// SPDX-License-Identifier: GPL-2.0-only /* * CPU/APIC topology * * The APIC IDs describe the system topology in multiple domain levels. * The CPUID topology parser provides the information which part of the * APIC ID is associated to the individual levels: * * [PACKAGE][DIEGRP][DIE][TILE][MODULE][CORE][THREAD] * * The root space contains the package (socket) IDs. * * Not enumerated levels consume 0 bits space, but conceptually they are * always represented. If e.g. only CORE and THREAD levels are enumerated * then the DIE, MODULE and TILE have the same physical ID as the PACKAGE. * * If SMT is not supported, then the THREAD domain is still used. It then * has the same physical ID as the CORE domain and is the only child of * the core domain. * * This allows a unified view on the system independent of the enumerated * domain levels without requiring any conditionals in the code. */ #define pr_fmt(fmt) "CPU topo: " fmt #include #include #include #include #include #include #include #include "cpu.h" /* * Map cpu index to physical APIC ID */ DEFINE_EARLY_PER_CPU_READ_MOSTLY(u32, x86_cpu_to_apicid, BAD_APICID); DEFINE_EARLY_PER_CPU_READ_MOSTLY(u32, x86_cpu_to_acpiid, CPU_ACPIID_INVALID); EXPORT_EARLY_PER_CPU_SYMBOL(x86_cpu_to_apicid); EXPORT_EARLY_PER_CPU_SYMBOL(x86_cpu_to_acpiid); /* Bitmap of physically present CPUs. */ DECLARE_BITMAP(phys_cpu_present_map, MAX_LOCAL_APIC) __read_mostly; /* Used for CPU number allocation and parallel CPU bringup */ u32 cpuid_to_apicid[] __ro_after_init = { [0 ... NR_CPUS - 1] = BAD_APICID, }; /* Bitmaps to mark registered APICs at each topology domain */ static struct { DECLARE_BITMAP(map, MAX_LOCAL_APIC); } apic_maps[TOPO_MAX_DOMAIN] __ro_after_init; /* * Keep track of assigned, disabled and rejected CPUs. Present assigned * with 1 as CPU #0 is reserved for the boot CPU. */ static struct { unsigned int nr_assigned_cpus; unsigned int nr_disabled_cpus; unsigned int nr_rejected_cpus; u32 boot_cpu_apic_id; u32 real_bsp_apic_id; } topo_info __ro_after_init = { .nr_assigned_cpus = 1, .boot_cpu_apic_id = BAD_APICID, .real_bsp_apic_id = BAD_APICID, }; #define domain_weight(_dom) bitmap_weight(apic_maps[_dom].map, MAX_LOCAL_APIC) bool arch_match_cpu_phys_id(int cpu, u64 phys_id) { return phys_id == (u64)cpuid_to_apicid[cpu]; } #ifdef CONFIG_SMP static void cpu_mark_primary_thread(unsigned int cpu, unsigned int apicid) { if (!(apicid & (__max_threads_per_core - 1))) cpumask_set_cpu(cpu, &__cpu_primary_thread_mask); } #else static inline void cpu_mark_primary_thread(unsigned int cpu, unsigned int apicid) { } #endif /* * Convert the APIC ID to a domain level ID by masking out the low bits * below the domain level @dom. */ static inline u32 topo_apicid(u32 apicid, enum x86_topology_domains dom) { if (dom == TOPO_SMT_DOMAIN) return apicid; return apicid & (UINT_MAX << x86_topo_system.dom_shifts[dom - 1]); } static int topo_lookup_cpuid(u32 apic_id) { int i; /* CPU# to APICID mapping is persistent once it is established */ for (i = 0; i < topo_info.nr_assigned_cpus; i++) { if (cpuid_to_apicid[i] == apic_id) return i; } return -ENODEV; } static __init int topo_get_cpunr(u32 apic_id) { int cpu = topo_lookup_cpuid(apic_id); if (cpu >= 0) return cpu; return topo_info.nr_assigned_cpus++; } static void topo_set_cpuids(unsigned int cpu, u32 apic_id, u32 acpi_id) { #if defined(CONFIG_SMP) || defined(CONFIG_X86_64) early_per_cpu(x86_cpu_to_apicid, cpu) = apic_id; early_per_cpu(x86_cpu_to_acpiid, cpu) = acpi_id; #endif set_cpu_possible(cpu, true); set_cpu_present(cpu, true); } static __init bool check_for_real_bsp(u32 apic_id) { /* * There is no real good way to detect whether this a