1 // SPDX-License-Identifier: MIT
2 /*
3  * Copyright © 2022 Intel Corporation
4  */
5 
6 #include "xe_step.h"
7 
8 #include <linux/bitfield.h>
9 
10 #include "xe_device.h"
11 #include "xe_platform_types.h"
12 
13 /*
14  * Provide mapping between PCI's revision ID to the individual GMD
15  * (Graphics/Media/Display) stepping values that can be compared numerically.
16  *
17  * Some platforms may have unusual ways of mapping PCI revision ID to GMD
18  * steppings.  E.g., in some cases a higher PCI revision may translate to a
19  * lower stepping of the GT and/or display IP.
20  *
21  * Also note that some revisions/steppings may have been set aside as
22  * placeholders but never materialized in real hardware; in those cases there
23  * may be jumps in the revision IDs or stepping values in the tables below.
24  */
25 
26 /*
27  * Some platforms always have the same stepping value for GT and display;
28  * use a macro to define these to make it easier to identify the platforms
29  * where the two steppings can deviate.
30  */
31 #define COMMON_STEP(x_)			\
32 	.graphics = STEP_##x_,		\
33 	.media = STEP_##x_
34 
35 __diag_push();
36 __diag_ignore_all("-Woverride-init", "Allow field overrides in table");
37 
38 /* Same GT stepping between tgl_uy_revids and tgl_revids don't mean the same HW */
39 static const struct xe_step_info tgl_revids[] = {
40 	[0] = { COMMON_STEP(A0) },
41 	[1] = { COMMON_STEP(B0) },
42 };
43 
44 static const struct xe_step_info dg1_revids[] = {
45 	[0] = { COMMON_STEP(A0) },
46 	[1] = { COMMON_STEP(B0) },
47 };
48 
49 static const struct xe_step_info adls_revids[] = {
50 	[0x0] = { COMMON_STEP(A0) },
51 	[0x1] = { COMMON_STEP(A0) },
52 	[0x4] = { COMMON_STEP(B0) },
53 	[0x8] = { COMMON_STEP(C0) },
54 	[0xC] = { COMMON_STEP(D0) },
55 };
56 
57 static const struct xe_step_info adls_rpls_revids[] = {
58 	[0x4] = { COMMON_STEP(D0) },
59 	[0xC] = { COMMON_STEP(D0) },
60 };
61 
62 static const struct xe_step_info adlp_revids[] = {
63 	[0x0] = { COMMON_STEP(A0) },
64 	[0x4] = { COMMON_STEP(B0) },
65 	[0x8] = { COMMON_STEP(C0) },
66 	[0xC] = { COMMON_STEP(C0) },
67 };
68 
69 static const struct xe_step_info adlp_rpl_revids[] = {
70 	[0x4] = { COMMON_STEP(C0) },
71 };
72 
73 static const struct xe_step_info adln_revids[] = {
74 	[0x0] = { COMMON_STEP(A0) },
75 };
76 
77 static const struct xe_step_info dg2_g10_revid_step_tbl[] = {
78 	[0x0] = { COMMON_STEP(A0) },
79 	[0x1] = { COMMON_STEP(A1) },
80 	[0x4] = { COMMON_STEP(B0) },
81 	[0x8] = { COMMON_STEP(C0) },
82 };
83 
84 static const struct xe_step_info dg2_g11_revid_step_tbl[] = {
85 	[0x0] = { COMMON_STEP(A0) },
86 	[0x4] = { COMMON_STEP(B0) },
87 	[0x5] = { COMMON_STEP(B1) },
88 };
89 
90 static const struct xe_step_info dg2_g12_revid_step_tbl[] = {
91 	[0x0] = { COMMON_STEP(A0) },
92 	[0x1] = { COMMON_STEP(A1) },
93 };
94 
95 static const struct xe_step_info pvc_revid_step_tbl[] = {
96 	[0x5] = { .graphics = STEP_B0 },
97 	[0x6] = { .graphics = STEP_B1 },
98 	[0x7] = { .graphics = STEP_C0 },
99 };
100 
101 static const int pvc_basedie_subids[] = {
102 	[0x3] = STEP_B0,
103 	[0x4] = STEP_B1,
104 	[0x5] = STEP_B3,
105 };
106 
107 __diag_pop();
108 
109 /**
110  * xe_step_pre_gmdid_get - Determine IP steppings from PCI revid
111  * @xe: Xe device
112  *
113  * Convert the PCI revid into proper IP steppings.  This should only be
114  * used on platforms that do not have GMD_ID support.
