831 	}
832 
833 	return (ret);
834 }
835 
836 /*
837  * Free up the vector for FIXED (legacy) type interrupt.
838  */
839 static int
840 pci_free_intr_fixed(dev_info_t *pdip, dev_info_t *rdip,
841     ddi_intr_handle_impl_t *hdlp)
842 {
843 	struct intrspec			*ispec;
844 	ddi_intr_handle_impl_t		info_hdl;
845 	int				ret;
846 	apic_get_type_t			type_info;
847 
848 	if (psm_intr_ops == NULL)
849 		return (DDI_FAILURE);
850 
851 	/*
852 	 * If the PSM module is "APIX" then pass the request to it
853 	 * to free up the vector now.
854 	 */
855 	bzero(&info_hdl, sizeof (ddi_intr_handle_impl_t));
856 	info_hdl.ih_private = &type_info;
857 	if ((*psm_intr_ops)(NULL, &info_hdl, PSM_INTR_OP_APIC_TYPE, NULL) ==
858 	    PSM_SUCCESS && strcmp(type_info.avgi_type, APIC_APIX_NAME) == 0) {
859 		ispec = (struct intrspec *)pci_intx_get_ispec(pdip, rdip,
860 		    (int)hdlp->ih_inum);
861 		if (ispec == NULL)
862 			return (DDI_FAILURE);
863 		((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec;
864 		ret = (*psm_intr_ops)(rdip, hdlp,
865 		    PSM_INTR_OP_FREE_VECTORS, NULL);
866 	} else {
867 		/*
868 		 * No APIX module; fall back to the old scheme where
869 		 * the interrupt vector was already freed during
870 		 * ddi_disable_intr() call.
871 		 */
872 		ret = DDI_SUCCESS;
873 	}
874 
875 	return (ret);
876 }
877 
878 int
879 pci_get_intr_from_vecirq(apic_get_intr_t *intrinfo_p,
880     int vecirq, boolean_t is_irq)
881 {
882 	ddi_intr_handle_impl_t	get_info_ii_hdl;
883 
884 	if (is_irq)
885 		intrinfo_p->avgi_req_flags |= PSMGI_INTRBY_IRQ;
886 
887 	/*
888 	 * For this locally-declared and used handle, ih_private will contain a
889 	 * pointer to apic_get_intr_t, not an ihdl_plat_t as used for
890 	 * global interrupt handling.
891 	 */
892 	get_info_ii_hdl.ih_private = intrinfo_p;
893 	get_info_ii_hdl.ih_vector = vecirq;
894 
895 	if ((*psm_intr_ops)(NULL, &get_info_ii_hdl,
896 	    PSM_INTR_OP_GET_INTR, NULL) == PSM_FAILURE)
897 		return (DDI_FAILURE);
898 
899 	return (DDI_SUCCESS);
900 }
901 
902 
903 int
904 pci_get_cpu_from_vecirq(int vecirq, boolean_t is_irq)
905 {
906 	int rval;
907 	apic_get_intr_t	intrinfo;
908 
909 	intrinfo.avgi_req_flags = PSMGI_REQ_CPUID;
910 	rval = pci_get_intr_from_vecirq(&intrinfo, vecirq, is_irq);
911 
912 	if (rval == DDI_SUCCESS)
913 		return (intrinfo.avgi_cpu_id);
914 	else
915 		return (-1);
916 }
917 
918 
919 static int
920 pci_enable_intr(dev_info_t *pdip, dev_info_t *rdip,
921     ddi_intr_handle_impl_t *hdlp, uint32_t inum)
922 {
923 	struct intrspec	*ispec;
924 	int		irq;
925 	ihdl_plat_t	*ihdl_plat_datap = (ihdl_plat_t *)hdlp->ih_private;
926 
927 	DDI_INTR_NEXDBG((CE_CONT, "pci_enable_intr: hdlp %p inum %x\n",
928 	    (void *)hdlp, inum));
929 
930 	/* Translate the interrupt if needed */
931 	ispec = (struct intrspec *)pci_intx_get_ispec(pdip, rdip, (int)inum);
932 	if (ispec == NULL)
933 		return (DDI_FAILURE);
934 	if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type)) {
935 		ispec->intrspec_vec = inum;
936 		ispec->intrspec_pri = hdlp->ih_pri;
937 	}
938 	ihdl_plat_datap->ip_ispecp = ispec;
939 
940 	/* translate the interrupt if needed */
941 	if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_XLATE_VECTOR, &irq) ==
942 	    PSM_FAILURE)
943 		return (DDI_FAILURE);
944 	DDI_INTR_NEXDBG((CE_CONT, "pci_enable_intr: priority=%x irq=%x\n",
