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1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * This file contains platform specific structure definitions
4  * and init function used by Meteor Lake PCH.
5  *
6  * Copyright (c) 2022, Intel Corporation.
7  * All Rights Reserved.
8  *
9  */
10 
11 #include <linux/pci.h>
12 #include "core.h"
13 
14 /*
15  * Die Mapping to Product.
16  * Product SOCDie IOEDie PCHDie
17  * MTL-M   SOC-M  IOE-M  None
18  * MTL-P   SOC-M  IOE-P  None
19  * MTL-S   SOC-S  IOE-P  PCH-S
20  */
21 
22 const struct pmc_bit_map mtl_socm_pfear_map[] = {
23 	{"PMC",                 BIT(0)},
24 	{"OPI",                 BIT(1)},
25 	{"SPI",                 BIT(2)},
26 	{"XHCI",                BIT(3)},
27 	{"SPA",                 BIT(4)},
28 	{"SPB",                 BIT(5)},
29 	{"SPC",                 BIT(6)},
30 	{"GBE",                 BIT(7)},
31 
32 	{"SATA",                BIT(0)},
33 	{"DSP0",                BIT(1)},
34 	{"DSP1",                BIT(2)},
35 	{"DSP2",                BIT(3)},
36 	{"DSP3",                BIT(4)},
37 	{"SPD",                 BIT(5)},
38 	{"LPSS",                BIT(6)},
39 	{"LPC",                 BIT(7)},
40 
41 	{"SMB",                 BIT(0)},
42 	{"ISH",                 BIT(1)},
43 	{"P2SB",                BIT(2)},
44 	{"NPK_VNN",             BIT(3)},
45 	{"SDX",                 BIT(4)},
46 	{"SPE",                 BIT(5)},
47 	{"FUSE",                BIT(6)},
48 	{"SBR8",                BIT(7)},
49 
50 	{"RSVD24",              BIT(0)},
51 	{"OTG",                 BIT(1)},
52 	{"EXI",                 BIT(2)},
53 	{"CSE",                 BIT(3)},
54 	{"CSME_KVM",            BIT(4)},
55 	{"CSME_PMT",            BIT(5)},
56 	{"CSME_CLINK",          BIT(6)},
57 	{"CSME_PTIO",           BIT(7)},
58 
59 	{"CSME_USBR",           BIT(0)},
60 	{"CSME_SUSRAM",         BIT(1)},
61 	{"CSME_SMT1",           BIT(2)},
62 	{"RSVD35",              BIT(3)},
63 	{"CSME_SMS2",           BIT(4)},
64 	{"CSME_SMS",            BIT(5)},
65 	{"CSME_RTC",            BIT(6)},
66 	{"CSME_PSF",            BIT(7)},
67 
68 	{"SBR0",                BIT(0)},
69 	{"SBR1",                BIT(1)},
70 	{"SBR2",                BIT(2)},
71 	{"SBR3",                BIT(3)},
72 	{"SBR4",                BIT(4)},
73 	{"SBR5",                BIT(5)},
74 	{"RSVD46",              BIT(6)},
75 	{"PSF1",                BIT(7)},
76 
77 	{"PSF2",                BIT(0)},
78 	{"PSF3",                BIT(1)},
79 	{"PSF4",                BIT(2)},
80 	{"CNVI",                BIT(3)},
81 	{"UFSX2",               BIT(4)},
82 	{"EMMC",                BIT(5)},
83 	{"SPF",                 BIT(6)},
84 	{"SBR6",                BIT(7)},
85 
86 	{"SBR7",                BIT(0)},
87 	{"NPK_AON",             BIT(1)},
88 	{"HDA4",                BIT(2)},
89 	{"HDA5",                BIT(3)},
90 	{"HDA6",                BIT(4)},
91 	{"PSF6",                BIT(5)},
92 	{"RSVD62",              BIT(6)},
93 	{"RSVD63",              BIT(7)},
94 	{}
95 };
96 
97 const struct pmc_bit_map *ext_mtl_socm_pfear_map[] = {
98 	mtl_socm_pfear_map,
99 	NULL
100 };
101 
102 const struct pmc_bit_map mtl_socm_ltr_show_map[] = {
103 	{"SOUTHPORT_A",		CNP_PMC_LTR_SPA},
104 	{"SOUTHPORT_B",		CNP_PMC_LTR_SPB},
105 	{"SATA",		CNP_PMC_LTR_SATA},
106 	{"GIGABIT_ETHERNET",	CNP_PMC_LTR_GBE},
107 	{"XHCI",		CNP_PMC_LTR_XHCI},
108 	{"SOUTHPORT_F",		ADL_PMC_LTR_SPF},
109 	{"ME",			CNP_PMC_LTR_ME},
110 	{"SATA1",		CNP_PMC_LTR_EVA},
111 	{"SOUTHPORT_C",		CNP_PMC_LTR_SPC},
112 	{"HD_AUDIO",		CNP_PMC_LTR_AZ},
113 	{"CNV",			CNP_PMC_LTR_CNV},
114 	{"LPSS",		CNP_PMC_LTR_LPSS},
115 	{"SOUTHPORT_D",		CNP_PMC_LTR_SPD},
116 	{"SOUTHPORT_E",		CNP_PMC_LTR_SPE},
117 	{"SATA2",		CNP_PMC_LTR_CAM},
118 	{"ESPI",		CNP_PMC_LTR_ESPI},
119 	{"SCC",			CNP_PMC_LTR_SCC},
120 	{"ISH",                 CNP_PMC_LTR_ISH},
121 	{"UFSX2",		CNP_PMC_LTR_UFSX2},
122 	{"EMMC",		CNP_PMC_LTR_EMMC},
123 	{"WIGIG",		ICL_PMC_LTR_WIGIG},
124 	{"THC0",		TGL_PMC_LTR_THC0},
125 	{"THC1",		TGL_PMC_LTR_THC1},
126 	{"SOUTHPORT_G",		MTL_PMC_LTR_SPG},
127 	{"ESE",                 MTL_PMC_LTR_ESE},
128 	{"IOE_PMC",		MTL_PMC_LTR_IOE_PMC},
129 
130 	/* Below two cannot be used for LTR_IGNORE */
131 	{"CURRENT_PLATFORM",	CNP_PMC_LTR_CUR_PLT},
132 	{"AGGREGATED_SYSTEM",	CNP_PMC_LTR_CUR_ASLT},
133 	{}
134 };
135 
136 const struct pmc_bit_map mtl_socm_clocksource_status_map[] = {
137 	{"AON2_OFF_STS",                 BIT(0)},
138 	{"AON3_OFF_STS",                 BIT(1)},
139 	{"AON4_OFF_STS",                 BIT(2)},
140 	{"AON5_OFF_STS",                 BIT(3)},
141 	{"AON1_OFF_STS",                 BIT(4)},
142 	{"XTAL_LVM_OFF_STS",             BIT(5)},
