xref: /titanic_44/usr/src/uts/intel/io/pciex/pcieb_x86.c (revision a4aeef46cda1835da2b19f8f62b4526de6521e6c)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 /* x86 specific code used by the pcieb driver */
27 
28 #include <sys/types.h>
29 #include <sys/ddi.h>
30 #include <sys/kmem.h>
31 #include <sys/sysmacros.h>
32 #include <sys/sunddi.h>
33 #include <sys/sunndi.h>
34 #include <sys/pcie.h>
35 #include <sys/pci_cap.h>
36 #include <sys/pcie_impl.h>
37 #include <sys/pcie_acpi.h>
38 #include <sys/hotplug/hpctrl.h>
39 #include <io/pciex/pcieb.h>
40 #include <io/pciex/pcie_nb5000.h>
41 
42 /* Flag to turn off intel error handling workarounds */
43 int pcieb_intel_workaround_disable = 0;
44 
45 void
46 pcieb_peekpoke_cb(dev_info_t *dip, ddi_fm_error_t *derr) {
47 	pf_eh_enter(PCIE_DIP2BUS(dip));
48 	(void) pf_scan_fabric(dip, derr, NULL);
49 	pf_eh_exit(PCIE_DIP2BUS(dip));
50 }
51 
52 void
53 pcieb_set_prot_scan(dev_info_t *dip, ddi_acc_impl_t *hdlp)
54 {
55 	pcieb_devstate_t *pcieb = ddi_get_soft_state(pcieb_state,
56 	    ddi_get_instance(dip));
57 
58 	hdlp->ahi_err_mutexp = &pcieb->pcieb_err_mutex;
59 	hdlp->ahi_peekpoke_mutexp = &pcieb->pcieb_peek_poke_mutex;
60 	hdlp->ahi_scan_dip = dip;
61 	hdlp->ahi_scan = pcieb_peekpoke_cb;
62 }
63 
64 int
65 pcieb_plat_peekpoke(dev_info_t *dip, dev_info_t *rdip, ddi_ctl_enum_t ctlop,
66     void *arg, void *result)
67 {
68 	pcieb_devstate_t *pcieb = ddi_get_soft_state(pcieb_state,
69 	    ddi_get_instance(dip));
70 
71 	if (!PCIE_IS_RP(PCIE_DIP2BUS(dip)))
72 		return (ddi_ctlops(dip, rdip, ctlop, arg, result));
73 
74 	return (pci_peekpoke_check(dip, rdip, ctlop, arg, result,
75 	    ddi_ctlops, &pcieb->pcieb_err_mutex,
76 	    &pcieb->pcieb_peek_poke_mutex,
77 	    pcieb_peekpoke_cb));
78 }
79 
80 /* x86 specific workarounds needed at the end of pcieb attach */
81 void
82 pcieb_plat_attach_workaround(dev_info_t *dip)
83 {
84 	/* Must apply workaround only after all initialization is done */
85 	pcieb_intel_error_workaround(dip);
86 	pcieb_intel_mps_workaround(dip);
87 
88 }
89 
90 /* Workarounds to enable error handling on certain Intel chipsets */
91 void
92 pcieb_intel_error_workaround(dev_info_t *dip)
93 {
94 	pcieb_devstate_t *pcieb = ddi_get_soft_state(pcieb_state,
95 	    ddi_get_instance(dip));
96 
97 	pcieb_intel_serr_workaround(dip, pcieb->pcieb_no_aer_msi);
98 	pcieb_intel_rber_workaround(dip);
99 	pcieb_intel_sw_workaround(dip);
100 }
101 
102 int
103 pcieb_plat_intr_ops(dev_info_t *dip, dev_info_t *rdip, ddi_intr_op_t intr_op,
104     ddi_intr_handle_impl_t *hdlp, void *result)
105 {
106 	return (i_ddi_intr_ops(dip, rdip, intr_op, hdlp, result));
107 }
108 
109 /* shpc is not supported on x86 */
110 /*ARGSUSED*/
111 int