945 	    hdlp->ih_pri, irq));
946 
947 	/* Add the interrupt handler */
948 	if (!add_avintr((void *)hdlp, hdlp->ih_pri, hdlp->ih_cb_func,
949 	    DEVI(rdip)->devi_name, irq, hdlp->ih_cb_arg1,
950 	    hdlp->ih_cb_arg2, &ihdl_plat_datap->ip_ticks, rdip))
951 		return (DDI_FAILURE);
952 
953 	hdlp->ih_vector = irq;
954 
955 	return (DDI_SUCCESS);
956 }
957 
958 
959 static void
960 pci_disable_intr(dev_info_t *pdip, dev_info_t *rdip,
961     ddi_intr_handle_impl_t *hdlp, uint32_t inum)
962 {
963 	int		irq;
964 	struct intrspec	*ispec;
965 	ihdl_plat_t	*ihdl_plat_datap = (ihdl_plat_t *)hdlp->ih_private;
966 
967 	DDI_INTR_NEXDBG((CE_CONT, "pci_disable_intr: \n"));
968 	ispec = (struct intrspec *)pci_intx_get_ispec(pdip, rdip, (int)inum);
969 	if (ispec == NULL)
970 		return;
971 	if (DDI_INTR_IS_MSI_OR_MSIX(hdlp->ih_type)) {
972 		ispec->intrspec_vec = inum;
973 		ispec->intrspec_pri = hdlp->ih_pri;
974 	}
975 	ihdl_plat_datap->ip_ispecp = ispec;
976 
977 	/* translate the interrupt if needed */
978 	(void) (*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_XLATE_VECTOR, &irq);
979 
980 	/* Disable the interrupt handler */
981 	rem_avintr((void *)hdlp, hdlp->ih_pri, hdlp->ih_cb_func, irq);
982 	ihdl_plat_datap->ip_ispecp = NULL;
983 }
984 
985 /*
986  * Miscellaneous library function
987  */
988 int
989 pci_common_get_reg_prop(dev_info_t *dip, pci_regspec_t *pci_rp)
990 {
991 	int		i;
992 	int 		number;
993 	int		assigned_addr_len;
994 	uint_t		phys_hi = pci_rp->pci_phys_hi;
995 	pci_regspec_t	*assigned_addr;
996 
997 	if (((phys_hi & PCI_REG_ADDR_M) == PCI_ADDR_CONFIG) ||
998 	    (phys_hi & PCI_RELOCAT_B))
999 		return (DDI_SUCCESS);
1000 
1001 	/*
1002 	 * the "reg" property specifies relocatable, get and interpret the
1003 	 * "assigned-addresses" property.
1004 	 */
1005 	if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
1006 	    "assigned-addresses", (int **)&assigned_addr,
1007 	    (uint_t *)&assigned_addr_len) != DDI_PROP_SUCCESS)
1008 		return (DDI_FAILURE);
1009 
1010 	/*
1011 	 * Scan the "assigned-addresses" for one that matches the specified
1012 	 * "reg" property entry.
1013 	 */
1014 	phys_hi &= PCI_CONF_ADDR_MASK;
1015 	number = assigned_addr_len / (sizeof (pci_regspec_t) / sizeof (int));
1016 	for (i = 0; i < number; i++) {
1017 		if ((assigned_addr[i].pci_phys_hi & PCI_CONF_ADDR_MASK) ==
1018 		    phys_hi) {
1019 			pci_rp->pci_phys_mid = assigned_addr[i].pci_phys_mid;
1020 			pci_rp->pci_phys_low = assigned_addr[i].pci_phys_low;
1021 			ddi_prop_free(assigned_addr);
1022 			return (DDI_SUCCESS);
1023 		}
1024 	}
1025 
1026 	ddi_prop_free(assigned_addr);
1027 	return (DDI_FAILURE);
1028 }
1029 
1030 
1031 /*
1032  * To handle PCI tool ioctls
1033  */
1034 
1035 /*ARGSUSED*/
1036 int
1037 pci_common_ioctl(dev_info_t *dip, dev_t dev, int cmd, intptr_t arg,
1038     int mode, cred_t *credp, int *rvalp)
1039 {
1040 	minor_t	minor = getminor(dev);
1041 	int	rv = ENOTTY;
1042 
1043 	switch (PCI_MINOR_NUM_TO_PCI_DEVNUM(minor)) {
1044 	case PCI_TOOL_REG_MINOR_NUM:
1045 
1046 		switch (cmd) {
1047 		case PCITOOL_DEVICE_SET_REG:
1048 		case PCITOOL_DEVICE_GET_REG:
1049 
1050 			/* Require full privileges. */
1051 			if (secpolicy_kmdb(credp))
1052 				rv = EPERM;
1053 			else
1054 				rv = pcitool_dev_reg_ops(dip, (void *)arg,
1055 				    cmd, mode);
1056 			break;
