// SPDX-License-Identifier: MIT /* * Copyright © 2020,2021 Intel Corporation */ #include "i915_drv.h" #include "intel_step.h" /* * Some platforms have unusual ways of mapping PCI revision ID to GT/display * steppings. E.g., in some cases a higher PCI revision may translate to a * lower stepping of the GT and/or display IP. This file provides lookup * tables to map the PCI revision into a standard set of stepping values that * can be compared numerically. * * Also note that some revisions/steppings may have been set aside as * placeholders but never materialized in real hardware; in those cases there * may be jumps in the revision IDs or stepping values in the tables below. */ /* * Some platforms always have the same stepping value for GT and display; * use a macro to define these to make it easier to identify the platforms * where the two steppings can deviate. */ #define COMMON_STEP(x) .graphics_step = STEP_##x, .media_step = STEP_##x static const struct intel_step_info skl_revids[] = { [0x6] = { COMMON_STEP(G0) }, [0x7] = { COMMON_STEP(H0) }, [0x9] = { COMMON_STEP(J0) }, [0xA] = { COMMON_STEP(I1) }, }; static const struct intel_step_info kbl_revids[] = { [1] = { COMMON_STEP(B0) }, [2] = { COMMON_STEP(C0) }, [3] = { COMMON_STEP(D0) }, [4] = { COMMON_STEP(F0) }, [5] = { COMMON_STEP(C0) }, [6] = { COMMON_STEP(D1) }, [7] = { COMMON_STEP(G0) }, }; static const struct intel_step_info bxt_revids[] = { [0xA] = { COMMON_STEP(C0) }, [0xB] = { COMMON_STEP(C0) }, [0xC] = { COMMON_STEP(D0) }, [0xD] = { COMMON_STEP(E0) }, }; static const struct intel_step_info glk_revids[] = { [3] = { COMMON_STEP(B0) }, }; static const struct intel_step_info icl_revids[] = { [7] = { COMMON_STEP(D0) }, }; static const struct intel_step_info jsl_ehl_revids[] = { [0] = { COMMON_STEP(A0) }, [1] = { COMMON_STEP(B0) }, }; static const struct intel_step_info tgl_uy_revids[] = { [0] = { COMMON_STEP(A0) }, [1] = { COMMON_STEP(B0) }, [2] = { COMMON_STEP(B1) }, [3] = { COMMON_STEP(C0) }, }; /* Same GT stepping between tgl_uy_revids and tgl_revids don't mean the same HW */ static const struct intel_step_info tgl_revids[] = { [0] = { COMMON_STEP(A0) }, [1] = { COMMON_STEP(B0) }, }; static const struct intel_step_info rkl_revids[] = { [0] = { COMMON_STEP(A0) }, [1] = { COMMON_STEP(B0) }, [4] = { COMMON_STEP(C0) }, }; static const struct intel_step_info dg1_revids[] = { [0] = { COMMON_STEP(A0) }, [1] = { COMMON_STEP(B0) }, }; static const struct intel_step_info adls_revids[] = { [0x0] = { COMMON_STEP(A0) }, [0x1] = { COMMON_STEP(A0) }, [0x4] = { COMMON_STEP(B0) }, [0x8] = { COMMON_STEP(C0) }, [0xC] = { COMMON_STEP(D0) }, }; static const struct intel_step_info adlp_revids[] = { [0x0] = { COMMON_STEP(A0) }, [0x4] = { COMMON_STEP(B0) }, [0x8] = { COMMON_STEP(C0) }, [0xC] = { COMMON_STEP(C0) }, }; static const struct intel_step_info dg2_g10_revid_step_tbl[] = { [0x0] = { COMMON_STEP(A0) }, [0x1] = { COMMON_STEP(A1) }, [0x4] = { COMMON_STEP(B0) }, [0x8] = { COMMON_STEP(C0) }, }; static const struct intel_step_info dg2_g11_revid_step_tbl[] = { [0x0] = { COMMON_STEP(A0) }, [0x4] = { COMMON_STEP(B0) }, [0x5] = { COMMON_STEP(B1) }, }; static const struct intel_step_info dg2_g12_revid_step_tbl[] = { [0x0] = { COMMON_STEP(A0) }, [0x1] = { COMMON_STEP(A1) }, }; static const struct intel_step_info adls_rpls_revids[] = { [0x4] = { COMMON_STEP(D0) }, [0xC] = { COMMON_STEP(D0) }, }; static const struct intel_step_info adlp_rplp_revids[] = { [0x4] = { COMMON_STEP(C0) }, }; static