112 pcieb_plat_pcishpc_probe(dev_info_t *dip, ddi_acc_handle_t config_handle)
113 {
114 	return (DDI_FAILURE);
115 }
116 
117 /*
118  * Dummy functions to get around the fact that there's no shpc module on x86
119  * today
120  */
121 /*ARGSUSED*/
122 int
123 pcishpc_init(dev_info_t *dip)
124 {
125 	return (DDI_FAILURE);
126 }
127 
128 /*ARGSUSED*/
129 int
130 pcishpc_uninit(dev_info_t *dip)
131 {
132 	return (DDI_FAILURE);
133 }
134 
135 /*ARGSUSED*/
136 int
137 pcishpc_intr(dev_info_t *dip)
138 {
139 	return (DDI_INTR_UNCLAIMED);
140 }
141 
142 /*ARGSUSED*/
143 boolean_t
144 pcieb_plat_pwr_disable(dev_info_t *dip)
145 {
146 	/* Always disable on x86 */
147 	return (B_TRUE);
148 }
149 
150 boolean_t
151 pcieb_plat_msi_supported(dev_info_t *dip)
152 {
153 	pcie_bus_t *bus_p = PCIE_DIP2UPBUS(dip);
154 	uint16_t vendor_id, device_id;
155 	vendor_id = bus_p->bus_dev_ven_id & 0xFFFF;
156 	device_id = bus_p->bus_dev_ven_id >> 16;
157 
158 	/*
159 	 * Intel ESB2 switches have a errata which prevents using MSIs
160 	 * for hotplug.
161 	 */
162 	return (((vendor_id == INTEL_VENDOR_ID) &&
163 	    INTEL_ESB2_SW_PCIE_DEV_ID(device_id)) ? B_FALSE : B_TRUE);
164 }
165 
166 void
167 pcieb_plat_intr_attach(pcieb_devstate_t *pcieb)
168 {
169 	/*
170 	 *  _OSC initialization needs to be done before interrupts are
171 	 *  initialized.
172 	 */
173 	pcieb_init_osc(pcieb->pcieb_dip);
174 }
175 
176 void
177 pcieb_plat_initchild(dev_info_t *child)
178 {
179 	struct ddi_parent_private_data *pdptr;
180 	if (ddi_getprop(DDI_DEV_T_NONE, child, DDI_PROP_DONTPASS, "interrupts",
181 	    -1) != -1) {
182 		pdptr = kmem_zalloc((sizeof (struct ddi_parent_private_data) +
183 		    sizeof (struct intrspec)), KM_SLEEP);
184 		pdptr->par_intr = (struct intrspec *)(pdptr + 1);
185 		pdptr->par_nintr = 1;
186 		ddi_set_parent_data(child, pdptr);
187 	} else
188 		ddi_set_parent_data(child, NULL);
189 }
190 
191 void
192 pcieb_plat_uninitchild(dev_info_t *child)
193 {
194 	struct ddi_parent_private_data	*pdptr;
195 
196 	if ((pdptr = ddi_get_parent_data(child)) != NULL)
197 		kmem_free(pdptr, (sizeof (*pdptr) + sizeof (struct intrspec)));
198 
199 	ddi_set_parent_data(child, NULL);
200 }
201 
202 /* _OSC related */
203 void
204 pcieb_init_osc(dev_info_t *devi) {
205 	pcie_bus_t	*bus_p = PCIE_DIP2UPBUS(devi);
206 	uint32_t	osc_flags = OSC_CONTROL_PCIE_ADV_ERR;
207 
208 	/*
209 	 * Call _OSC method for 2 reasons:
210 	 * 1. Hotplug: To determine if it is native or ACPI mode.
211 	 *
212 	 * 2. Error handling: Inform firmware that OS can support AER error
213 	 * handling. Currently we don't care for what the BIOS response was
214 	 * and instead setup interrupts for error handling as if it were
215 	 * supported.