1057 
1058 		case PCITOOL_NEXUS_SET_REG:
1059 		case PCITOOL_NEXUS_GET_REG:
1060 
1061 			/* Require full privileges. */
1062 			if (secpolicy_kmdb(credp))
1063 				rv = EPERM;
1064 			else
1065 				rv = pcitool_bus_reg_ops(dip, (void *)arg,
1066 				    cmd, mode);
1067 			break;
1068 		}
1069 		break;
1070 
1071 	case PCI_TOOL_INTR_MINOR_NUM:
1072 
1073 		switch (cmd) {
1074 		case PCITOOL_DEVICE_SET_INTR:
1075 
1076 			/* Require PRIV_SYS_RES_CONFIG, same as psradm */
1077 			if (secpolicy_ponline(credp)) {
1078 				rv = EPERM;
1079 				break;
1080 			}
1081 
1082 		/*FALLTHRU*/
1083 		/* These require no special privileges. */
1084 		case PCITOOL_DEVICE_GET_INTR:
1085 		case PCITOOL_SYSTEM_INTR_INFO:
1086 			rv = pcitool_intr_admn(dip, (void *)arg, cmd, mode);
1087 			break;
1088 		}
1089 		break;
1090 
1091 	default:
1092 		break;
1093 	}
1094 
1095 	return (rv);
1096 }
1097 
1098 
1099 int
1100 pci_common_ctlops_poke(peekpoke_ctlops_t *in_args)
1101 {
1102 	size_t size = in_args->size;
1103 	uintptr_t dev_addr = in_args->dev_addr;
1104 	uintptr_t host_addr = in_args->host_addr;
1105 	ddi_acc_impl_t *hp = (ddi_acc_impl_t *)in_args->handle;
1106 	ddi_acc_hdl_t *hdlp = (ddi_acc_hdl_t *)in_args->handle;
1107 	size_t repcount = in_args->repcount;
1108 	uint_t flags = in_args->flags;
1109 	int err = DDI_SUCCESS;
1110 
1111 	/*
1112 	 * if no handle then this is a poke. We have to return failure here
1113 	 * as we have no way of knowing whether this is a MEM or IO space access
1114 	 */
1115 	if (in_args->handle == NULL)
1116 		return (DDI_FAILURE);
1117 
1118 	/*
1119 	 * rest of this function is actually for cautious puts
1120 	 */
1121 	for (; repcount; repcount--) {
1122 		if (hp->ahi_acc_attr == DDI_ACCATTR_CONFIG_SPACE) {
1123 			switch (size) {
1124 			case sizeof (uint8_t):
1125 				pci_config_wr8(hp, (uint8_t *)dev_addr,
1126 				    *(uint8_t *)host_addr);
1127 				break;
1128 			case sizeof (uint16_t):
1129 				pci_config_wr16(hp, (uint16_t *)dev_addr,
1130 				    *(uint16_t *)host_addr);
1131 				break;
1132 			case sizeof (uint32_t):
1133 				pci_config_wr32(hp, (uint32_t *)dev_addr,
1134 				    *(uint32_t *)host_addr);
1135 				break;
1136 			case sizeof (uint64_t):
1137 				pci_config_wr64(hp, (uint64_t *)dev_addr,
1138 				    *(uint64_t *)host_addr);
1139 				break;
1140 			default:
1141 				err = DDI_FAILURE;
1142 				break;
1143 			}
1144 		} else if (hp->ahi_acc_attr & DDI_ACCATTR_IO_SPACE) {
1145 			if (hdlp->ah_acc.devacc_attr_endian_flags ==
1146 			    DDI_STRUCTURE_BE_ACC) {
1147 				switch (size) {
1148 				case sizeof (uint8_t):
1149 					i_ddi_io_put8(hp,
1150 					    (uint8_t *)dev_addr,
1151 					    *(uint8_t *)host_addr);
1152 					break;
1153 				case sizeof (uint16_t):
1154 					i_ddi_io_swap_put16(hp,
1155 					    (uint16_t *)dev_addr,
1156 					    *(uint16_t *)host_addr);
1157 					break;
1158 				case sizeof (uint32_t):
1159 					i_ddi_io_swap_put32(hp,
1160 					    (uint32_t *)dev_addr,
1161 					    *(uint32_t *)host_addr);
1162 					break;
1163 				/*
1164 				 * note the 64-bit case is a dummy
1165 				 * function - so no need to swap
1166 				 */
1167 				case sizeof (uint64_t):
1168 					i_ddi_io_put64(hp,
1169 					    (uint64_t *)dev_addr,
1170 					    *(uint64_t *)host_addr);
1171 					break;
1172 				default:
1173 					err = DDI_FAILURE;
