2013-01-23 21:58:27 +04:00
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/*
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* x86 CPU topology data structures and functions
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*
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* Copyright (c) 2012 Red Hat Inc.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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2014-12-19 04:41:06 +03:00
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#ifndef HW_I386_TOPOLOGY_H
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#define HW_I386_TOPOLOGY_H
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2013-01-23 21:58:27 +04:00
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2023-10-24 12:03:04 +03:00
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/*
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* This file implements the APIC-ID-based CPU topology enumeration logic,
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2013-01-23 21:58:27 +04:00
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* documented at the following document:
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* Intel® 64 Architecture Processor Topology Enumeration
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* http://software.intel.com/en-us/articles/intel-64-architecture-processor-topology-enumeration/
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*
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* This code should be compatible with AMD's "Extended Method" described at:
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* AMD CPUID Specification (Publication #25481)
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2023-07-14 14:16:12 +03:00
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* Section 3: Multiple Core Calculation
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2013-01-23 21:58:27 +04:00
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* as long as:
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* nr_threads is set to 1;
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* OFFSET_IDX is assumed to be 0;
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* CPUID Fn8000_0008_ECX[ApicIdCoreIdSize[3:0]] is set to apicid_core_width().
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*/
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#include "qemu/bitops.h"
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2023-10-24 12:03:04 +03:00
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/*
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* APIC IDs can be 32-bit, but beware: APIC IDs > 255 require x2APIC support
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2013-01-23 21:58:27 +04:00
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*/
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typedef uint32_t apic_id_t;
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2020-03-03 22:56:58 +03:00
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typedef struct X86CPUTopoIDs {
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2015-08-21 12:34:45 +03:00
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unsigned pkg_id;
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2019-06-12 11:40:58 +03:00
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unsigned die_id;
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2024-04-24 18:49:23 +03:00
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unsigned module_id;
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2015-08-21 12:34:45 +03:00
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unsigned core_id;
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unsigned smt_id;
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2020-03-03 22:56:58 +03:00
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} X86CPUTopoIDs;
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2015-08-21 12:34:45 +03:00
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2020-03-12 01:52:52 +03:00
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typedef struct X86CPUTopoInfo {
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unsigned dies_per_pkg;
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2024-04-24 18:49:21 +03:00
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unsigned modules_per_die;
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unsigned cores_per_module;
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2020-03-12 01:52:52 +03:00
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unsigned threads_per_core;
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} X86CPUTopoInfo;
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2024-04-24 18:49:17 +03:00
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/*
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* CPUTopoLevel is the general i386 topology hierarchical representation,
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* ordered by increasing hierarchical relationship.
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* Its enumeration value is not bound to the type value of Intel (CPUID[0x1F])
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* or AMD (CPUID[0x80000026]).
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*/
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enum CPUTopoLevel {
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CPU_TOPO_LEVEL_INVALID,
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CPU_TOPO_LEVEL_SMT,
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CPU_TOPO_LEVEL_CORE,
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2024-04-24 18:49:22 +03:00
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CPU_TOPO_LEVEL_MODULE,
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2024-04-24 18:49:17 +03:00
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CPU_TOPO_LEVEL_DIE,
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CPU_TOPO_LEVEL_PACKAGE,
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CPU_TOPO_LEVEL_MAX,
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};
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2023-10-24 12:03:04 +03:00
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/* Return the bit width needed for 'count' IDs */
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2013-01-23 21:58:27 +04:00
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static unsigned apicid_bitwidth_for_count(unsigned count)
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{
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g_assert(count >= 1);
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2013-02-14 05:47:40 +04:00
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count -= 1;
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return count ? 32 - clz32(count) : 0;
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2013-01-23 21:58:27 +04:00
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}
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2023-10-24 12:03:04 +03:00
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/* Bit width of the SMT_ID (thread ID) field on the APIC ID */
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2020-03-12 01:52:59 +03:00
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static inline unsigned apicid_smt_width(X86CPUTopoInfo *topo_info)
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2013-01-23 21:58:27 +04:00
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{
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2020-03-12 01:52:59 +03:00
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return apicid_bitwidth_for_count(topo_info->threads_per_core);
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2013-01-23 21:58:27 +04:00
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}
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2023-10-24 12:03:04 +03:00
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/* Bit width of the Core_ID field */