216 	 *
217 	 * For hotpluggable slots the _OSC method has already been called as
218 	 * part of the hotplug initialization.
219 	 * For non-hotpluggable slots we need to call the _OSC method only for
220 	 * Root Ports (for AER support).
221 	 */
222 	if (!pcie_is_osc(devi) && PCIE_IS_RP(bus_p) && PCIE_HAS_AER(bus_p))
223 		(void) pcie_acpi_osc(devi, &osc_flags);
224 }
225 
226 /*
227  * Intel chip specific workarounds. Right now they're limited to the 5000, 5400
228  * and 7300 series chipsets.
229  */
230 typedef struct x86_error_reg {
231 	uint32_t	offset;
232 	uint_t		size;
233 	uint32_t	mask;
234 	uint32_t	value1;	/* Value for MSI case */
235 	uint32_t	value2; /* Value for machinecheck case */
236 } x86_error_reg_t;
237 
238 typedef struct x86_error_tbl {
239 	uint16_t	vendor_id;
240 	uint16_t	device_id_low;
241 	uint16_t	device_id_high;
242 	uint8_t		rev_id_low;
243 	uint8_t		rev_id_high;
244 	x86_error_reg_t	*error_regs;
245 	int		error_regs_len;
246 } x86_error_tbl_t;
247 
248 /*
249  * Chipset and device specific settings that are required for error handling
250  * (reporting, fowarding, and response at the RC) beyond the standard
251  * registers in the PCIE and AER caps.
252  *
253  * The Northbridge Root Port settings also apply to the ESI port.  The ESI
254  * port is a special leaf device but functions like a root port connected
255  * to the Southbridge and receives all the onboard Southbridge errors
256  * including those from Southbridge Root Ports.  However, this does not
257  * include the Southbridge Switch Ports which act like normal switch ports
258  * and is connected to the Northbridge through a separate link.
259  *
260  * PCIE errors from the ESB2 Southbridge RPs are simply fowarded to the ESI
261  * port on the Northbridge.
262  *
263  * If MSIs don't work we want UEs (Fatal and Non-Fatal) to panic the system,
264  * except for URs.  We do this by having the Root Ports respond with a System
265  * Error and having that trigger a Machine Check (MCE).
266  */
267 
268 /*
269  * 7300 Northbridge Root Ports
270  */
271 static x86_error_reg_t intel_7300_rp_regs[] = {
272 	/* Command Register - Enable SERR */
273 	{0x4,   16, 0xFFFF,	0x0,	PCI_COMM_SERR_ENABLE},
274 
275 	/* Root Control Register - SERR on NFE/FE */
276 	{0x88,  16, 0x0,	0x0,	PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
277 					PCIE_ROOTCTL_SYS_ERR_ON_FE_EN},
278 
279 	/* AER UE Mask - Mask UR */
280 	{0x108, 32, 0x0, PCIE_AER_UCE_UR, PCIE_AER_UCE_UR},
281 
282 	/* PEXCTRL[21] check for certain malformed TLP types and MSI enable */