1174 					break;
1175 				}
1176 			} else {
1177 				switch (size) {
1178 				case sizeof (uint8_t):
1179 					i_ddi_io_put8(hp,
1180 					    (uint8_t *)dev_addr,
1181 					    *(uint8_t *)host_addr);
1182 					break;
1183 				case sizeof (uint16_t):
1184 					i_ddi_io_put16(hp,
1185 					    (uint16_t *)dev_addr,
1186 					    *(uint16_t *)host_addr);
1187 					break;
1188 				case sizeof (uint32_t):
1189 					i_ddi_io_put32(hp,
1190 					    (uint32_t *)dev_addr,
1191 					    *(uint32_t *)host_addr);
1192 					break;
1193 				case sizeof (uint64_t):
1194 					i_ddi_io_put64(hp,
1195 					    (uint64_t *)dev_addr,
1196 					    *(uint64_t *)host_addr);
1197 					break;
1198 				default:
1199 					err = DDI_FAILURE;
1200 					break;
1201 				}
1202 			}
1203 		} else {
1204 			if (hdlp->ah_acc.devacc_attr_endian_flags ==
1205 			    DDI_STRUCTURE_BE_ACC) {
1206 				switch (size) {
1207 				case sizeof (uint8_t):
1208 					*(uint8_t *)dev_addr =
1209 					    *(uint8_t *)host_addr;
1210 					break;
1211 				case sizeof (uint16_t):
1212 					*(uint16_t *)dev_addr =
1213 					    ddi_swap16(*(uint16_t *)host_addr);
1214 					break;
1215 				case sizeof (uint32_t):
1216 					*(uint32_t *)dev_addr =
1217 					    ddi_swap32(*(uint32_t *)host_addr);
1218 					break;
1219 				case sizeof (uint64_t):
1220 					*(uint64_t *)dev_addr =
1221 					    ddi_swap64(*(uint64_t *)host_addr);
1222 					break;
1223 				default:
1224 					err = DDI_FAILURE;
1225 					break;
1226 				}
1227 			} else {
1228 				switch (size) {
1229 				case sizeof (uint8_t):
1230 					*(uint8_t *)dev_addr =
1231 					    *(uint8_t *)host_addr;
1232 					break;
1233 				case sizeof (uint16_t):
1234 					*(uint16_t *)dev_addr =
1235 					    *(uint16_t *)host_addr;
1236 					break;
1237 				case sizeof (uint32_t):
1238 					*(uint32_t *)dev_addr =
1239 					    *(uint32_t *)host_addr;
1240 					break;
1241 				case sizeof (uint64_t):
1242 					*(uint64_t *)dev_addr =
1243 					    *(uint64_t *)host_addr;
1244 					break;
1245 				default:
1246 					err = DDI_FAILURE;
1247 					break;
1248 				}
1249 			}
1250 		}
1251 		host_addr += size;
1252 		if (flags == DDI_DEV_AUTOINCR)
1253 			dev_addr += size;
1254 	}
1255 	return (err);
1256 }
1257 
1258 
1259 int
1260 pci_fm_acc_setup(ddi_acc_hdl_t *hp, off_t offset, off_t len)
1261 {
1262 	ddi_acc_impl_t	*ap = (ddi_acc_impl_t *)hp->ah_platform_private;
1263 
1264 	/* endian-ness check */
1265 	if (hp->ah_acc.devacc_attr_endian_flags == DDI_STRUCTURE_BE_ACC)
1266 		return (DDI_FAILURE);
1267 
1268 	/*
1269 	 * range check
1270 	 */
1271 	if ((offset >= PCI_CONF_HDR_SIZE) ||
1272 	    (len > PCI_CONF_HDR_SIZE) ||
1273 	    (offset + len > PCI_CONF_HDR_SIZE))
1274 		return (DDI_FAILURE);
1275 
1276 	ap->ahi_acc_attr |= DDI_ACCATTR_CONFIG_SPACE;
1277 	/*
1278 	 * always use cautious mechanism for config space gets
1279 	 */
1280 	ap->ahi_get8 = i_ddi_caut_get8;
1281 	ap->ahi_get16 = i_ddi_caut_get16;
1282 	ap->ahi_get32 = i_ddi_caut_get32;
1283 	ap->ahi_get64 = i_ddi_caut_get64;
1284 	ap->ahi_rep_get8 = i_ddi_caut_rep_get8;
1285 	ap->ahi_rep_get16 = i_ddi_caut_rep_get16;
1286 	ap->ahi_rep_get32 = i_ddi_caut_rep_get32;
1287 	ap->ahi_rep_get64 = i_ddi_caut_rep_get64;
1288 	if (hp->ah_acc.devacc_attr_access == DDI_CAUTIOUS_ACC) {
1289 		ap->ahi_put8 = i_ddi_caut_put8;