const struct intel_step_info adlp_n_revids[] = { [0x0] = { COMMON_STEP(A0) }, }; static u8 gmd_to_intel_step(struct drm_i915_private *i915, struct intel_ip_version *gmd) { u8 step = gmd->step + STEP_A0; if (step >= STEP_FUTURE) { drm_dbg(&i915->drm, "Using future steppings\n"); return STEP_FUTURE; } return step; } void intel_step_init(struct drm_i915_private *i915) { const struct intel_step_info *revids = NULL; int size = 0; int revid = INTEL_REVID(i915); struct intel_step_info step = {}; if (HAS_GMD_ID(i915)) { step.graphics_step = gmd_to_intel_step(i915, &RUNTIME_INFO(i915)->graphics.ip); step.media_step = gmd_to_intel_step(i915, &RUNTIME_INFO(i915)->media.ip); RUNTIME_INFO(i915)->step = step; return; } if (IS_DG2_G10(i915)) { revids = dg2_g10_revid_step_tbl; size = ARRAY_SIZE(dg2_g10_revid_step_tbl); } else if (IS_DG2_G11(i915)) { revids = dg2_g11_revid_step_tbl; size = ARRAY_SIZE(dg2_g11_revid_step_tbl); } else if (IS_DG2_G12(i915)) { revids = dg2_g12_revid_step_tbl; size = ARRAY_SIZE(dg2_g12_revid_step_tbl); } else if (IS_ALDERLAKE_P_N(i915)) { revids = adlp_n_revids; size = ARRAY_SIZE(adlp_n_revids); } else if (IS_RAPTORLAKE_P(i915)) { revids = adlp_rplp_revids; size = ARRAY_SIZE(adlp_rplp_revids); } else if (IS_ALDERLAKE_P(i915)) { revids = adlp_revids; size = ARRAY_SIZE(adlp_revids); } else if (IS_RAPTORLAKE_S(i915)) { revids = adls_rpls_revids; size = ARRAY_SIZE(adls_rpls_revids); } else if (IS_ALDERLAKE_S(i915)) { revids = adls_revids; size = ARRAY_SIZE(adls_revids); } else if (IS_DG1(i915)) { revids = dg1_revids; size = ARRAY_SIZE(dg1_revids); } else if (IS_ROCKETLAKE(i915)) { revids = rkl_revids; size = ARRAY_SIZE(rkl_revids); } else if (IS_TIGERLAKE_UY(i915)) { revids = tgl_uy_revids; size = ARRAY_SIZE(tgl_uy_revids); } else if (IS_TIGERLAKE(i915)) { revids = tgl_revids; size = ARRAY_SIZE(tgl_revids); } else if (IS_JASPERLAKE(i915) || IS_ELKHARTLAKE(i915)) { revids = jsl_ehl_revids; size = ARRAY_SIZE(jsl_ehl_revids); } else if (IS_ICELAKE(i915)) { revids = icl_revids; size = ARRAY_SIZE(icl_revids); } else if (IS_GEMINILAKE(i915)) { revids = glk_revids; size = ARRAY_SIZE(glk_revids); } else if (IS_BROXTON(i915)) { revids = bxt_revids; size = ARRAY_SIZE(bxt_revids); } else if (IS_KABYLAKE(i915)) { revids = kbl_revids; size = ARRAY_SIZE(kbl_revids); } else if (IS_SKYLAKE(i915)) { revids = skl_revids; size = ARRAY_SIZE(skl_revids); } /* Not using the stepping scheme for the platform yet. */ if (!revids) return; if (revid < size && revids[revid].graphics_step != STEP_NONE) { step = revids[revid]; } else { drm_warn(&i915->drm, "Unknown revid 0x%02x\n", revid); /* * If we hit a gap in the revid array, use the information for * the next revid. * * This may be wrong in all sorts of ways, especially if the * steppings in the array are not monotonically increasing, but * it's better than defaulting to 0. */ while (revid < size && revids[revid].graphics_step == STEP_NONE) revid++; if (revid < size) { drm_dbg(&i915->drm, "Using steppings for revid 0x%02x\n", revid); step = revids[revid]; } else { drm_dbg(&i915->drm, "Using future steppings\n"); step.graphics_step = STEP_FUTURE; } } if (drm_WARN_ON(&i915->drm, step.graphics_step == STEP_NONE)) return; RUNTIME_INFO(i915)->step = step; } #define STEP_NAME_CASE(name) \ case STEP_##name: \ return #name; const char *intel_step_name(enum intel_step step) { switch (step) { STEP_NAME_LIST(STEP_NAME_CASE); default: return "**"; } }