kdump() * kernel, but except on the Voyager SMP monstrosity which is not * longer supported, the real BSP APIC ID is the first one which is * enumerated by firmware. That allows to detect whether the boot * CPU is the real BSP. If it is not, then do not register the APIC * because sending INIT to the real BSP would reset the whole * system. * * The first APIC ID which is enumerated by firmware is detectable * because the boot CPU APIC ID is registered before that without * invoking this code. */ if (topo_info.real_bsp_apic_id != BAD_APICID) return false; if (apic_id == topo_info.boot_cpu_apic_id) { topo_info.real_bsp_apic_id = apic_id; return false; } pr_warn("Boot CPU APIC ID not the first enumerated APIC ID: %x > %x\n", topo_info.boot_cpu_apic_id, apic_id); pr_warn("Crash kernel detected. Disabling real BSP to prevent machine INIT\n"); topo_info.real_bsp_apic_id = apic_id; return true; } static unsigned int topo_unit_count(u32 lvlid, enum x86_topology_domains at_level, unsigned long *map) { unsigned int id, end, cnt = 0; /* Calculate the exclusive end */ end = lvlid + (1U << x86_topo_system.dom_shifts[at_level]); /* Unfortunately there is no bitmap_weight_range() */ for (id = find_next_bit(map, end, lvlid); id < end; id = find_next_bit(map, end, ++id)) cnt++; return cnt; } static __init void topo_register_apic(u32 apic_id, u32 acpi_id, bool present) { int cpu, dom; if (present) { set_bit(apic_id, phys_cpu_present_map); /* * Double registration is valid in case of the boot CPU * APIC because that is registered before the enumeration * of the APICs via firmware parsers or VM guest * mechanisms. */ if (apic_id == topo_info.boot_cpu_apic_id) cpu = 0; else cpu = topo_get_cpunr(apic_id); cpuid_to_apicid[cpu] = apic_id; topo_set_cpuids(cpu, apic_id, acpi_id); } else { u32 pkgid = topo_apicid(apic_id, TOPO_PKG_DOMAIN); /* * Check for present APICs in the same package when running * on bare metal. Allow the bogosity in a guest. */ if (hypervisor_is_type(X86_HYPER_NATIVE) && topo_unit_count(pkgid, TOPO_PKG_DOMAIN, phys_cpu_present_map)) { pr_info_once("Ignoring hot-pluggable APIC ID %x in present package.\n", apic_id); topo_info.nr_rejected_cpus++; return; } topo_info.nr_disabled_cpus++; } /* Register present and possible CPUs in the domain maps */ for (dom = TOPO_SMT_DOMAIN; dom < TOPO_MAX_DOMAIN; dom++) set_bit(topo_apicid(apic_id, dom), apic_maps[dom].map); } /** * topology_register_apic - Register an APIC in early topology maps * @apic_id: The APIC ID to set up * @acpi_id: The ACPI ID associated to the APIC * @present: True if the corresponding CPU is present */ void __init topology_register_apic(u32 apic_id, u32 acpi_id, bool present) { if (apic_id >= MAX_LOCAL_APIC) { pr_err_once("APIC ID %x exceeds kernel limit of: %x\n", apic_id, MAX_LOCAL_APIC - 1); topo_info.nr_rejected_cpus++; return; } if (check_for_real_bsp(apic_id)) { topo_info.nr_rejected_cpus++; return; } /* CPU numbers exhausted? */ if (apic_id != topo_info.boot_cpu_apic_id && topo_info.nr_assigned_cpus >= nr_cpu_ids) { pr_warn_once("CPU limit of %d reached. Ignoring further CPUs\n", nr_cpu_ids); topo_info.nr_rejected_cpus++; return; } topo_register_apic(apic_id, acpi_id, present); } /** * topology_register_boot_apic - Register the boot CPU APIC * @apic_id: The APIC ID to set up * * Separate so CPU #0 can be assigned */ void __init topology_register_boot_apic(u32 apic_id) { WARN_ON_ONCE(topo_info.boot_cpu_apic_id != BAD_APICID); topo_info.boot_cpu_apic_id = apic_id; topo_register_apic(apic_id, CPU_ACPIID_INVALID, true); } /** * topology_get_logical_id - Retrieve the logical ID at a given topology domain level * @apicid: The APIC ID for