1290 		ap->ahi_put16 = i_ddi_caut_put16;
1291 		ap->ahi_put32 = i_ddi_caut_put32;
1292 		ap->ahi_put64 = i_ddi_caut_put64;
1293 		ap->ahi_rep_put8 = i_ddi_caut_rep_put8;
1294 		ap->ahi_rep_put16 = i_ddi_caut_rep_put16;
1295 		ap->ahi_rep_put32 = i_ddi_caut_rep_put32;
1296 		ap->ahi_rep_put64 = i_ddi_caut_rep_put64;
1297 	} else {
1298 		ap->ahi_put8 = pci_config_wr8;
1299 		ap->ahi_put16 = pci_config_wr16;
1300 		ap->ahi_put32 = pci_config_wr32;
1301 		ap->ahi_put64 = pci_config_wr64;
1302 		ap->ahi_rep_put8 = pci_config_rep_wr8;
1303 		ap->ahi_rep_put16 = pci_config_rep_wr16;
1304 		ap->ahi_rep_put32 = pci_config_rep_wr32;
1305 		ap->ahi_rep_put64 = pci_config_rep_wr64;
1306 	}
1307 
1308 	/* Initialize to default check/notify functions */
1309 	ap->ahi_fault_check = i_ddi_acc_fault_check;
1310 	ap->ahi_fault_notify = i_ddi_acc_fault_notify;
1311 	ap->ahi_fault = 0;
1312 	impl_acc_err_init(hp);
1313 	return (DDI_SUCCESS);
1314 }
1315 
1316 
1317 int
1318 pci_common_ctlops_peek(peekpoke_ctlops_t *in_args)
1319 {
1320 	size_t size = in_args->size;
1321 	uintptr_t dev_addr = in_args->dev_addr;
1322 	uintptr_t host_addr = in_args->host_addr;
1323 	ddi_acc_impl_t *hp = (ddi_acc_impl_t *)in_args->handle;
1324 	ddi_acc_hdl_t *hdlp = (ddi_acc_hdl_t *)in_args->handle;
1325 	size_t repcount = in_args->repcount;
1326 	uint_t flags = in_args->flags;
1327 	int err = DDI_SUCCESS;
1328 
1329 	/*
1330 	 * if no handle then this is a peek. We have to return failure here
1331 	 * as we have no way of knowing whether this is a MEM or IO space access
1332 	 */
1333 	if (in_args->handle == NULL)
1334 		return (DDI_FAILURE);
1335 
1336 	for (; repcount; repcount--) {
1337 		if (hp->ahi_acc_attr == DDI_ACCATTR_CONFIG_SPACE) {
1338 			switch (size) {
1339 			case sizeof (uint8_t):
1340 				*(uint8_t *)host_addr = pci_config_rd8(hp,
1341 				    (uint8_t *)dev_addr);
1342 				break;
1343 			case sizeof (uint16_t):
1344 				*(uint16_t *)host_addr = pci_config_rd16(hp,
1345 				    (uint16_t *)dev_addr);
1346 				break;
1347 			case sizeof (uint32_t):
1348 				*(uint32_t *)host_addr = pci_config_rd32(hp,
1349 				    (uint32_t *)dev_addr);
1350 				break;
1351 			case sizeof (uint64_t):
1352 				*(uint64_t *)host_addr = pci_config_rd64(hp,
1353 				    (uint64_t *)dev_addr);
1354 				break;
1355 			default:
1356 				err = DDI_FAILURE;
1357 				break;
1358 			}
1359 		} else if (hp->ahi_acc_attr & DDI_ACCATTR_IO_SPACE) {
1360 			if (hdlp->ah_acc.devacc_attr_endian_flags ==
1361 			    DDI_STRUCTURE_BE_ACC) {
1362 				switch (size) {
1363 				case sizeof (uint8_t):
1364 					*(uint8_t *)host_addr =
1365 					    i_ddi_io_get8(hp,
1366 					    (uint8_t *)dev_addr);
1367 					break;
1368 				case sizeof (uint16_t):
1369 					*(uint16_t *)host_addr =
1370 					    i_ddi_io_swap_get16(hp,
1371 					    (uint16_t *)dev_addr);
1372 					break;
1373 				case sizeof (uint32_t):
1374 					*(uint32_t *)host_addr =
1375 					    i_ddi_io_swap_get32(hp,
1376 					    (uint32_t *)dev_addr);
1377 					break;
1378 				/*
1379 				 * note the 64-bit case is a dummy
1380 				 * function - so no need to swap
1381 				 */
1382 				case sizeof (uint64_t):
1383 					*(uint64_t *)host_addr =
1384 					    i_ddi_io_get64(hp,
1385 					    (uint64_t *)dev_addr);
1386 					break;
1387 				default:
1388 					err = DDI_FAILURE;
1389 					break;
1390 				}