283 	{0x48,	32, 0xFFFFFFFF, 0xC0200000, 0x200000},
284 	/* PEXCTRL3[7]. MSI RAS error enable */
285 	{0x4D,	32, 0xFFFFFFFF, 0x1, 0x0},
286 
287 	/* PEX_ERR_DOCMD[7:0] */
288 	{0x144,	8,  0x0,	0x0,	0xF0},
289 
290 	/* EMASK_UNCOR_PEX[21:0] UE mask */
291 	{0x148,	32, 0x0, PCIE_AER_UCE_UR, PCIE_AER_UCE_UR},
292 
293 	/* EMASK_RP_PEX[2:0] FE, UE, CE message detect mask */
294 	{0x150,	8,  0x0,	0x0,	0x1},
295 };
296 #define	INTEL_7300_RP_REGS_LEN \
297 	(sizeof (intel_7300_rp_regs) / sizeof (x86_error_reg_t))
298 
299 /*
300  * 5000 Northbridge Root Ports
301  */
302 static x86_error_reg_t intel_5000_rp_regs[] = {
303 	/* Command Register - Enable SERR */
304 	{0x4,   16, 0xFFFF,	PCI_COMM_SERR_ENABLE,	PCI_COMM_SERR_ENABLE},
305 
306 	/* Root Control Register - SERR on NFE/FE/CE */
307 	{0x88,  16, 0x0,	PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
308 				PCIE_ROOTCTL_SYS_ERR_ON_FE_EN |
309 				PCIE_ROOTCTL_SYS_ERR_ON_CE_EN,
310 				PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
311 				PCIE_ROOTCTL_SYS_ERR_ON_FE_EN},
312 
313 	/* AER UE Mask - Mask UR */
314 	{0x108, 32, 0x0,	PCIE_AER_UCE_UR,	PCIE_AER_UCE_UR},
315 
316 	/* PEXCTRL[21] check for certain malformed TLP type */
317 	{0x48,	32, 0xFFFFFFFF, 0xC0200000, 0x200000},
318 	/* PEXCTRL3[7]. MSI RAS error enable. */
319 	{0x4D,	32, 0xFFFFFFFF,	0x1,	0x0},
320 
321 	/* PEX_ERR_DOCMD[7:0] */
322 	{0x144,	8,  0x0,	0x0,	0xF0},
323 
324 	/* EMASK_UNCOR_PEX[21:0] UE mask */
325 	{0x148,	32, 0x0, 	PCIE_AER_UCE_UR,	PCIE_AER_UCE_UR},
326 
327 	/* EMASK_RP_PEX[2:0] FE, UE, CE message detect mask */
328 	{0x150,	8,  0x0, 	0x0,	0x1},
329 };
330 #define	INTEL_5000_RP_REGS_LEN \
331 	(sizeof (intel_5000_rp_regs) / sizeof (x86_error_reg_t))
332 
333 /*
334  * 5400 Northbridge Root Ports.
335  */
336 static x86_error_reg_t intel_5400_rp_regs[] = {
337 	/* Command Register - Enable SERR */
338 	{0x4,   16, 0xFFFF,	PCI_COMM_SERR_ENABLE, PCI_COMM_SERR_ENABLE},
339 
340 	/* Root Control Register - SERR on NFE/FE */
341 	{0x88,  16, 0x0, PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
342 			    PCIE_ROOTCTL_SYS_ERR_ON_FE_EN |
343 			    PCIE_ROOTCTL_SYS_ERR_ON_CE_EN,
344 			    PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
345 			    PCIE_ROOTCTL_SYS_ERR_ON_FE_EN},
346 
347 	/* AER UE Mask - Mask UR */
348 	{0x108, 32, 0x0,	PCIE_AER_UCE_UR,	PCIE_AER_UCE_UR},
349 
350 	/* PEXCTRL[21] check for certain malformed TLP types */
351 	{0x48,	32, 0xFFFFFFFF,	0xC0200000, 0x200000},
352 	/* PEXCTRL3. MSI RAS error enable. */
353 	{0x4E,	8, 0x0,	0x1,	0x0},