143 	{"MPFPW1_0_PLL_OFF_STS",         BIT(6)},
144 	{"MPFPW1_1_PLL_OFF_STS",         BIT(7)},
145 	{"USB3_PLL_OFF_STS",             BIT(8)},
146 	{"AON3_SPL_OFF_STS",             BIT(9)},
147 	{"MPFPW2_0_PLL_OFF_STS",         BIT(12)},
148 	{"MPFPW3_0_PLL_OFF_STS",         BIT(13)},
149 	{"XTAL_AGGR_OFF_STS",            BIT(17)},
150 	{"USB2_PLL_OFF_STS",             BIT(18)},
151 	{"FILTER_PLL_OFF_STS",           BIT(22)},
152 	{"ACE_PLL_OFF_STS",              BIT(24)},
153 	{"FABRIC_PLL_OFF_STS",           BIT(25)},
154 	{"SOC_PLL_OFF_STS",              BIT(26)},
155 	{"PCIFAB_PLL_OFF_STS",           BIT(27)},
156 	{"REF_PLL_OFF_STS",              BIT(28)},
157 	{"IMG_PLL_OFF_STS",              BIT(29)},
158 	{"RTC_PLL_OFF_STS",              BIT(31)},
159 	{}
160 };
161 
162 const struct pmc_bit_map mtl_socm_power_gating_status_0_map[] = {
163 	{"PMC_PGD0_PG_STS",              BIT(0)},
164 	{"DMI_PGD0_PG_STS",              BIT(1)},
165 	{"ESPISPI_PGD0_PG_STS",          BIT(2)},
166 	{"XHCI_PGD0_PG_STS",             BIT(3)},
167 	{"SPA_PGD0_PG_STS",              BIT(4)},
168 	{"SPB_PGD0_PG_STS",              BIT(5)},
169 	{"SPC_PGD0_PG_STS",              BIT(6)},
170 	{"GBE_PGD0_PG_STS",              BIT(7)},
171 	{"SATA_PGD0_PG_STS",             BIT(8)},
172 	{"PSF13_PGD0_PG_STS",            BIT(9)},
173 	{"SOC_D2D_PGD3_PG_STS",          BIT(10)},
174 	{"MPFPW3_PGD0_PG_STS",           BIT(11)},
175 	{"ESE_PGD0_PG_STS",              BIT(12)},
176 	{"SPD_PGD0_PG_STS",              BIT(13)},
177 	{"LPSS_PGD0_PG_STS",             BIT(14)},
178 	{"LPC_PGD0_PG_STS",              BIT(15)},
179 	{"SMB_PGD0_PG_STS",              BIT(16)},
180 	{"ISH_PGD0_PG_STS",              BIT(17)},
181 	{"P2S_PGD0_PG_STS",              BIT(18)},
182 	{"NPK_PGD0_PG_STS",              BIT(19)},
183 	{"DBG_SBR_PGD0_PG_STS",          BIT(20)},
184 	{"SBRG_PGD0_PG_STS",             BIT(21)},
185 	{"FUSE_PGD0_PG_STS",             BIT(22)},
186 	{"SBR8_PGD0_PG_STS",             BIT(23)},
187 	{"SOC_D2D_PGD2_PG_STS",          BIT(24)},
188 	{"XDCI_PGD0_PG_STS",             BIT(25)},
189 	{"EXI_PGD0_PG_STS",              BIT(26)},
190 	{"CSE_PGD0_PG_STS",              BIT(27)},
191 	{"KVMCC_PGD0_PG_STS",            BIT(28)},
192 	{"PMT_PGD0_PG_STS",              BIT(29)},
193 	{"CLINK_PGD0_PG_STS",            BIT(30)},
194 	{"PTIO_PGD0_PG_STS",             BIT(31)},
195 	{}
196 };
197 
198 const struct pmc_bit_map mtl_socm_power_gating_status_1_map[] = {
199 	{"USBR0_PGD0_PG_STS",            BIT(0)},
200 	{"SUSRAM_PGD0_PG_STS",           BIT(1)},
201 	{"SMT1_PGD0_PG_STS",             BIT(2)},
202 	{"FIACPCB_U_PGD0_PG_STS",        BIT(3)},
203 	{"SMS2_PGD0_PG_STS",             BIT(4)},
204 	{"SMS1_PGD0_PG_STS",             BIT(5)},
205 	{"CSMERTC_PGD0_PG_STS",          BIT(6)},
206 	{"CSMEPSF_PGD0_PG_STS",          BIT(7)},
207 	{"SBR0_PGD0_PG_STS",             BIT(8)},
208 	{"SBR1_PGD0_PG_STS",             BIT(9)},
209 	{"SBR2_PGD0_PG_STS",             BIT(10)},
210 	{"SBR3_PGD0_PG_STS",             BIT(11)},
211 	{"U3FPW1_PGD0_PG_STS",           BIT(12)},
212 	{"SBR5_PGD0_PG_STS",             BIT(13)},
213 	{"MPFPW1_PGD0_PG_STS",           BIT(14)},
214 	{"UFSPW1_PGD0_PG_STS",           BIT(15)},
215 	{"FIA_X_PGD0_PG_STS",            BIT(16)},
216 	{"SOC_D2D_PGD0_PG_STS",          BIT(17)},
217 	{"MPFPW2_PGD0_PG_STS",           BIT(18)},
218 	{"CNVI_PGD0_PG_STS",             BIT(19)},
219 	{"UFSX2_PGD0_PG_STS",            BIT(20)},
220 	{"ENDBG_PGD0_PG_STS",            BIT(21)},
221 	{"DBG_PSF_PGD0_PG_STS",          BIT(22)},
222 	{"SBR6_PGD0_PG_STS",             BIT(23)},
223 	{"SBR7_PGD0_PG_STS",             BIT(24)},
224 	{"NPK_PGD1_PG_STS",              BIT(25)},
225 	{"FIACPCB_X_PGD0_PG_STS",        BIT(26)},
226 	{"DBC_PGD0_PG_STS",              BIT(27)},
227 	{"FUSEGPSB_PGD0_PG_STS",         BIT(28)},
228 	{"PSF6_PGD0_PG_STS",             BIT(29)},
229 	{"PSF7_PGD0_PG_STS",             BIT(30)},
230 	{"GBETSN1_PGD0_PG_STS",          BIT(31)},
231 	{}
232 };
233 
234 const struct pmc_bit_map mtl_socm_power_gating_status_2_map[] = {
235 	{"PSF8_PGD0_PG_STS",             BIT(0)},
236 	{"FIA_PGD0_PG_STS",              BIT(1)},
237 	{"SOC_D2D_PGD1_PG_STS",          BIT(2)},
238 	{"FIA_U_PGD0_PG_STS",            BIT(3)},
239 	{"TAM_PGD0_PG_STS",              BIT(4)},
240 	{"GBETSN_PGD0_PG_STS",           BIT(5)},
241 	{"TBTLSX_PGD0_PG_STS",           BIT(6)},
242 	{"THC0_PGD0_PG_STS",             BIT(7)},
243 	{"THC1_PGD0_PG_STS",             BIT(8)},
244 	{"PMC_PGD1_PG_STS",              BIT(9)},
245 	{"GNA_PGD0_PG_STS",              BIT(10)},