which to lookup the logical ID * @at_level: The topology domain level to use * * @apicid must be a full APIC ID, not the normalized variant. It's valid to have * all bits below the domain level specified by @at_level to be clear. So both * real APIC IDs and backshifted normalized APIC IDs work correctly. * * Returns: * - >= 0: The requested logical ID * - -ERANGE: @apicid is out of range * - -ENODEV: @apicid is not registered */ int topology_get_logical_id(u32 apicid, enum x86_topology_domains at_level) { /* Remove the bits below @at_level to get the proper level ID of @apicid */ unsigned int lvlid = topo_apicid(apicid, at_level); if (lvlid >= MAX_LOCAL_APIC) return -ERANGE; if (!test_bit(lvlid, apic_maps[at_level].map)) return -ENODEV; /* Get the number of set bits before @lvlid. */ return bitmap_weight(apic_maps[at_level].map, lvlid); } EXPORT_SYMBOL_GPL(topology_get_logical_id); /** * topology_unit_count - Retrieve the count of specified units at a given topology domain level * @apicid: The APIC ID which specifies the search range * @which_units: The domain level specifying the units to count * @at_level: The domain level at which @which_units have to be counted * * This returns the number of possible units according to the enumerated * information. * * E.g. topology_count_units(apicid, TOPO_CORE_DOMAIN, TOPO_PKG_DOMAIN) * counts the number of possible cores in the package to which @apicid * belongs. * * @at_level must obviously be greater than @which_level to produce useful * results. If @at_level is equal to @which_units the result is * unsurprisingly 1. If @at_level is less than @which_units the results * is by definition undefined and the function returns 0. */ unsigned int topology_unit_count(u32 apicid, enum x86_topology_domains which_units, enum x86_topology_domains at_level) { /* Remove the bits below @at_level to get the proper level ID of @apicid */ unsigned int lvlid = topo_apicid(apicid, at_level); if (lvlid >= MAX_LOCAL_APIC) return 0; if (!test_bit(lvlid, apic_maps[at_level].map)) return 0; if (which_units > at_level) return 0; if (which_units == at_level) return 1; return topo_unit_count(lvlid, at_level, apic_maps[which_units].map); } #ifdef CONFIG_ACPI_HOTPLUG_CPU /** * topology_hotplug_apic - Handle a physical hotplugged APIC after boot * @apic_id: The APIC ID to set up * @acpi_id: The ACPI ID associated to the APIC */ int topology_hotplug_apic(u32 apic_id, u32 acpi_id) { int cpu; if (apic_id >= MAX_LOCAL_APIC) return -EINVAL; /* Reject if the APIC ID was not registered during enumeration. */ if (!test_bit(apic_id, apic_maps[TOPO_SMT_DOMAIN].map)) return -ENODEV; cpu = topo_lookup_cpuid(apic_id); if (cpu < 0) return -ENOSPC; set_bit(apic_id, phys_cpu_present_map); topo_set_cpuids(cpu, apic_id, acpi_id); cpu_mark_primary_thread(cpu, apic_id); return cpu; } /** * topology_hotunplug_apic - Remove a physical hotplugged APIC after boot * @cpu: The CPU number for which the APIC ID is removed */ void topology_hotunplug_apic(unsigned int cpu) { u32 apic_id = cpuid_to_apicid[cpu]; if (apic_id == BAD_APICID) return; per_cpu(x86_cpu_to_apicid, cpu) = BAD_APICID; clear_bit(apic_id, phys_cpu_present_map); set_cpu_present(cpu, false); } #endif #ifdef CONFIG_X86_LOCAL_APIC static unsigned int max_possible_cpus __initdata = NR_CPUS; /** * topology_apply_cmdline_limits_early - Apply topology command line limits early * * Ensure that command line limits are in effect before firmware parsing * takes place. */ void __init topology_apply_cmdline_limits_early(void) { unsigned int possible = nr_cpu_ids; /* 'maxcpus=0' 'nosmp' 'nolapic' 'disableapic' 'noapic' */ if (!setup_max_cpus || ioapic_is_disabled || apic_is_disabled) possible = 1; /* 'possible_cpus=N' */ possible = min_t(unsigned int, max_possible_cpus, possible); if (possible < nr_cpu_ids) { pr_info("Limiting to %u possible CPUs\n", possible); set_nr_cpu_ids(possible); } } static __init bool restrict_to_up(void) { if (!smp_found_config || ioapic_is_disabled) return true; /* * XEN PV is special as it does not advertise the local APIC * properly, but provides a fake topology for it so that the * infrastructure works. So don't apply the restrictions vs. APIC * here. */ if (xen_pv_domain()) return false; return apic_is_disabled; } void __init topology_init_possible_cpus(void) { unsigned int assigned = topo_info.nr_assigned_cpus; unsigned int disabled = topo_info.nr_disabled_cpus; unsigned int cnta, cntb, cpu, allowed = 1; unsigned int total = assigned + disabled; u32 apicid, firstid; if (!restrict_to_up()) { if (WARN_ON_ONCE(assigned > nr_cpu_ids)) { disabled += assigned - nr_cpu_ids; assigned = nr_cpu_ids; } allowed = min_t(unsigned int, total, nr_cpu_ids); } if (total > allowed) pr_warn("%u possible CPUs exceed the limit of %u\n", total, allowed); assigned = min_t(unsigned int, allowed, assigned); disabled = allowed - assigned; topo_info.nr_assigned_cpus = assigned; topo_info.nr_disabled_cpus = disabled; total_cpus = allowed; set_nr_cpu_ids(allowed); cnta = domain_weight(TOPO_PKG_DOMAIN); cntb = domain_weight(TOPO_DIE_DOMAIN); __max_logical_packages = cnta; __max_dies_per_package = 1U << (get_count_order(cntb) - get_count_order(cnta)); pr_info("Max. logical packages: %3u\n", cnta); pr_info("Max. logical dies: %3u\n", cntb); pr_info("Max. dies per package: %3u\n", __max_dies_per_package); cnta = domain_weight(TOPO_CORE_DOMAIN); cntb = domain_weight(TOPO_SMT_DOMAIN); /* * Can't use order delta here as order(cnta) can be equal * order(cntb) even if cnta != cntb. */ __max_threads_per_core = DIV_ROUND_UP(cntb, cnta); pr_info("Max. threads per core: %3u\n", __max_threads_per_core); firstid = find_first_bit(apic_maps[TOPO_SMT_DOMAIN].map, MAX_LOCAL_APIC); __num_cores_per_package = topology_unit_count(firstid, TOPO_CORE_DOMAIN, TOPO_PKG_DOMAIN); pr_info("Num. cores per package: %3u\n", __num_cores_per_package); __num_threads_per_package = topology_unit_count(firstid, TOPO_SMT_DOMAIN, TOPO_PKG_DOMAIN); pr_info("Num. threads per package: %3u\n", __num_threads_per_package); pr_info("Allowing %u present CPUs plus %u hotplug CPUs\n", assigned, disabled); if (topo_info.nr_rejected_cpus) pr_info("Rejected CPUs %u\n", topo_info.nr_rejected_cpus); init_cpu_present(cpumask_of(0)); init_cpu_possible(cpumask_of(0)); /* Assign CPU numbers to non-present CPUs */ for (apicid = 0; disabled; disabled--, apicid++) { apicid = find_next_andnot_bit(apic_maps[TOPO_SMT_DOMAIN].map, phys_cpu_present_map, MAX_LOCAL_APIC, apicid); if (apicid >= MAX_LOCAL_APIC) break; cpuid_to_apicid[topo_info.nr_assigned_cpus++] = apicid; } for (cpu = 0; cpu < allowed; cpu++) { apicid = cpuid_to_apicid[cpu]; set_cpu_possible(cpu, true); if (apicid == BAD_APICID) continue; cpu_mark_primary_thread(cpu, apicid); set_cpu_present(cpu, test_bit(apicid, phys_cpu_present_map)); } } /* * Late SMP disable after sizing CPU masks when APIC/IOAPIC setup failed. */ void __init topology_reset_possible_cpus_up(void) { init_cpu_present(cpumask_of(0)); init_cpu_possible(cpumask_of(0)); bitmap_zero(phys_cpu_present_map, MAX_LOCAL_APIC); if (topo_info.boot_cpu_apic_id != BAD_APICID) set_bit(topo_info.boot_cpu_apic_id, phys_cpu_present_map); } static int __init setup_possible_cpus(char *str) { get_option(&str, &max_possible_cpus); return 0; } early_param("possible_cpus", setup_possible_cpus); #endif