354 
355 	/* PEX_ERR_DOCMD[11:0] */
356 	{0x144,	16,  0x0, 	0x0,	0xFF0},
357 
358 	/* PEX_ERR_PIN_MASK[4:0] do not mask ERR[2:0] pins used by DOCMD */
359 	{0x146,	16,  0x0,	0x10,	0x10},
360 
361 	/* EMASK_UNCOR_PEX[21:0] UE mask */
362 	{0x148,	32, 0x0, 	PCIE_AER_UCE_UR,	PCIE_AER_UCE_UR},
363 
364 	/* EMASK_RP_PEX[2:0] FE, UE, CE message detect mask */
365 	{0x150,	8,  0x0, 	0x0,	0x1},
366 };
367 #define	INTEL_5400_RP_REGS_LEN \
368 	(sizeof (intel_5400_rp_regs) / sizeof (x86_error_reg_t))
369 
370 
371 /*
372  * ESB2 Southbridge Root Ports
373  */
374 static x86_error_reg_t intel_esb2_rp_regs[] = {
375 	/* Command Register - Enable SERR */
376 	{0x4,   16, 0xFFFF,	PCI_COMM_SERR_ENABLE,	PCI_COMM_SERR_ENABLE},
377 
378 	/* Root Control Register - SERR on NFE/FE */
379 	{0x5c,  16, 0x0,	PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
380 				PCIE_ROOTCTL_SYS_ERR_ON_FE_EN |
381 				PCIE_ROOTCTL_SYS_ERR_ON_CE_EN,
382 				PCIE_ROOTCTL_SYS_ERR_ON_NFE_EN |
383 				PCIE_ROOTCTL_SYS_ERR_ON_FE_EN},
384 
385 	/* UEM[20:0] UE mask (write-once) */
386 	{0x148, 32, 0x0,	PCIE_AER_UCE_UR,	PCIE_AER_UCE_UR},
387 };
388 #define	INTEL_ESB2_RP_REGS_LEN \
389 	(sizeof (intel_esb2_rp_regs) / sizeof (x86_error_reg_t))
390 
391 
392 /*
393  * ESB2 Southbridge Switch Ports
394  */
395 static x86_error_reg_t intel_esb2_sw_regs[] = {
396 	/* Command Register - Enable SERR */
397 	{0x4,   16, 0xFFFF,	PCI_COMM_SERR_ENABLE,	PCI_COMM_SERR_ENABLE},
398 
399 	/* AER UE Mask - Mask UR */
400 	{0x108, 32, 0x0,	PCIE_AER_UCE_UR,	PCIE_AER_UCE_UR},
401 };
402 #define	INTEL_ESB2_SW_REGS_LEN \
403 	(sizeof (intel_esb2_sw_regs) / sizeof (x86_error_reg_t))
404 
405 
406 x86_error_tbl_t x86_error_init_tbl[] = {
407 	/* Intel 7300: 3600 = ESI, 3604-360A = NB root ports */
408 	{0x8086, 0x3600, 0x3600, 0x0, 0xFF,
409 		intel_7300_rp_regs, INTEL_7300_RP_REGS_LEN},
410 	{0x8086, 0x3604, 0x360A, 0x0, 0xFF,
411 		intel_7300_rp_regs, INTEL_7300_RP_REGS_LEN},
412 
413 	/* Intel 5000: 25C0, 25D0, 25D4, 25D8 = ESI */
414 	{0x8086, 0x25C0, 0x25C0, 0x0, 0xFF,
415 		intel_5000_rp_regs, INTEL_5000_RP_REGS_LEN},
416 	{0x8086, 0x25D0, 0x25D0, 0x0, 0xFF,
417 		intel_5000_rp_regs, INTEL_5000_RP_REGS_LEN},
418 	{0x8086, 0x25D4, 0x25D4, 0x0, 0xFF,
419 		intel_5000_rp_regs, INTEL_5000_RP_REGS_LEN},
420 	{0x8086, 0x25D8, 0x25D8, 0x0, 0xFF,
421 		intel_5000_rp_regs, INTEL_5000_RP_REGS_LEN},
422 
423 	/* Intel 5000: 25E2-25E7 and 25F7-25FA = NB root ports */
424 	{0x8086, 0x25E2, 0x25E7, 0x0, 0xFF,
425 		intel_5000_rp_regs, INTEL_5000_RP_REGS_LEN},