246 	{"ACE_PGD0_PG_STS",              BIT(11)},
247 	{"ACE_PGD1_PG_STS",              BIT(12)},
248 	{"ACE_PGD2_PG_STS",              BIT(13)},
249 	{"ACE_PGD3_PG_STS",              BIT(14)},
250 	{"ACE_PGD4_PG_STS",              BIT(15)},
251 	{"ACE_PGD5_PG_STS",              BIT(16)},
252 	{"ACE_PGD6_PG_STS",              BIT(17)},
253 	{"ACE_PGD7_PG_STS",              BIT(18)},
254 	{"ACE_PGD8_PG_STS",              BIT(19)},
255 	{"FIA_PGS_PGD0_PG_STS",          BIT(20)},
256 	{"FIACPCB_PGS_PGD0_PG_STS",      BIT(21)},
257 	{"FUSEPMSB_PGD0_PG_STS",         BIT(22)},
258 	{}
259 };
260 
261 const struct pmc_bit_map mtl_socm_d3_status_0_map[] = {
262 	{"LPSS_D3_STS",                  BIT(3)},
263 	{"XDCI_D3_STS",                  BIT(4)},
264 	{"XHCI_D3_STS",                  BIT(5)},
265 	{"SPA_D3_STS",                   BIT(12)},
266 	{"SPB_D3_STS",                   BIT(13)},
267 	{"SPC_D3_STS",                   BIT(14)},
268 	{"SPD_D3_STS",                   BIT(15)},
269 	{"ESPISPI_D3_STS",               BIT(18)},
270 	{"SATA_D3_STS",                  BIT(20)},
271 	{"PSTH_D3_STS",                  BIT(21)},
272 	{"DMI_D3_STS",                   BIT(22)},
273 	{}
274 };
275 
276 const struct pmc_bit_map mtl_socm_d3_status_1_map[] = {
277 	{"GBETSN1_D3_STS",               BIT(14)},
278 	{"GBE_D3_STS",                   BIT(19)},
279 	{"ITSS_D3_STS",                  BIT(23)},
280 	{"P2S_D3_STS",                   BIT(24)},
281 	{"CNVI_D3_STS",                  BIT(27)},
282 	{"UFSX2_D3_STS",                 BIT(28)},
283 	{}
284 };
285 
286 const struct pmc_bit_map mtl_socm_d3_status_2_map[] = {
287 	{"GNA_D3_STS",                   BIT(0)},
288 	{"CSMERTC_D3_STS",               BIT(1)},
289 	{"SUSRAM_D3_STS",                BIT(2)},
290 	{"CSE_D3_STS",                   BIT(4)},
291 	{"KVMCC_D3_STS",                 BIT(5)},
292 	{"USBR0_D3_STS",                 BIT(6)},
293 	{"ISH_D3_STS",                   BIT(7)},
294 	{"SMT1_D3_STS",                  BIT(8)},
295 	{"SMT2_D3_STS",                  BIT(9)},
296 	{"SMT3_D3_STS",                  BIT(10)},
297 	{"CLINK_D3_STS",                 BIT(14)},
298 	{"PTIO_D3_STS",                  BIT(16)},
299 	{"PMT_D3_STS",                   BIT(17)},
300 	{"SMS1_D3_STS",                  BIT(18)},
301 	{"SMS2_D3_STS",                  BIT(19)},
302 	{}
303 };
304 
305 const struct pmc_bit_map mtl_socm_d3_status_3_map[] = {
306 	{"ESE_D3_STS",                   BIT(2)},
307 	{"GBETSN_D3_STS",                BIT(13)},
308 	{"THC0_D3_STS",                  BIT(14)},
309 	{"THC1_D3_STS",                  BIT(15)},
310 	{"ACE_D3_STS",                   BIT(23)},
311 	{}
312 };
313 
314 const struct pmc_bit_map mtl_socm_vnn_req_status_0_map[] = {
315 	{"LPSS_VNN_REQ_STS",             BIT(3)},
316 	{"FIA_VNN_REQ_STS",              BIT(17)},
317 	{"ESPISPI_VNN_REQ_STS",          BIT(18)},
318 	{}
319 };
320 
321 const struct pmc_bit_map mtl_socm_vnn_req_status_1_map[] = {
322 	{"NPK_VNN_REQ_STS",              BIT(4)},
323 	{"DFXAGG_VNN_REQ_STS",           BIT(8)},
324 	{"EXI_VNN_REQ_STS",              BIT(9)},
325 	{"P2D_VNN_REQ_STS",              BIT(18)},
326 	{"GBE_VNN_REQ_STS",              BIT(19)},
327 	{"SMB_VNN_REQ_STS",              BIT(25)},
328 	{"LPC_VNN_REQ_STS",              BIT(26)},
329 	{}
330 };
331 
332 const struct pmc_bit_map mtl_socm_vnn_req_status_2_map[] = {
333 	{"CSMERTC_VNN_REQ_STS",          BIT(1)},
334 	{"CSE_VNN_REQ_STS",              BIT(4)},
335 	{"ISH_VNN_REQ_STS",              BIT(7)},
336 	{"SMT1_VNN_REQ_STS",             BIT(8)},
337 	{"CLINK_VNN_REQ_STS",            BIT(14)},
338 	{"SMS1_VNN_REQ_STS",             BIT(18)},
339 	{"SMS2_VNN_REQ_STS",             BIT(19)},
340 	{"GPIOCOM4_VNN_REQ_STS",         BIT(20)},
341 	{"GPIOCOM3_VNN_REQ_STS",         BIT(21)},
342 	{"GPIOCOM2_VNN_REQ_STS",         BIT(22)},
343 	{"GPIOCOM1_VNN_REQ_STS",         BIT(23)},
344 	{"GPIOCOM0_VNN_REQ_STS",         BIT(24)},
345 	{}
346 };
347 
348 const struct pmc_bit_map mtl_socm_vnn_req_status_3_map[] = {
349 	{"ESE_VNN_REQ_STS",              BIT(2)},
350 	{"DTS0_VNN_REQ_STS",             BIT(7)},
351 	{"GPIOCOM5_VNN_REQ_STS",         BIT(11)},
352 	{}
353 };
354 
355 const struct pmc_bit_map mtl_socm_vnn_misc_status_map[] = {
356 	{"CPU_C10_REQ_STS",              BIT(0)},
357 	{"TS_OFF_REQ_STS",               BIT(1)},
358 	{"PNDE_MET_REQ_STS",             BIT(2)},
359 	{"PCIE_DEEP_PM_REQ_STS",         BIT(3)},
360 	{"PMC_CLK_THROTTLE_EN_REQ_STS",  BIT(4)},
361 	{"NPK_VNNAON_REQ_STS",           BIT(5)},
362 	{"VNN_SOC_REQ_STS",              BIT(6)},
363 	{"ISH_VNNAON_REQ_STS",           BIT(7)},