1391 			} else {
1392 				switch (size) {
1393 				case sizeof (uint8_t):
1394 					*(uint8_t *)host_addr =
1395 					    i_ddi_io_get8(hp,
1396 					    (uint8_t *)dev_addr);
1397 					break;
1398 				case sizeof (uint16_t):
1399 					*(uint16_t *)host_addr =
1400 					    i_ddi_io_get16(hp,
1401 					    (uint16_t *)dev_addr);
1402 					break;
1403 				case sizeof (uint32_t):
1404 					*(uint32_t *)host_addr =
1405 					    i_ddi_io_get32(hp,
1406 					    (uint32_t *)dev_addr);
1407 					break;
1408 				case sizeof (uint64_t):
1409 					*(uint64_t *)host_addr =
1410 					    i_ddi_io_get64(hp,
1411 					    (uint64_t *)dev_addr);
1412 					break;
1413 				default:
1414 					err = DDI_FAILURE;
1415 					break;
1416 				}
1417 			}
1418 		} else {
1419 			if (hdlp->ah_acc.devacc_attr_endian_flags ==
1420 			    DDI_STRUCTURE_BE_ACC) {
1421 				switch (in_args->size) {
1422 				case sizeof (uint8_t):
1423 					*(uint8_t *)host_addr =
1424 					    *(uint8_t *)dev_addr;
1425 					break;
1426 				case sizeof (uint16_t):
1427 					*(uint16_t *)host_addr =
1428 					    ddi_swap16(*(uint16_t *)dev_addr);
1429 					break;
1430 				case sizeof (uint32_t):
1431 					*(uint32_t *)host_addr =
1432 					    ddi_swap32(*(uint32_t *)dev_addr);
1433 					break;
1434 				case sizeof (uint64_t):
1435 					*(uint64_t *)host_addr =
1436 					    ddi_swap64(*(uint64_t *)dev_addr);
1437 					break;
1438 				default:
1439 					err = DDI_FAILURE;
1440 					break;
1441 				}
1442 			} else {
1443 				switch (in_args->size) {
1444 				case sizeof (uint8_t):
1445 					*(uint8_t *)host_addr =
1446 					    *(uint8_t *)dev_addr;
1447 					break;
1448 				case sizeof (uint16_t):
1449 					*(uint16_t *)host_addr =
1450 					    *(uint16_t *)dev_addr;
1451 					break;
1452 				case sizeof (uint32_t):
1453 					*(uint32_t *)host_addr =
1454 					    *(uint32_t *)dev_addr;
1455 					break;
1456 				case sizeof (uint64_t):
1457 					*(uint64_t *)host_addr =
1458 					    *(uint64_t *)dev_addr;
1459 					break;
1460 				default:
1461 					err = DDI_FAILURE;
1462 					break;
1463 				}
1464 			}
1465 		}
1466 		host_addr += size;
1467 		if (flags == DDI_DEV_AUTOINCR)
1468 			dev_addr += size;
1469 	}
1470 	return (err);
1471 }
1472 
1473 /*ARGSUSED*/
1474 int
1475 pci_common_peekpoke(dev_info_t *dip, dev_info_t *rdip,
1476 	ddi_ctl_enum_t ctlop, void *arg, void *result)
1477 {
1478 	if (ctlop == DDI_CTLOPS_PEEK)
1479 		return (pci_common_ctlops_peek((peekpoke_ctlops_t *)arg));
1480 	else
1481 		return (pci_common_ctlops_poke((peekpoke_ctlops_t *)arg));
1482 }
1483 
1484 /*
1485  * These are the get and put functions to be shared with drivers. The
1486  * mutex locking is done inside the functions referenced, rather than
1487  * here, and is thus shared across PCI child drivers and any other
1488  * consumers of PCI config space (such as the ACPI subsystem).
1489  *
1490  * The configuration space addresses come in as pointers.  This is fine on
1491  * a 32-bit system, where the VM space and configuration space are the same
1492  * size.  It's not such a good idea on a 64-bit system, where memory
1493  * addresses are twice as large as configuration space addresses.  At some
1494  * point in the call tree we need to take a stand and say "you are 32-bit
1495  * from this time forth", and this seems like a nice self-contained place.