426 	{0x8086, 0x25F7, 0x25FA, 0x0, 0xFF,
427 		intel_5000_rp_regs, INTEL_5000_RP_REGS_LEN},
428 
429 	/* Intel 5400: 4000-4001, 4003 = ESI and 4021-4029 = NB root ports */
430 	{0x8086, 0x4000, 0x4001, 0x0, 0xFF,
431 		intel_5400_rp_regs, INTEL_5400_RP_REGS_LEN},
432 	{0x8086, 0x4003, 0x4003, 0x0, 0xFF,
433 		intel_5400_rp_regs, INTEL_5400_RP_REGS_LEN},
434 	{0x8086, 0x4021, 0x4029, 0x0, 0xFF,
435 		intel_5400_rp_regs, INTEL_5400_RP_REGS_LEN},
436 
437 	/* Intel 631xESB/632xESB aka ESB2: 2690-2697 = SB root ports */
438 	{0x8086, 0x2690, 0x2697, 0x0, 0xFF,
439 		intel_esb2_rp_regs, INTEL_ESB2_RP_REGS_LEN},
440 
441 	/* Intel Switches on esb2: 3500-3503, 3510-351B */
442 	{0x8086, 0x3500, 0x3503, 0x0, 0xFF,
443 		intel_esb2_sw_regs, INTEL_ESB2_SW_REGS_LEN},
444 	{0x8086, 0x3510, 0x351B, 0x0, 0xFF,
445 		intel_esb2_sw_regs, INTEL_ESB2_SW_REGS_LEN},
446 
447 	/* XXX Intel PCIe-PCIx on esb2: 350C */
448 };
449 static int x86_error_init_tbl_len =
450 	sizeof (x86_error_init_tbl) / sizeof (x86_error_tbl_t);
451 
452 /*
453  * The main goal of this workaround is to set chipset specific settings if
454  * MSIs happen to be enabled on this device. Otherwise make the system
455  * Machine Check/Panic if an UE is detected in the fabric.
456  */
457 void
458 pcieb_intel_serr_workaround(dev_info_t *dip, boolean_t mcheck)
459 {
460 	uint16_t		vid, did;
461 	uint8_t			rid;
462 	int			i, j;
463 	x86_error_tbl_t		*tbl;
464 	x86_error_reg_t		*reg;
465 	pcie_bus_t		*bus_p = PCIE_DIP2UPBUS(dip);
466 	ddi_acc_handle_t	cfg_hdl = bus_p->bus_cfg_hdl;
467 	uint16_t		bdf = bus_p->bus_bdf;
468 
469 	if (pcieb_intel_workaround_disable)
470 		return;
471 
472 	vid = bus_p->bus_dev_ven_id & 0xFFFF;
473 	did = bus_p->bus_dev_ven_id >> 16;
474 	rid = bus_p->bus_rev_id;
475 
476 	PCIEB_DEBUG(DBG_ATTACH, dip, "VID:0x%x DID:0x%x RID:0x%x bdf=0x%x\n",
477 	    vid, did, rid, bdf);
478 
479 	tbl = x86_error_init_tbl;
480 	for (i = 0; i < x86_error_init_tbl_len; i++, tbl++) {
481 		if (!((vid == tbl->vendor_id) &&
482 		    (did >= tbl->device_id_low) &&
483 		    (did <= tbl->device_id_high) &&
484 		    (rid >= tbl->rev_id_low) &&
485 		    (rid <= tbl->rev_id_high)))
486 			continue;
487 
488 		if (mcheck && PCIE_IS_RP(bus_p))
489 			pcie_set_rber_fatal(dip, B_TRUE);
490 
491 		reg = tbl->error_regs;
492 		for (j = 0; j < tbl->error_regs_len; j++, reg++) {
493 			uint32_t data = 0xDEADBEEF;
494 			uint32_t value = 0xDEADBEEF;
495 			switch (reg->size) {
496 			case 32:
497 				data = (uint32_t)pci_config_get32(cfg_hdl,
498 				    reg->offset);
499 				value = (mcheck ?