364 	{"IOE_COND_MET_S02I2_0_REQ_STS", BIT(8)},
365 	{"IOE_COND_MET_S02I2_1_REQ_STS", BIT(9)},
366 	{"IOE_COND_MET_S02I2_2_REQ_STS", BIT(10)},
367 	{"PLT_GREATER_REQ_STS",          BIT(11)},
368 	{"PCIE_CLKREQ_REQ_STS",          BIT(12)},
369 	{"PMC_IDLE_FB_OCP_REQ_STS",      BIT(13)},
370 	{"PM_SYNC_STATES_REQ_STS",       BIT(14)},
371 	{"EA_REQ_STS",                   BIT(15)},
372 	{"MPHY_CORE_OFF_REQ_STS",        BIT(16)},
373 	{"BRK_EV_EN_REQ_STS",            BIT(17)},
374 	{"AUTO_DEMO_EN_REQ_STS",         BIT(18)},
375 	{"ITSS_CLK_SRC_REQ_STS",         BIT(19)},
376 	{"LPC_CLK_SRC_REQ_STS",          BIT(20)},
377 	{"ARC_IDLE_REQ_STS",             BIT(21)},
378 	{"MPHY_SUS_REQ_STS",             BIT(22)},
379 	{"FIA_DEEP_PM_REQ_STS",          BIT(23)},
380 	{"UXD_CONNECTED_REQ_STS",        BIT(24)},
381 	{"ARC_INTERRUPT_WAKE_REQ_STS",   BIT(25)},
382 	{"USB2_VNNAON_ACT_REQ_STS",      BIT(26)},
383 	{"PRE_WAKE0_REQ_STS",            BIT(27)},
384 	{"PRE_WAKE1_REQ_STS",            BIT(28)},
385 	{"PRE_WAKE2_EN_REQ_STS",         BIT(29)},
386 	{"WOV_REQ_STS",                  BIT(30)},
387 	{"CNVI_V1P05_REQ_STS",           BIT(31)},
388 	{}
389 };
390 
391 const struct pmc_bit_map mtl_socm_signal_status_map[] = {
392 	{"LSX_Wake0_En_STS",             BIT(0)},
393 	{"LSX_Wake0_Pol_STS",            BIT(1)},
394 	{"LSX_Wake1_En_STS",             BIT(2)},
395 	{"LSX_Wake1_Pol_STS",            BIT(3)},
396 	{"LSX_Wake2_En_STS",             BIT(4)},
397 	{"LSX_Wake2_Pol_STS",            BIT(5)},
398 	{"LSX_Wake3_En_STS",             BIT(6)},
399 	{"LSX_Wake3_Pol_STS",            BIT(7)},
400 	{"LSX_Wake4_En_STS",             BIT(8)},
401 	{"LSX_Wake4_Pol_STS",            BIT(9)},
402 	{"LSX_Wake5_En_STS",             BIT(10)},
403 	{"LSX_Wake5_Pol_STS",            BIT(11)},
404 	{"LSX_Wake6_En_STS",             BIT(12)},
405 	{"LSX_Wake6_Pol_STS",            BIT(13)},
406 	{"LSX_Wake7_En_STS",             BIT(14)},
407 	{"LSX_Wake7_Pol_STS",            BIT(15)},
408 	{"LPSS_Wake0_En_STS",            BIT(16)},
409 	{"LPSS_Wake0_Pol_STS",           BIT(17)},
410 	{"LPSS_Wake1_En_STS",            BIT(18)},
411 	{"LPSS_Wake1_Pol_STS",           BIT(19)},
412 	{"Int_Timer_SS_Wake0_En_STS",    BIT(20)},
413 	{"Int_Timer_SS_Wake0_Pol_STS",   BIT(21)},
414 	{"Int_Timer_SS_Wake1_En_STS",    BIT(22)},
415 	{"Int_Timer_SS_Wake1_Pol_STS",   BIT(23)},
416 	{"Int_Timer_SS_Wake2_En_STS",    BIT(24)},
417 	{"Int_Timer_SS_Wake2_Pol_STS",   BIT(25)},
418 	{"Int_Timer_SS_Wake3_En_STS",    BIT(26)},
419 	{"Int_Timer_SS_Wake3_Pol_STS",   BIT(27)},
420 	{"Int_Timer_SS_Wake4_En_STS",    BIT(28)},
421 	{"Int_Timer_SS_Wake4_Pol_STS",   BIT(29)},
422 	{"Int_Timer_SS_Wake5_En_STS",    BIT(30)},
423 	{"Int_Timer_SS_Wake5_Pol_STS",   BIT(31)},
424 	{}
425 };
426 
427 const struct pmc_bit_map *mtl_socm_lpm_maps[] = {
428 	mtl_socm_clocksource_status_map,
429 	mtl_socm_power_gating_status_0_map,
430 	mtl_socm_power_gating_status_1_map,
431 	mtl_socm_power_gating_status_2_map,
432 	mtl_socm_d3_status_0_map,
433 	mtl_socm_d3_status_1_map,
434 	mtl_socm_d3_status_2_map,
435 	mtl_socm_d3_status_3_map,
436 	mtl_socm_vnn_req_status_0_map,
437 	mtl_socm_vnn_req_status_1_map,
438 	mtl_socm_vnn_req_status_2_map,
439 	mtl_socm_vnn_req_status_3_map,
440 	mtl_socm_vnn_misc_status_map,
441 	mtl_socm_signal_status_map,
442 	NULL
443 };
444 
445 const struct pmc_reg_map mtl_socm_reg_map = {
446 	.pfear_sts = ext_mtl_socm_pfear_map,
447 	.slp_s0_offset = CNP_PMC_SLP_S0_RES_COUNTER_OFFSET,
448 	.slp_s0_res_counter_step = TGL_PMC_SLP_S0_RES_COUNTER_STEP,
449 	.ltr_show_sts = mtl_socm_ltr_show_map,
450 	.msr_sts = msr_map,
451 	.ltr_ignore_offset = CNP_PMC_LTR_IGNORE_OFFSET,
452 	.regmap_length = MTL_SOC_PMC_MMIO_REG_LEN,
453 	.ppfear0_offset = CNP_PMC_HOST_PPFEAR0A,
454 	.ppfear_buckets = MTL_SOCM_PPFEAR_NUM_ENTRIES,
455 	.pm_cfg_offset = CNP_PMC_PM_CFG_OFFSET,
456 	.pm_read_disable_bit = CNP_PMC_READ_DISABLE_BIT,
457 	.lpm_num_maps = ADL_LPM_NUM_MAPS,
458 	.ltr_ignore_max = MTL_SOCM_NUM_IP_IGN_ALLOWED,
459 	.lpm_res_counter_step_x2 = TGL_PMC_LPM_RES_COUNTER_STEP_X2,
460 	.etr3_offset = ETR3_OFFSET,
461 	.lpm_sts_latch_en_offset = MTL_LPM_STATUS_LATCH_EN_OFFSET,
462 	.lpm_priority_offset = MTL_LPM_PRI_OFFSET,
463 	.lpm_en_offset = MTL_LPM_EN_OFFSET,
464 	.lpm_residency_offset = MTL_LPM_RESIDENCY_OFFSET,
465 	.lpm_sts = mtl_socm_lpm_maps,
466 	.lpm_status_offset = MTL_LPM_STATUS_OFFSET,
467 	.lpm_live_status_offset = MTL_LPM_LIVE_STATUS_OFFSET,
468 };
469 
470 const struct pmc_bit_map mtl_ioep_pfear_map[] = {
471 	{"PMC_0",               BIT(0)},
472 	{"OPI",                 BIT(1)},
473 	{"TCSS",                BIT(2)},
