// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #include "cpu.h" enum topo_types { INVALID_TYPE = 0, SMT_TYPE = 1, CORE_TYPE = 2, MAX_TYPE_0B = 3, MODULE_TYPE = 3, TILE_TYPE = 4, DIE_TYPE = 5, DIEGRP_TYPE = 6, MAX_TYPE_1F = 7, }; /* * Use a lookup table for the case that there are future types > 6 which * describe an intermediate domain level which does not exist today. */ static const unsigned int topo_domain_map_0b_1f[MAX_TYPE_1F] = { [SMT_TYPE] = TOPO_SMT_DOMAIN, [CORE_TYPE] = TOPO_CORE_DOMAIN, [MODULE_TYPE] = TOPO_MODULE_DOMAIN, [TILE_TYPE] = TOPO_TILE_DOMAIN, [DIE_TYPE] = TOPO_DIE_DOMAIN, [DIEGRP_TYPE] = TOPO_DIEGRP_DOMAIN, }; static inline bool topo_subleaf(struct topo_scan *tscan, u32 leaf, u32 subleaf, unsigned int *last_dom) { unsigned int dom, maxtype; const unsigned int *map; struct { // eax u32 x2apic_shift : 5, // Number of bits to shift APIC ID right // for the topology ID at the next level : 27; // Reserved // ebx u32 num_processors : 16, // Number of processors at current level : 16; // Reserved // ecx u32 level : 8, // Current topology level. Same as sub leaf number type : 8, // Level type. If 0, invalid : 16; // Reserved // edx u32 x2apic_id : 32; // X2APIC ID of the current logical processor } sl; switch (leaf) { case 0x0b: maxtype = MAX_TYPE_0B; map = topo_domain_map_0b_1f; break; case 0x1f: maxtype = MAX_TYPE_1F; map = topo_domain_map_0b_1f; break; default: return false; } cpuid_subleaf(leaf, subleaf, &sl); if (!sl.num_processors || sl.type == INVALID_TYPE) return false; if (sl.type >= maxtype) { pr_err_once("Topology: leaf 0x%x:%d Unknown domain type %u\n", leaf, subleaf, sl.type); /* * It really would have been too obvious to make the domain * type space sparse and leave a few reserved types between * the points which might change instead of following the * usual "this can be fixed in software" principle. */ dom = *last_dom + 1; } else { dom = map[sl.type]; *last_dom = dom; } if (!dom) { tscan->c->topo.initial_apicid = sl.x2apic_id; } else if (tscan->c->topo.initial_apicid != sl.x2apic_id) { pr_warn_once(FW_BUG "CPUID leaf 0x%x subleaf %d APIC ID mismatch %x != %x\n", leaf, subleaf, tscan->c->topo.initial_apicid, sl.x2apic_id); } topology_set_dom(tscan, dom, sl.x2apic_shift, sl.num_processors); return true; } static bool parse_topology_leaf(struct topo_scan *tscan, u32 leaf) { unsigned int last_dom; u32 subleaf; /* Read all available subleafs and populate the levels */ for (subleaf = 0, last_dom = 0; topo_subleaf(tscan, leaf, subleaf, &last_dom); subleaf++); /* If subleaf 0 failed to parse, give up */ if (!subleaf) return false; /* * There are machines in the wild which have shift 0 in the subleaf * 0, but advertise 2 logical processors at that level. They are * truly SMT. */ if (!tscan->dom_shifts[TOPO_SMT_DOMAIN] && tscan->dom_ncpus[TOPO_SMT_DOMAIN] > 1) { unsigned int sft = get_count_order(tscan->dom_ncpus[TOPO_SMT_DOMAIN]); pr_warn_once(FW_BUG "CPUID leaf 0x%x subleaf 0 has shift level 0 but %u CPUs. Fixing it up.\n", leaf, tscan->dom_ncpus[TOPO_SMT_DOMAIN]); topology_update_dom(tscan, TOPO_SMT_DOMAIN, sft, tscan->dom_ncpus[TOPO_SMT_DOMAIN]); } set_cpu_cap(tscan->c, X86_FEATURE_XTOPOLOGY); return true; } bool cpu_parse_topology_ext(struct topo_scan *tscan) { /* Intel: Try leaf 0x1F first. */ if (tscan->c->cpuid_level >= 0x1f && parse_topology_leaf(tscan, 0x1f)) return true; /* Intel/AMD: Fall back to leaf 0xB if available */ return tscan->c->cpuid_level >= 0x0b && parse_topology_leaf(tscan, 0x0b); }