500 				    ((data & reg->mask) | reg->value2) :
501 				    ((data & reg->mask) | reg->value1));
502 				pci_config_put32(cfg_hdl, reg->offset, value);
503 				value = (uint32_t)pci_config_get32(cfg_hdl,
504 				    reg->offset);
505 				break;
506 			case 16:
507 				data = (uint32_t)pci_config_get16(cfg_hdl,
508 				    reg->offset);
509 				value = (mcheck ?
510 				    ((data & reg->mask) | reg->value2) :
511 				    ((data & reg->mask) | reg->value1));
512 				pci_config_put16(cfg_hdl, reg->offset,
513 				    (uint16_t)value);
514 				value = (uint32_t)pci_config_get16(cfg_hdl,
515 				    reg->offset);
516 				break;
517 			case 8:
518 				data = (uint32_t)pci_config_get8(cfg_hdl,
519 				    reg->offset);
520 				value = (mcheck ?
521 				    ((data & reg->mask) | reg->value2) :
522 				    ((data & reg->mask) | reg->value1));
523 				pci_config_put8(cfg_hdl, reg->offset,
524 				    (uint8_t)value);
525 				value = (uint32_t)pci_config_get8(cfg_hdl,
526 				    reg->offset);
527 				break;
528 			}
529 
530 			PCIEB_DEBUG(DBG_ATTACH, dip, "bdf:%x mcheck:%d size:%d "
531 			    "off:0x%x mask:0x%x value:0x%x + orig:0x%x -> "
532 			    "0x%x\n", bdf, mcheck, reg->size, reg->offset,
533 			    reg->mask, (mcheck ?  reg->value2 : reg->value1),
534 			    data, value);
535 		}
536 	}
537 }
538 
539 /*
540  * For devices that support Role Base Errors, make several UE have a FATAL
541  * severity.  That way a Fatal Message will be sent instead of a Correctable
542  * Message.  Without full FMA support, CEs will be ignored.
543  */
544 uint32_t pcieb_rber_sev = (PCIE_AER_UCE_TRAINING | PCIE_AER_UCE_DLP |
545     PCIE_AER_UCE_SD | PCIE_AER_UCE_PTLP | PCIE_AER_UCE_FCP | PCIE_AER_UCE_TO |
546     PCIE_AER_UCE_CA | PCIE_AER_UCE_RO | PCIE_AER_UCE_MTLP | PCIE_AER_UCE_ECRC);
547 
548 void
549 pcieb_intel_rber_workaround(dev_info_t *dip)
550 {
551 	uint32_t rber;
552 	pcie_bus_t *bus_p = PCIE_DIP2UPBUS(dip);
553 
554 	if (pcieb_intel_workaround_disable)
555 		return;
556 
557 	/*
558 	 * Check Root Port's machinecheck setting to determine if this
559 	 * workaround is needed or not.
560 	 */
561 	if (!pcie_get_rber_fatal(dip))
562 		return;
563 
564 	if (!PCIE_IS_PCIE(bus_p) || !PCIE_HAS_AER(bus_p))
565 		return;
566 
567 	rber = PCIE_CAP_GET(16, bus_p, PCIE_DEVCAP) &
568 	    PCIE_DEVCAP_ROLE_BASED_ERR_REP;
569 	if (!rber)
570 		return;
571 
572 	PCIE_AER_PUT(32, bus_p, PCIE_AER_UCE_SERV, pcieb_rber_sev);
573 }
574 
575 /*
576  * The Intel 5000 Chipset has an errata that requires read completion
577  * coalescing to be disabled if the Max Payload Size is set to 256 bytes.