474 	{"RSVD3",               BIT(3)},
475 	{"SPA",                 BIT(4)},
476 	{"SPB",                 BIT(5)},
477 	{"SPC",                 BIT(6)},
478 	{"IOE_D2D_3",           BIT(7)},
479 
480 	{"RSVD8",               BIT(0)},
481 	{"RSVD9",               BIT(1)},
482 	{"SPE",                 BIT(2)},
483 	{"RSVD11",              BIT(3)},
484 	{"RSVD12",              BIT(4)},
485 	{"SPD",                 BIT(5)},
486 	{"ACE_7",               BIT(6)},
487 	{"RSVD15",              BIT(7)},
488 
489 	{"ACE_0",               BIT(0)},
490 	{"FIACPCB_P",           BIT(1)},
491 	{"P2S",                 BIT(2)},
492 	{"RSVD19",              BIT(3)},
493 	{"ACE_8",               BIT(4)},
494 	{"IOE_D2D_0",           BIT(5)},
495 	{"FUSE",                BIT(6)},
496 	{"RSVD23",              BIT(7)},
497 
498 	{"FIACPCB_P5",          BIT(0)},
499 	{"ACE_3",               BIT(1)},
500 	{"RSF5",                BIT(2)},
501 	{"ACE_2",               BIT(3)},
502 	{"ACE_4",               BIT(4)},
503 	{"RSVD29",              BIT(5)},
504 	{"RSF10",               BIT(6)},
505 	{"MPFPW5",              BIT(7)},
506 
507 	{"PSF9",                BIT(0)},
508 	{"MPFPW4",              BIT(1)},
509 	{"RSVD34",              BIT(2)},
510 	{"RSVD35",              BIT(3)},
511 	{"RSVD36",              BIT(4)},
512 	{"RSVD37",              BIT(5)},
513 	{"RSVD38",              BIT(6)},
514 	{"RSVD39",              BIT(7)},
515 
516 	{"SBR0",                BIT(0)},
517 	{"SBR1",                BIT(1)},
518 	{"SBR2",                BIT(2)},
519 	{"SBR3",                BIT(3)},
520 	{"SBR4",                BIT(4)},
521 	{"SBR5",                BIT(5)},
522 	{"RSVD46",              BIT(6)},
523 	{"RSVD47",              BIT(7)},
524 
525 	{"RSVD48",              BIT(0)},
526 	{"FIA_P5",              BIT(1)},
527 	{"RSVD50",              BIT(2)},
528 	{"RSVD51",              BIT(3)},
529 	{"RSVD52",              BIT(4)},
530 	{"RSVD53",              BIT(5)},
531 	{"RSVD54",              BIT(6)},
532 	{"ACE_1",               BIT(7)},
533 
534 	{"RSVD56",              BIT(0)},
535 	{"ACE_5",               BIT(1)},
536 	{"RSVD58",              BIT(2)},
537 	{"G5FPW1",              BIT(3)},
538 	{"RSVD60",              BIT(4)},
539 	{"ACE_6",               BIT(5)},
540 	{"RSVD62",              BIT(6)},
541 	{"GBETSN1",             BIT(7)},
542 
543 	{"RSVD64",              BIT(0)},
544 	{"FIA",                 BIT(1)},
545 	{"RSVD66",              BIT(2)},
546 	{"FIA_P",               BIT(3)},
547 	{"TAM",                 BIT(4)},
548 	{"GBETSN",              BIT(5)},
549 	{"IOE_D2D_2",           BIT(6)},
550 	{"IOE_D2D_1",           BIT(7)},
551 
552 	{"SPF",                 BIT(0)},
553 	{"PMC_1",               BIT(1)},
554 	{}
555 };
556 
557 const struct pmc_bit_map *ext_mtl_ioep_pfear_map[] = {
558 	mtl_ioep_pfear_map,
559 	NULL
560 };
561 
562 const struct pmc_bit_map mtl_ioep_ltr_show_map[] = {
563 	{"SOUTHPORT_A",		CNP_PMC_LTR_SPA},
564 	{"SOUTHPORT_B",		CNP_PMC_LTR_SPB},
565 	{"SATA",		CNP_PMC_LTR_SATA},
566 	{"GIGABIT_ETHERNET",	CNP_PMC_LTR_GBE},
567 	{"XHCI",		CNP_PMC_LTR_XHCI},
568 	{"SOUTHPORT_F",		ADL_PMC_LTR_SPF},
569 	{"ME",			CNP_PMC_LTR_ME},
570 	{"SATA1",		CNP_PMC_LTR_EVA},
571 	{"SOUTHPORT_C",		CNP_PMC_LTR_SPC},
572 	{"HD_AUDIO",		CNP_PMC_LTR_AZ},
573 	{"CNV",			CNP_PMC_LTR_CNV},
574 	{"LPSS",		CNP_PMC_LTR_LPSS},
575 	{"SOUTHPORT_D",		CNP_PMC_LTR_SPD},
576 	{"SOUTHPORT_E",		CNP_PMC_LTR_SPE},
577 	{"SATA2",		CNP_PMC_LTR_CAM},
578 	{"ESPI",		CNP_PMC_LTR_ESPI},
579 	{"SCC",			CNP_PMC_LTR_SCC},
580 	{"Reserved",		MTL_PMC_LTR_RESERVED},
581 	{"UFSX2",		CNP_PMC_LTR_UFSX2},
582 	{"EMMC",		CNP_PMC_LTR_EMMC},
583 	{"WIGIG",		ICL_PMC_LTR_WIGIG},
584 	{"THC0",		TGL_PMC_LTR_THC0},
585 	{"THC1",		TGL_PMC_LTR_THC1},
586 	{"SOUTHPORT_G",		MTL_PMC_LTR_SPG},
587 
588 	/* Below two cannot be used for LTR_IGNORE */
589 	{"CURRENT_PLATFORM",	CNP_PMC_LTR_CUR_PLT},
590 	{"AGGREGATED_SYSTEM",	CNP_PMC_LTR_CUR_ASLT},
591 	{}
592 };
593 
594 const struct pmc_bit_map mtl_ioep_clocksource_status_map[] = {
595 	{"AON2_OFF_STS",                 BIT(0)},
596 	{"AON3_OFF_STS",                 BIT(1)},
597 	{"AON4_OFF_STS",                 BIT(2)},
598 	{"AON5_OFF_STS",                 BIT(3)},
599 	{"AON1_OFF_STS",                 BIT(4)},
600 	{"TBT_PLL_OFF_STS",              BIT(5)},
601 	{"TMU_PLL_OFF_STS",              BIT(6)},
602 	{"BCLK_PLL_OFF_STS",             BIT(7)},
603 	{"D2D_PLL_OFF_STS",              BIT(8)},
604 	{"AON3_SPL_OFF_STS",             BIT(9)},
605 	{"MPFPW4_0_PLL_OFF_STS",         BIT(12)},
606 	{"MPFPW5_0_PLL_OFF_STS",         BIT(13)},
607 	{"G5FPW_0_PLL_OFF_STS",          BIT(14)},