1496  */
1497 
1498 uint8_t
1499 pci_config_rd8(ddi_acc_impl_t *hdlp, uint8_t *addr)
1500 {
1501 	pci_acc_cfblk_t *cfp;
1502 	uint8_t	rval;
1503 	int reg;
1504 
1505 	ASSERT64(((uintptr_t)addr >> 32) == 0);
1506 
1507 	reg = (int)(uintptr_t)addr;
1508 
1509 	cfp = (pci_acc_cfblk_t *)&hdlp->ahi_common.ah_bus_private;
1510 
1511 	rval = (*pci_getb_func)(cfp->c_busnum, cfp->c_devnum, cfp->c_funcnum,
1512 	    reg);
1513 
1514 	return (rval);
1515 }
1516 
1517 void
1518 pci_config_rep_rd8(ddi_acc_impl_t *hdlp, uint8_t *host_addr,
1519 	uint8_t *dev_addr, size_t repcount, uint_t flags)
1520 {
1521 	uint8_t *h, *d;
1522 
1523 	h = host_addr;
1524 	d = dev_addr;
1525 
1526 	if (flags == DDI_DEV_AUTOINCR)
1527 		for (; repcount; repcount--)
1528 			*h++ = pci_config_rd8(hdlp, d++);
1529 	else
1530 		for (; repcount; repcount--)
1531 			*h++ = pci_config_rd8(hdlp, d);
1532 }
1533 
1534 uint16_t
1535 pci_config_rd16(ddi_acc_impl_t *hdlp, uint16_t *addr)
1536 {
1537 	pci_acc_cfblk_t *cfp;
1538 	uint16_t rval;
1539 	int reg;
1540 
1541 	ASSERT64(((uintptr_t)addr >> 32) == 0);
1542 
1543 	reg = (int)(uintptr_t)addr;
1544 
1545 	cfp = (pci_acc_cfblk_t *)&hdlp->ahi_common.ah_bus_private;
1546 
1547 	rval = (*pci_getw_func)(cfp->c_busnum, cfp->c_devnum, cfp->c_funcnum,
1548 	    reg);
1549 
1550 	return (rval);
1551 }
1552 
1553 void
1554 pci_config_rep_rd16(ddi_acc_impl_t *hdlp, uint16_t *host_addr,
1555 	uint16_t *dev_addr, size_t repcount, uint_t flags)
1556 {
1557 	uint16_t *h, *d;
1558 
1559 	h = host_addr;
1560 	d = dev_addr;
1561 
1562 	if (flags == DDI_DEV_AUTOINCR)
1563 		for (; repcount; repcount--)
1564 			*h++ = pci_config_rd16(hdlp, d++);
1565 	else
1566 		for (; repcount; repcount--)
1567 			*h++ = pci_config_rd16(hdlp, d);
1568 }
1569 
1570 uint32_t
1571 pci_config_rd32(ddi_acc_impl_t *hdlp, uint32_t *addr)
1572 {
1573 	pci_acc_cfblk_t *cfp;
1574 	uint32_t rval;
1575 	int reg;
1576 
1577 	ASSERT64(((uintptr_t)addr >> 32) == 0);
1578 
1579 	reg = (int)(uintptr_t)addr;
1580 
1581 	cfp = (pci_acc_cfblk_t *)&hdlp->ahi_common.ah_bus_private;
1582 
1583 	rval = (*pci_getl_func)(cfp->c_busnum, cfp->c_devnum,
1584 	    cfp->c_funcnum, reg);
1585 
1586 	return (rval);
1587 }
1588 
1589 void
1590 pci_config_rep_rd32(ddi_acc_impl_t *hdlp, uint32_t *host_addr,
1591 	uint32_t *dev_addr, size_t repcount, uint_t flags)
1592 {
1593 	uint32_t *h, *d;
1594 
1595 	h = host_addr;
1596 	d = dev_addr;
1597 
1598 	if (flags == DDI_DEV_AUTOINCR)
1599 		for (; repcount; repcount--)
1600 			*h++ = pci_config_rd32(hdlp, d++);
1601 	else
1602 		for (; repcount; repcount--)
1603 			*h++ = pci_config_rd32(hdlp, d);
1604 }
1605 
1606 
1607 void
1608 pci_config_wr8(ddi_acc_impl_t *hdlp, uint8_t *addr, uint8_t value)
1609 {
1610 	pci_acc_cfblk_t *cfp;
1611 	int reg;
1612 
1613 	ASSERT64(((uintptr_t)addr >> 32) == 0);
1614 
1615 	reg = (int)(uintptr_t)addr;
1616 
1617 	cfp = (pci_acc_cfblk_t *)&hdlp->ahi_common.ah_bus_private;
1618 
1619 	(*pci_putb_func)(cfp->c_busnum, cfp->c_devnum,
1620 	    cfp->c_funcnum, reg, value);
1621 }
1622 
1623 void
1624 pci_config_rep_wr8(ddi_acc_impl_t *hdlp, uint8_t *host_addr,
1625 	uint8_t *dev_addr, size_t repcount, uint_t flags)
1626 {
1627 	uint8_t *h, *d;
1628 
1629 	h = host_addr;
1630 	d = dev_addr;
1631 
1632 	if (flags == DDI_DEV_AUTOINCR)
1633 		for (; repcount; repcount--)
1634 			pci_config_wr8(hdlp, d++, *h++);