578  */
579 void
580 pcieb_intel_mps_workaround(dev_info_t *dip)
581 {
582 	uint16_t		vid, did;
583 	uint32_t		pexctrl;
584 	pcie_bus_t		*bus_p = PCIE_DIP2UPBUS(dip);
585 
586 	vid = bus_p->bus_dev_ven_id & 0xFFFF;
587 	did = bus_p->bus_dev_ven_id >> 16;
588 
589 	if ((vid == INTEL_VENDOR_ID) && (INTEL_NB5000_PCIE_DEV_ID(did) ||
590 	    INTEL_NB5100_PCIE_DEV_ID(did))) {
591 
592 		pexctrl = pci_config_get32(bus_p->bus_cfg_hdl,
593 		    INTEL_NB5000_PEXCTRL_OFFSET);
594 		/*
595 		 * Turn off coalescing (bit 10)
596 		 */
597 		pexctrl &= ~INTEL_NB5000_PEXCTRL_COALESCE_EN;
598 
599 		pci_config_put32(bus_p->bus_cfg_hdl,
600 		    INTEL_NB5000_PEXCTRL_OFFSET, pexctrl);
601 	}
602 }
603 
604 /*
605  * Workaround for certain switches regardless of platform
606  */
607 void
608 pcieb_intel_sw_workaround(dev_info_t *dip)
609 {
610 	uint16_t		vid, regw;
611 	pcie_bus_t		*bus_p = PCIE_DIP2UPBUS(dip);
612 	ddi_acc_handle_t	cfg_hdl = bus_p->bus_cfg_hdl;
613 
614 	if (pcieb_intel_workaround_disable)
615 		return;
616 
617 	if (!PCIE_IS_SW(PCIE_DIP2BUS(dip)))
618 		return;
619 
620 	vid = bus_p->bus_dev_ven_id & 0xFFFF;
621 	/*
622 	 * Intel and PLX switches require SERR in CMD reg to foward error
623 	 * messages, though this is not PCIE spec-compliant behavior.
624 	 * To prevent the switches themselves from reporting errors on URs
625 	 * when the CMD reg has SERR enabled (which is expected according to
626 	 * the PCIE spec) we rely on masking URs in the AER cap.
627 	 */
628 	if (vid == 0x8086 || vid == 0x10B5) {
629 		regw = pci_config_get16(cfg_hdl, PCI_CONF_COMM);
630 		pci_config_put16(cfg_hdl, PCI_CONF_COMM,
631 		    regw | PCI_COMM_SERR_ENABLE);
632 	}
633 }
634 
635 int
636 pcieb_plat_ctlops(dev_info_t *rdip, ddi_ctl_enum_t ctlop, void *arg)
637 {
638 	struct detachspec *ds;
639 	struct attachspec *as;
640 
641 	switch (ctlop) {
642 	case DDI_CTLOPS_DETACH:
643 		ds = (struct detachspec *)arg;
644 		switch (ds->when) {
645 		case DDI_POST:
646 			if (ds->cmd == DDI_SUSPEND) {
647 				if (pci_post_suspend(rdip) != DDI_SUCCESS)
648 					return (DDI_FAILURE);
649 			}
650 			break;
651 		default:
652 			break;
653 		}
654 		break;
655 	case DDI_CTLOPS_ATTACH:
656 		as = (struct attachspec *)arg;
657 		switch (as->when) {
658 		case DDI_PRE:
659 			if (as->cmd == DDI_RESUME) {
660 				if (pci_pre_resume(rdip) != DDI_SUCCESS)
661 					return (DDI_FAILURE);
662 			}
663 			break;
664 		case DDI_POST:
665 			/*
666 			 * For leaf devices supporting RBER and AER, we
667 			 * need to apply this workaround on them after
668 			 * attach to be notified of UEs that would
669 			 * otherwise be ignored as CEs on Intel chipsets
670 			 * currently
671 			 */
672 			pcieb_intel_rber_workaround(rdip);
673 			break;
674 		default:
675 			break;
676 		}
677 		break;
678 	default:
679 		break;
680 	}
681 
682 	return (DDI_SUCCESS);
683 }
684