608 	{"G5FPW_1_PLL_OFF_STS",          BIT(15)},
609 	{"XTAL_AGGR_OFF_STS",            BIT(17)},
610 	{"FABRIC_PLL_OFF_STS",           BIT(25)},
611 	{"SOC_PLL_OFF_STS",              BIT(26)},
612 	{"REF_PLL_OFF_STS",              BIT(28)},
613 	{"RTC_PLL_OFF_STS",              BIT(31)},
614 	{}
615 };
616 
617 const struct pmc_bit_map mtl_ioep_power_gating_status_0_map[] = {
618 	{"PMC_PGD0_PG_STS",              BIT(0)},
619 	{"DMI_PGD0_PG_STS",              BIT(1)},
620 	{"TCSS_PGD0_PG_STS",             BIT(2)},
621 	{"SPA_PGD0_PG_STS",              BIT(4)},
622 	{"SPB_PGD0_PG_STS",              BIT(5)},
623 	{"SPC_PGD0_PG_STS",              BIT(6)},
624 	{"IOE_D2D_PGD3_PG_STS",          BIT(7)},
625 	{"SPE_PGD0_PG_STS",              BIT(10)},
626 	{"SPD_PGD0_PG_STS",              BIT(13)},
627 	{"ACE_PGD7_PG_STS",              BIT(14)},
628 	{"ACE_PGD0_PG_STS",              BIT(16)},
629 	{"FIACPCB_P_PGD0_PG_STS",        BIT(17)},
630 	{"P2S_PGD0_PG_STS",              BIT(18)},
631 	{"ACE_PGD8_PG_STS",              BIT(20)},
632 	{"IOE_D2D_PGD0_PG_STS",          BIT(21)},
633 	{"FUSE_PGD0_PG_STS",             BIT(22)},
634 	{"FIACPCB_P5_PGD0_PG_STS",       BIT(24)},
635 	{"ACE_PGD3_PG_STS",              BIT(25)},
636 	{"PSF5_PGD0_PG_STS",             BIT(26)},
637 	{"ACE_PGD2_PG_STS",              BIT(27)},
638 	{"ACE_PGD4_PG_STS",              BIT(28)},
639 	{"PSF10_PGD0_PG_STS",            BIT(30)},
640 	{"MPFPW5_PGD0_PG_STS",           BIT(31)},
641 	{}
642 };
643 
644 const struct pmc_bit_map mtl_ioep_power_gating_status_1_map[] = {
645 	{"PSF9_PGD0_PG_STS",             BIT(0)},
646 	{"MPFPW4_PGD0_PG_STS",           BIT(1)},
647 	{"SBR0_PGD0_PG_STS",             BIT(8)},
648 	{"SBR1_PGD0_PG_STS",             BIT(9)},
649 	{"SBR2_PGD0_PG_STS",             BIT(10)},
650 	{"SBR3_PGD0_PG_STS",             BIT(11)},
651 	{"SBR4_PGD0_PG_STS",             BIT(12)},
652 	{"SBR5_PGD0_PG_STS",             BIT(13)},
653 	{"FIA_P5_PGD0_PG_STS",           BIT(17)},
654 	{"ACE_PGD1_PGD0_PG_STS",         BIT(23)},
655 	{"ACE_PGD5_PGD1_PG_STS",         BIT(25)},
656 	{"G5FPW1_PGD0_PG_STS",           BIT(27)},
657 	{"ACE_PGD6_PG_STS",              BIT(29)},
658 	{"GBETSN1_PGD0_PG_STS",          BIT(31)},
659 	{}
660 };
661 
662 const struct pmc_bit_map mtl_ioep_power_gating_status_2_map[] = {
663 	{"FIA_PGD0_PG_STS",              BIT(1)},
664 	{"FIA_P_PGD0_PG_STS",            BIT(3)},
665 	{"TAM_PGD0_PG_STS",              BIT(4)},
666 	{"GBETSN_PGD0_PG_STS",           BIT(5)},
667 	{"IOE_D2D_PGD2_PG_STS",          BIT(6)},
668 	{"IOE_D2D_PGD1_PG_STS",          BIT(7)},
669 	{"SPF_PGD0_PG_STS",              BIT(8)},
670 	{"PMC_PGD1_PG_STS",              BIT(9)},
671 	{}
672 };
673 
674 const struct pmc_bit_map mtl_ioep_d3_status_0_map[] = {
675 	{"SPF_D3_STS",                   BIT(0)},
676 	{"SPA_D3_STS",                   BIT(12)},
677 	{"SPB_D3_STS",                   BIT(13)},
678 	{"SPC_D3_STS",                   BIT(14)},
679 	{"SPD_D3_STS",                   BIT(15)},
680 	{"SPE_D3_STS",                   BIT(16)},
681 	{"DMI_D3_STS",                   BIT(22)},
682 	{}
683 };
684 
685 const struct pmc_bit_map mtl_ioep_d3_status_1_map[] = {
686 	{"GBETSN1_D3_STS",               BIT(14)},
687 	{"P2S_D3_STS",                   BIT(24)},
688 	{}
689 };
690 
691 const struct pmc_bit_map mtl_ioep_d3_status_2_map[] = {
692 	{}
693 };
694 
695 const struct pmc_bit_map mtl_ioep_d3_status_3_map[] = {
696 	{"GBETSN_D3_STS",                BIT(13)},
697 	{"ACE_D3_STS",                   BIT(23)},
698 	{}
699 };
700 
701 const struct pmc_bit_map mtl_ioep_vnn_req_status_0_map[] = {
702 	{"FIA_VNN_REQ_STS",              BIT(17)},
703 	{}
704 };
705 
706 const struct pmc_bit_map mtl_ioep_vnn_req_status_1_map[] = {
707 	{"DFXAGG_VNN_REQ_STS",           BIT(8)},
708 	{}
709 };
710 
711 const struct pmc_bit_map mtl_ioep_vnn_req_status_2_map[] = {
712 	{}
713 };
714 
715 const struct pmc_bit_map mtl_ioep_vnn_req_status_3_map[] = {
716 	{"DTS0_VNN_REQ_STS",             BIT(7)},
717 	{"DISP_VNN_REQ_STS",             BIT(19)},
718 	{}
719 };
720 
721 const struct pmc_bit_map mtl_ioep_vnn_misc_status_map[] = {
722 	{"CPU_C10_REQ_STS",              BIT(0)},
723 	{"TS_OFF_REQ_STS",               BIT(1)},
724 	{"PNDE_MET_REQ_STS",             BIT(2)},
725 	{"PCIE_DEEP_PM_REQ_STS",         BIT(3)},
726 	{"PMC_CLK_THROTTLE_EN_REQ_STS",  BIT(4)},
727 	{"NPK_VNNAON_REQ_STS",           BIT(5)},
728 	{"VNN_SOC_REQ_STS",              BIT(6)},
729 	{"USB_DEVICE_ATTACHED_REQ_STS",  BIT(8)},
730 	{"FIA_EXIT_REQ_STS",             BIT(9)},
731 	{"USB2_SUS_PG_REQ_STS",          BIT(10)},