1635 	else
1636 		for (; repcount; repcount--)
1637 			pci_config_wr8(hdlp, d, *h++);
1638 }
1639 
1640 void
1641 pci_config_wr16(ddi_acc_impl_t *hdlp, uint16_t *addr, uint16_t value)
1642 {
1643 	pci_acc_cfblk_t *cfp;
1644 	int reg;
1645 
1646 	ASSERT64(((uintptr_t)addr >> 32) == 0);
1647 
1648 	reg = (int)(uintptr_t)addr;
1649 
1650 	cfp = (pci_acc_cfblk_t *)&hdlp->ahi_common.ah_bus_private;
1651 
1652 	(*pci_putw_func)(cfp->c_busnum, cfp->c_devnum,
1653 	    cfp->c_funcnum, reg, value);
1654 }
1655 
1656 void
1657 pci_config_rep_wr16(ddi_acc_impl_t *hdlp, uint16_t *host_addr,
1658 	uint16_t *dev_addr, size_t repcount, uint_t flags)
1659 {
1660 	uint16_t *h, *d;
1661 
1662 	h = host_addr;
1663 	d = dev_addr;
1664 
1665 	if (flags == DDI_DEV_AUTOINCR)
1666 		for (; repcount; repcount--)
1667 			pci_config_wr16(hdlp, d++, *h++);
1668 	else
1669 		for (; repcount; repcount--)
1670 			pci_config_wr16(hdlp, d, *h++);
1671 }
1672 
1673 void
1674 pci_config_wr32(ddi_acc_impl_t *hdlp, uint32_t *addr, uint32_t value)
1675 {
1676 	pci_acc_cfblk_t *cfp;
1677 	int reg;
1678 
1679 	ASSERT64(((uintptr_t)addr >> 32) == 0);
1680 
1681 	reg = (int)(uintptr_t)addr;
1682 
1683 	cfp = (pci_acc_cfblk_t *)&hdlp->ahi_common.ah_bus_private;
1684 
1685 	(*pci_putl_func)(cfp->c_busnum, cfp->c_devnum,
1686 	    cfp->c_funcnum, reg, value);
1687 }
1688 
1689 void
1690 pci_config_rep_wr32(ddi_acc_impl_t *hdlp, uint32_t *host_addr,
1691 	uint32_t *dev_addr, size_t repcount, uint_t flags)
1692 {
1693 	uint32_t *h, *d;
1694 
1695 	h = host_addr;
1696 	d = dev_addr;
1697 
1698 	if (flags == DDI_DEV_AUTOINCR)
1699 		for (; repcount; repcount--)
1700 			pci_config_wr32(hdlp, d++, *h++);
1701 	else
1702 		for (; repcount; repcount--)
1703 			pci_config_wr32(hdlp, d, *h++);
1704 }
1705 
1706 uint64_t
1707 pci_config_rd64(ddi_acc_impl_t *hdlp, uint64_t *addr)
1708 {
1709 	uint32_t lw_val;
1710 	uint32_t hi_val;
1711 	uint32_t *dp;
1712 	uint64_t val;
1713 
1714 	dp = (uint32_t *)addr;
1715 	lw_val = pci_config_rd32(hdlp, dp);
1716 	dp++;
1717 	hi_val = pci_config_rd32(hdlp, dp);
1718 	val = ((uint64_t)hi_val << 32) | lw_val;
1719 	return (val);
1720 }
1721 
1722 void
1723 pci_config_wr64(ddi_acc_impl_t *hdlp, uint64_t *addr, uint64_t value)
1724 {
1725 	uint32_t lw_val;
1726 	uint32_t hi_val;
1727 	uint32_t *dp;
1728 
1729 	dp = (uint32_t *)addr;
1730 	lw_val = (uint32_t)(value & 0xffffffff);
1731 	hi_val = (uint32_t)(value >> 32);
1732 	pci_config_wr32(hdlp, dp, lw_val);
1733 	dp++;
1734 	pci_config_wr32(hdlp, dp, hi_val);
1735 }
1736 
1737 void
1738 pci_config_rep_rd64(ddi_acc_impl_t *hdlp, uint64_t *host_addr,
1739 	uint64_t *dev_addr, size_t repcount, uint_t flags)
1740 {
1741 	if (flags == DDI_DEV_AUTOINCR) {
1742 		for (; repcount; repcount--)
1743 			*host_addr++ = pci_config_rd64(hdlp, dev_addr++);
1744 	} else {
1745 		for (; repcount; repcount--)
1746 			*host_addr++ = pci_config_rd64(hdlp, dev_addr);
1747 	}
1748 }
1749 
1750 void
1751 pci_config_rep_wr64(ddi_acc_impl_t *hdlp, uint64_t *host_addr,
1752 	uint64_t *dev_addr, size_t repcount, uint_t flags)
1753 {
1754 	if (flags == DDI_DEV_AUTOINCR) {
1755 		for (; repcount; repcount--)
1756 			pci_config_wr64(hdlp, host_addr++, *dev_addr++);
1757 	} else {
1758 		for (; repcount; repcount--)
1759 			pci_config_wr64(hdlp, host_addr++, *dev_addr);
1760 	}
1761 }
1762