| 1 | // SPDX-License-Identifier: GPL-2.0 |
|---|---|
| 2 | #include <asm/cpu_device_id.h> |
| 3 | #include <asm/cpufeature.h> |
| 4 | #include <linux/cpu.h> |
| 5 | #include <linux/export.h> |
| 6 | #include <linux/slab.h> |
| 7 | |
| 8 | /** |
| 9 | * x86_match_vendor_cpu_type - helper function to match the hardware defined |
| 10 | * cpu-type for a single entry in the x86_cpu_id |
| 11 | * table. Note, this function does not match the |
| 12 | * generic cpu-types TOPO_CPU_TYPE_EFFICIENCY and |
| 13 | * TOPO_CPU_TYPE_PERFORMANCE. |
| 14 | * @c: Pointer to the cpuinfo_x86 structure of the CPU to match. |
| 15 | * @m: Pointer to the x86_cpu_id entry to match against. |
| 16 | * |
| 17 | * Return: true if the cpu-type matches, false otherwise. |
| 18 | */ |
| 19 | static bool x86_match_vendor_cpu_type(struct cpuinfo_x86 *c, const struct x86_cpu_id *m) |
| 20 | { |
| 21 | if (m->type == X86_CPU_TYPE_ANY) |
| 22 | return true; |
| 23 | |
| 24 | /* Hybrid CPUs are special, they are assumed to match all cpu-types */ |
| 25 | if (cpu_feature_enabled(X86_FEATURE_HYBRID_CPU)) |
| 26 | return true; |
| 27 | |
| 28 | if (c->x86_vendor == X86_VENDOR_INTEL) |
| 29 | return m->type == c->topo.intel_type; |
| 30 | if (c->x86_vendor == X86_VENDOR_AMD) |
| 31 | return m->type == c->topo.amd_type; |
| 32 | |
| 33 | return false; |
| 34 | } |
| 35 | |
| 36 | /** |
| 37 | * x86_match_cpu - match current CPU against an array of x86_cpu_ids |
| 38 | * @match: Pointer to array of x86_cpu_ids. Last entry terminated with |
| 39 | * {}. |
| 40 | * |
| 41 | * Return the entry if the current CPU matches the entries in the |
| 42 | * passed x86_cpu_id match table. Otherwise NULL. The match table |
| 43 | * contains vendor (X86_VENDOR_*), family, model and feature bits or |
| 44 | * respective wildcard entries. |
| 45 | * |
| 46 | * A typical table entry would be to match a specific CPU |
| 47 | * |
| 48 | * X86_MATCH_VFM_FEATURE(INTEL_BROADWELL, X86_FEATURE_ANY, NULL); |
| 49 | * |
| 50 | * Fields can be wildcarded with %X86_VENDOR_ANY, %X86_FAMILY_ANY, |
| 51 | * %X86_MODEL_ANY, %X86_FEATURE_ANY (except for vendor) |
| 52 | * |
| 53 | * asm/cpu_device_id.h contains a set of useful macros which are shortcuts |
| 54 | * for various common selections. The above can be shortened to: |
| 55 | * |
| 56 | * X86_MATCH_VFM(INTEL_BROADWELL, NULL); |
| 57 | * |
| 58 | * Arrays used to match for this should also be declared using |
| 59 | * MODULE_DEVICE_TABLE(x86cpu, ...) |
| 60 | * |
| 61 | * This always matches against the boot cpu, assuming models and features are |
| 62 | * consistent over all CPUs. |
| 63 | */ |
| 64 | const struct x86_cpu_id *x86_match_cpu(const struct x86_cpu_id *match) |
| 65 | { |
| 66 | const struct x86_cpu_id *m; |
| 67 | struct cpuinfo_x86 *c = &boot_cpu_data; |
| 68 | |
| 69 | for (m = match; m->flags & X86_CPU_ID_FLAG_ENTRY_VALID; m++) { |
| 70 | if (m->vendor != X86_VENDOR_ANY && c->x86_vendor != m->vendor) |
| 71 | continue; |
| 72 | if (m->family != X86_FAMILY_ANY && c->x86 != m->family) |
| 73 | continue; |
| 74 | if (m->model != X86_MODEL_ANY && c->x86_model != m->model) |
| 75 | continue; |
| 76 | if (m->steppings != X86_STEPPING_ANY && |
| 77 | !(BIT(c->x86_stepping) & m->steppings)) |
| 78 | continue; |
| 79 | if (m->feature != X86_FEATURE_ANY && !cpu_has(c, m->feature)) |
| 80 | continue; |
| 81 | if (!x86_match_vendor_cpu_type(c, m)) |
| 82 | continue; |
| 83 | return m; |
| 84 | } |
| 85 | return NULL; |
| 86 | } |
| 87 | EXPORT_SYMBOL(x86_match_cpu); |
| 88 | |
| 89 | bool x86_match_min_microcode_rev(const struct x86_cpu_id *table) |
| 90 | { |
| 91 | const struct x86_cpu_id *res = x86_match_cpu(table); |
| 92 | |
| 93 | if (!res || res->driver_data > boot_cpu_data.microcode) |
| 94 | return false; |
| 95 | |
| 96 | return true; |
| 97 | } |
| 98 | EXPORT_SYMBOL_GPL(x86_match_min_microcode_rev); |
| 99 |
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