732 	{"PLT_GREATER_REQ_STS",          BIT(11)},
733 	{"PCIE_CLKREQ_REQ_STS",          BIT(12)},
734 	{"PMC_IDLE_FB_OCP_REQ_STS",      BIT(13)},
735 	{"PM_SYNC_STATES_REQ_STS",       BIT(14)},
736 	{"EA_REQ_STS",                   BIT(15)},
737 	{"MPHY_CORE_OFF_REQ_STS",        BIT(16)},
738 	{"BRK_EV_EN_REQ_STS",            BIT(17)},
739 	{"AUTO_DEMO_EN_REQ_STS",         BIT(18)},
740 	{"ITSS_CLK_SRC_REQ_STS",         BIT(19)},
741 	{"LPC_CLK_SRC_REQ_STS",          BIT(20)},
742 	{"ARC_IDLE_REQ_STS",             BIT(21)},
743 	{"MPHY_SUS_REQ_STS",             BIT(22)},
744 	{"FIA_DEEP_PM_REQ_STS",          BIT(23)},
745 	{"UXD_CONNECTED_REQ_STS",        BIT(24)},
746 	{"ARC_INTERRUPT_WAKE_REQ_STS",   BIT(25)},
747 	{"USB2_VNNAON_ACT_REQ_STS",      BIT(26)},
748 	{"PRE_WAKE0_REQ_STS",            BIT(27)},
749 	{"PRE_WAKE1_REQ_STS",            BIT(28)},
750 	{"PRE_WAKE2_EN_REQ_STS",         BIT(29)},
751 	{"WOV_REQ_STS",                  BIT(30)},
752 	{"CNVI_V1P05_REQ_STS",           BIT(31)},
753 	{}
754 };
755 
756 const struct pmc_bit_map *mtl_ioep_lpm_maps[] = {
757 	mtl_ioep_clocksource_status_map,
758 	mtl_ioep_power_gating_status_0_map,
759 	mtl_ioep_power_gating_status_1_map,
760 	mtl_ioep_power_gating_status_2_map,
761 	mtl_ioep_d3_status_0_map,
762 	mtl_ioep_d3_status_1_map,
763 	mtl_ioep_d3_status_2_map,
764 	mtl_ioep_d3_status_3_map,
765 	mtl_ioep_vnn_req_status_0_map,
766 	mtl_ioep_vnn_req_status_1_map,
767 	mtl_ioep_vnn_req_status_2_map,
768 	mtl_ioep_vnn_req_status_3_map,
769 	mtl_ioep_vnn_misc_status_map,
770 	mtl_socm_signal_status_map,
771 	NULL
772 };
773 
774 const struct pmc_reg_map mtl_ioep_reg_map = {
775 	.regmap_length = MTL_IOE_PMC_MMIO_REG_LEN,
776 	.pfear_sts = ext_mtl_ioep_pfear_map,
777 	.ppfear0_offset = CNP_PMC_HOST_PPFEAR0A,
778 	.ppfear_buckets = MTL_IOE_PPFEAR_NUM_ENTRIES,
779 	.lpm_status_offset = MTL_LPM_STATUS_OFFSET,
780 	.lpm_live_status_offset = MTL_LPM_LIVE_STATUS_OFFSET,
781 	.lpm_sts = mtl_ioep_lpm_maps,
782 	.ltr_show_sts = mtl_ioep_ltr_show_map,
783 	.ltr_ignore_offset = CNP_PMC_LTR_IGNORE_OFFSET,
784 	.ltr_ignore_max = ADL_NUM_IP_IGN_ALLOWED,
785 };
786 
787 const struct pmc_bit_map mtl_ioem_pfear_map[] = {
788 	{"PMC_0",               BIT(0)},
789 	{"OPI",                 BIT(1)},
790 	{"TCSS",                BIT(2)},
791 	{"RSVD3",               BIT(3)},
792 	{"SPA",                 BIT(4)},
793 	{"SPB",                 BIT(5)},
794 	{"SPC",                 BIT(6)},
795 	{"IOE_D2D_3",           BIT(7)},
796 
797 	{"RSVD8",               BIT(0)},
798 	{"RSVD9",               BIT(1)},
799 	{"SPE",                 BIT(2)},
800 	{"RSVD11",              BIT(3)},
801 	{"RSVD12",              BIT(4)},
802 	{"SPD",                 BIT(5)},
803 	{"ACE_7",               BIT(6)},
804 	{"RSVD15",              BIT(7)},
805 
806 	{"ACE_0",               BIT(0)},
807 	{"FIACPCB_P",           BIT(1)},
808 	{"P2S",                 BIT(2)},
809 	{"RSVD19",              BIT(3)},
810 	{"ACE_8",               BIT(4)},
811 	{"IOE_D2D_0",           BIT(5)},
812 	{"FUSE",                BIT(6)},
813 	{"RSVD23",              BIT(7)},
814 
815 	{"FIACPCB_P5",          BIT(0)},
816 	{"ACE_3",               BIT(1)},
817 	{"RSF5",                BIT(2)},
818 	{"ACE_2",               BIT(3)},
819 	{"ACE_4",               BIT(4)},
820 	{"RSVD29",              BIT(5)},
821 	{"RSF10",               BIT(6)},
822 	{"MPFPW5",              BIT(7)},
823 
824 	{"PSF9",                BIT(0)},
825 	{"MPFPW4",              BIT(1)},
826 	{"RSVD34",              BIT(2)},
827 	{"RSVD35",              BIT(3)},
828 	{"RSVD36",              BIT(4)},
829 	{"RSVD37",              BIT(5)},
830 	{"RSVD38",              BIT(6)},
831 	{"RSVD39",              BIT(7)},
832 
833 	{"SBR0",                BIT(0)},
834 	{"SBR1",                BIT(1)},
835 	{"SBR2",                BIT(2)},
836 	{"SBR3",                BIT(3)},
837 	{"SBR4",                BIT(4)},
838 	{"RSVD45",              BIT(5)},
839 	{"RSVD46",              BIT(6)},
840 	{"RSVD47",              BIT(7)},
841 
842 	{"RSVD48",              BIT(0)},
843 	{"FIA_P5",              BIT(1)},
844 	{"RSVD50",              BIT(2)},
845 	{"RSVD51",              BIT(3)},
846 	{"RSVD52",              BIT(4)},
847 	{"RSVD53",              BIT(5)},
848 	{"RSVD54",              BIT(6)},
849 	{"ACE_1",               BIT(7)},
850 
851 	{"RSVD56",              BIT(0)},
852 	{"ACE_5",               BIT(1)},
853 	{"RSVD58",              BIT(2)},
854 	{"G5FPW1",              BIT(3)},
855 	{"RSVD60",              BIT(4)},
856 	{"ACE_6",               BIT(5)},
857 	{"RSVD62",              BIT(6)},
858 	{"GBETSN1",             BIT(7)},