115  */
xe_step_pre_gmdid_get(struct xe_device * xe)116 struct xe_step_info xe_step_pre_gmdid_get(struct xe_device *xe)
117 {
118 	const struct xe_step_info *revids = NULL;
119 	struct xe_step_info step = {};
120 	u16 revid = xe->info.revid;
121 	int size = 0;
122 	const int *basedie_info = NULL;
123 	int basedie_size = 0;
124 	int baseid = 0;
125 
126 	if (xe->info.platform == XE_PVC) {
127 		baseid = FIELD_GET(GENMASK(5, 3), xe->info.revid);
128 		revid = FIELD_GET(GENMASK(2, 0), xe->info.revid);
129 		revids = pvc_revid_step_tbl;
130 		size = ARRAY_SIZE(pvc_revid_step_tbl);
131 		basedie_info = pvc_basedie_subids;
132 		basedie_size = ARRAY_SIZE(pvc_basedie_subids);
133 	} else if (xe->info.subplatform == XE_SUBPLATFORM_DG2_G10) {
134 		revids = dg2_g10_revid_step_tbl;
135 		size = ARRAY_SIZE(dg2_g10_revid_step_tbl);
136 	} else if (xe->info.subplatform == XE_SUBPLATFORM_DG2_G11) {
137 		revids = dg2_g11_revid_step_tbl;
138 		size = ARRAY_SIZE(dg2_g11_revid_step_tbl);
139 	} else if (xe->info.subplatform == XE_SUBPLATFORM_DG2_G12) {
140 		revids = dg2_g12_revid_step_tbl;
141 		size = ARRAY_SIZE(dg2_g12_revid_step_tbl);
142 	} else if (xe->info.platform == XE_ALDERLAKE_N) {
143 		revids = adln_revids;
144 		size = ARRAY_SIZE(adln_revids);
145 	} else if (xe->info.subplatform == XE_SUBPLATFORM_ALDERLAKE_S_RPLS) {
146 		revids = adls_rpls_revids;
147 		size = ARRAY_SIZE(adls_rpls_revids);
148 	} else if (xe->info.subplatform == XE_SUBPLATFORM_ALDERLAKE_P_RPLU) {
149 		revids = adlp_rpl_revids;
150 		size = ARRAY_SIZE(adlp_rpl_revids);
151 	} else if (xe->info.platform == XE_ALDERLAKE_P) {
152 		revids = adlp_revids;
153 		size = ARRAY_SIZE(adlp_revids);
154 	} else if (xe->info.platform == XE_ALDERLAKE_S) {
155 		revids = adls_revids;
156 		size = ARRAY_SIZE(adls_revids);
157 	} else if (xe->info.platform == XE_DG1) {
158 		revids = dg1_revids;
159 		size = ARRAY_SIZE(dg1_revids);
160 	} else if (xe->info.platform == XE_TIGERLAKE) {
161 		revids = tgl_revids;
162 		size = ARRAY_SIZE(tgl_revids);
163 	}
164 
165 	/* Not using the stepping scheme for the platform yet. */
166 	if (!revids)
167 		return step;
168 
169 	if (revid < size && revids[revid].graphics != STEP_NONE) {
170 		step = revids[revid];
171 	} else {
172 		drm_warn(&xe->drm, "Unknown revid 0x%02x\n", revid);
173 
174 		/*
175 		 * If we hit a gap in the revid array, use the information for
176 		 * the next revid.
177 		 *
178 		 * This may be wrong in all sorts of ways, especially if the
179 		 * steppings in the array are not monotonically increasing, but
180 		 * it's better than defaulting to 0.
181 		 */
182 		while (revid < size && revids[revid].graphics == STEP_NONE)
183 			revid++;
184 
185 		if (revid < size) {
186 			drm_dbg(&xe->drm, "Using steppings for revid 0x%02x\n",
187 				revid);
188 			step = revids[revid];
189 		} else {
190 			drm_dbg(&xe->drm, "Using future steppings\n");
191 			step.graphics = STEP_FUTURE;
192 		}
193 	}
194 
195 	drm_WARN_ON(&xe->drm, step.graphics == STEP_NONE);
196 
197 	if (basedie_info && basedie_size) {
198 		if (baseid < basedie_size && basedie_info[baseid] != STEP_NONE) {
199 			step.basedie = basedie_info[baseid];
200 		} else {
201 			drm_warn(&xe->drm, "Unknown baseid 0x%02x\n", baseid);
202 			step.basedie = STEP_FUTURE;
203 		}
204 	}
205 
206 	return step;
207 }
208 
209 /**
210  * xe_step_gmdid_get - Determine IP steppings from GMD_ID revid fields
211  * @xe: Xe device
212  * @graphics_gmdid_revid: value of graphics GMD_ID register's revid field
213  * @media_gmdid_revid: value of media GMD_ID register's revid field
214  *
215  * Convert the revid fields of the GMD_ID registers into proper IP steppings.
216  *
217  * GMD_ID revid values are currently expected to have consistent meanings on
218  * all platforms:  major steppings (A0, B0, etc.) are 4 apart, with minor
219  * steppings (A1, A2, etc.) taking the values in between.
220  */
xe_step_gmdid_get(struct xe_device * xe,u32 graphics_gmdid_revid,u32 media_gmdid_revid)221 struct xe_step_info xe_step_gmdid_get(struct xe_device *xe,
222 				      u32 graphics_gmdid_revid,
223 				      u32 media_gmdid_revid)
224 {
225 	struct xe_step_info step = {
226 		.graphics = STEP_A0 + graphics_gmdid_revid,
227 		.media = STEP_A0 + media_gmdid_revid,
228 	};
229 
230 	if (step.graphics >= STEP_FUTURE) {
231 		step.graphics = STEP_FUTURE;
232 		drm_dbg(&xe->drm, "Graphics GMD_ID revid value %d treated as future stepping\n",
233 			graphics_gmdid_revid);
234 	}
235 
236 	if (step.media >= STEP_FUTURE) {
237 		step.media = STEP_FUTURE;
238 		drm_dbg(&xe->drm, "Media GMD_ID revid value %d treated as future stepping\n",
239 			media_gmdid_revid);
240 	}
241 
242 	return step;
243 }
244 
245 #define STEP_NAME_CASE(name)	\
246 	case STEP_##name:	\
247 		return #name;
248 
xe_step_name(enum xe_step step)249 const char *xe_step_name(enum xe_step step)
250 {
251 	switch (step) {
252 	STEP_NAME_LIST(STEP_NAME_CASE);
253 
254 	default:
255 		return "**";
256 	}
257 }
258