859 
860 	{"RSVD64",              BIT(0)},
861 	{"FIA",                 BIT(1)},
862 	{"RSVD66",              BIT(2)},
863 	{"FIA_P",               BIT(3)},
864 	{"TAM",                 BIT(4)},
865 	{"GBETSN",              BIT(5)},
866 	{"IOE_D2D_2",           BIT(6)},
867 	{"IOE_D2D_1",           BIT(7)},
868 
869 	{"SPF",                 BIT(0)},
870 	{"PMC_1",               BIT(1)},
871 	{}
872 };
873 
874 const struct pmc_bit_map *ext_mtl_ioem_pfear_map[] = {
875 	mtl_ioem_pfear_map,
876 	NULL
877 };
878 
879 const struct pmc_bit_map mtl_ioem_power_gating_status_1_map[] = {
880 	{"PSF9_PGD0_PG_STS",                    BIT(0)},
881 	{"MPFPW4_PGD0_PG_STS",                  BIT(1)},
882 	{"SBR0_PGD0_PG_STS",                    BIT(8)},
883 	{"SBR1_PGD0_PG_STS",                    BIT(9)},
884 	{"SBR2_PGD0_PG_STS",                    BIT(10)},
885 	{"SBR3_PGD0_PG_STS",                    BIT(11)},
886 	{"SBR4_PGD0_PG_STS",                    BIT(12)},
887 	{"FIA_P5_PGD0_PG_STS",                  BIT(17)},
888 	{"ACE_PGD1_PGD0_PG_STS",                BIT(23)},
889 	{"ACE_PGD5_PGD1_PG_STS",                BIT(25)},
890 	{"G5FPW1_PGD0_PG_STS",                  BIT(27)},
891 	{"ACE_PGD6_PG_STS",                     BIT(29)},
892 	{"GBETSN1_PGD0_PG_STS",                 BIT(31)},
893 	{}
894 };
895 
896 const struct pmc_bit_map *mtl_ioem_lpm_maps[] = {
897 	mtl_ioep_clocksource_status_map,
898 	mtl_ioep_power_gating_status_0_map,
899 	mtl_ioem_power_gating_status_1_map,
900 	mtl_ioep_power_gating_status_2_map,
901 	mtl_ioep_d3_status_0_map,
902 	mtl_ioep_d3_status_1_map,
903 	mtl_ioep_d3_status_2_map,
904 	mtl_ioep_d3_status_3_map,
905 	mtl_ioep_vnn_req_status_0_map,
906 	mtl_ioep_vnn_req_status_1_map,
907 	mtl_ioep_vnn_req_status_2_map,
908 	mtl_ioep_vnn_req_status_3_map,
909 	mtl_ioep_vnn_misc_status_map,
910 	mtl_socm_signal_status_map,
911 	NULL
912 };
913 
914 const struct pmc_reg_map mtl_ioem_reg_map = {
915 	.regmap_length = MTL_IOE_PMC_MMIO_REG_LEN,
916 	.pfear_sts = ext_mtl_ioem_pfear_map,
917 	.ppfear0_offset = CNP_PMC_HOST_PPFEAR0A,
918 	.ppfear_buckets = MTL_IOE_PPFEAR_NUM_ENTRIES,
919 	.lpm_status_offset = MTL_LPM_STATUS_OFFSET,
920 	.lpm_live_status_offset = MTL_LPM_LIVE_STATUS_OFFSET,
921 	.lpm_sts = mtl_ioem_lpm_maps,
922 	.ltr_show_sts = mtl_ioep_ltr_show_map,
923 	.ltr_ignore_offset = CNP_PMC_LTR_IGNORE_OFFSET,
924 	.ltr_ignore_max = ADL_NUM_IP_IGN_ALLOWED,
925 };
926 
927 #define PMC_DEVID_SOCM	0x7e7f
928 #define PMC_DEVID_IOEP	0x7ecf
929 #define PMC_DEVID_IOEM	0x7ebf
930 static struct pmc_info mtl_pmc_info_list[] = {
931 	{
932 		.devid = PMC_DEVID_SOCM,
933 		.map = &mtl_socm_reg_map,
934 	},
935 	{
936 		.devid = PMC_DEVID_IOEP,
937 		.map = &mtl_ioep_reg_map,
938 	},
939 	{
940 		.devid = PMC_DEVID_IOEM,
941 		.map = &mtl_ioem_reg_map
942 	},
943 	{}
944 };
945 
946 #define MTL_GNA_PCI_DEV	0x7e4c
947 #define MTL_IPU_PCI_DEV	0x7d19
948 #define MTL_VPU_PCI_DEV	0x7d1d
mtl_set_device_d3(unsigned int device)949 static void mtl_set_device_d3(unsigned int device)
950 {
951 	struct pci_dev *pcidev;
952 
953 	pcidev = pci_get_device(PCI_VENDOR_ID_INTEL, device, NULL);
954 	if (pcidev) {
955 		if (!device_trylock(&pcidev->dev)) {
956 			pci_dev_put(pcidev);
957 			return;
958 		}
959 		if (!pcidev->dev.driver) {
960 			dev_info(&pcidev->dev, "Setting to D3hot\n");
961 			pci_set_power_state(pcidev, PCI_D3hot);
962 		}
963 		device_unlock(&pcidev->dev);
964 		pci_dev_put(pcidev);
965 	}
966 }
967 
968 /*
969  * Set power state of select devices that do not have drivers to D3
970  * so that they do not block Package C entry.
971  */
mtl_d3_fixup(void)972 static void mtl_d3_fixup(void)
973 {
974 	mtl_set_device_d3(MTL_GNA_PCI_DEV);
975 	mtl_set_device_d3(MTL_IPU_PCI_DEV);
976 	mtl_set_device_d3(MTL_VPU_PCI_DEV);
977 }
978 
mtl_resume(struct pmc_dev * pmcdev)979 static int mtl_resume(struct pmc_dev *pmcdev)
980 {
981 	mtl_d3_fixup();
982 	pmc_core_send_ltr_ignore(pmcdev, 3, 0);
983 
984 	return pmc_core_resume_common(pmcdev);
985 }
986 
mtl_core_init(struct pmc_dev * pmcdev)987 int mtl_core_init(struct pmc_dev *pmcdev)
988 {
989 	struct pmc *pmc = pmcdev->pmcs[PMC_IDX_SOC];
990 	int ret = 0;
991 
992 	mtl_d3_fixup();
993 
994 	pmcdev->suspend = cnl_suspend;
995 	pmcdev->resume = mtl_resume;
996 
997 	pmcdev->regmap_list = mtl_pmc_info_list;
998 	pmc_core_ssram_init(pmcdev);
999 
1000 	/* If regbase not assigned, set map and discover using legacy method */
1001 	if (!pmc->regbase) {
1002 		pmc->map = &mtl_socm_reg_map;
1003 		ret = get_primary_reg_base(pmc);
1004 		if (ret)
1005 			return ret;
1006 	}
1007 
1008 	return 0;
1009 }
1010