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2020-03-12 01:52:59 +03:00
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static inline unsigned apicid_core_width(X86CPUTopoInfo *topo_info)
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2013-01-23 21:58:27 +04:00
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{
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2024-04-24 18:49:21 +03:00
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return apicid_bitwidth_for_count(topo_info->cores_per_module);
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}
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/* Bit width of the Module_ID field */
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static inline unsigned apicid_module_width(X86CPUTopoInfo *topo_info)
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{
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return apicid_bitwidth_for_count(topo_info->modules_per_die);
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2013-01-23 21:58:27 +04:00
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}
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2019-06-12 11:40:59 +03:00
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/* Bit width of the Die_ID field */
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2020-03-12 01:52:59 +03:00
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static inline unsigned apicid_die_width(X86CPUTopoInfo *topo_info)
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2019-06-12 11:40:59 +03:00
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{
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2020-03-12 01:52:59 +03:00
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return apicid_bitwidth_for_count(topo_info->dies_per_pkg);
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2019-06-12 11:40:59 +03:00
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}
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2023-10-24 12:03:04 +03:00
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/* Bit offset of the Core_ID field */
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2020-03-12 01:52:59 +03:00
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static inline unsigned apicid_core_offset(X86CPUTopoInfo *topo_info)
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2013-01-23 21:58:27 +04:00
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{
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2020-03-12 01:52:59 +03:00
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return apicid_smt_width(topo_info);
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2019-06-12 11:40:59 +03:00
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}
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2024-04-24 18:49:21 +03:00
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/* Bit offset of the Module_ID field */
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static inline unsigned apicid_module_offset(X86CPUTopoInfo *topo_info)
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{
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return apicid_core_offset(topo_info) + apicid_core_width(topo_info);
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}
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2019-06-12 11:40:59 +03:00
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/* Bit offset of the Die_ID field */
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2020-03-12 01:52:59 +03:00
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static inline unsigned apicid_die_offset(X86CPUTopoInfo *topo_info)
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2019-06-12 11:40:59 +03:00
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{
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2024-04-24 18:49:21 +03:00
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return apicid_module_offset(topo_info) + apicid_module_width(topo_info);
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2013-01-23 21:58:27 +04:00
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}
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2023-10-24 12:03:04 +03:00
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/* Bit offset of the Pkg_ID (socket ID) field */
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2020-03-12 01:52:59 +03:00
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static inline unsigned apicid_pkg_offset(X86CPUTopoInfo *topo_info)
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2013-01-23 21:58:27 +04:00
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{
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2020-03-12 01:52:59 +03:00
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return apicid_die_offset(topo_info) + apicid_die_width(topo_info);
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2013-01-23 21:58:27 +04:00
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}
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2023-10-24 12:03:04 +03:00
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/*
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* Make APIC ID for the CPU based on Pkg_ID, Core_ID, SMT_ID
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2013-01-23 21:58:27 +04:00
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*
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* The caller must make sure core_id < nr_cores and smt_id < nr_threads.
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*/
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2020-03-12 01:53:27 +03:00
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static inline apic_id_t x86_apicid_from_topo_ids(X86CPUTopoInfo *topo_info,
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const X86CPUTopoIDs *topo_ids)
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2013-01-23 21:58:27 +04:00
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{
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2020-03-12 01:52:59 +03:00
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return (topo_ids->pkg_id << apicid_pkg_offset(topo_info)) |
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(topo_ids->die_id << apicid_die_offset(topo_info)) |
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2024-04-24 18:49:23 +03:00
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(topo_ids->module_id << apicid_module_offset(topo_info)) |
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2020-03-12 01:52:59 +03:00
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(topo_ids->core_id << apicid_core_offset(topo_info)) |
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2020-03-03 22:56:58 +03:00
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topo_ids->smt_id;
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2013-01-23 21:58:27 +04:00
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}
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2023-10-24 12:03:04 +03:00
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/*
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* Calculate thread/core/package IDs for a specific topology,
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2013-01-23 21:58:27 +04:00
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* based on (contiguous) CPU index
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*/
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2020-03-12 01:52:52 +03:00
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static inline void x86_topo_ids_from_idx(X86CPUTopoInfo *topo_info,
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2013-01-23 21:58:27 +04:00
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unsigned cpu_index,
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2020-03-03 22:56:58 +03:00
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X86CPUTopoIDs *topo_ids)
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2013-01-23 21:58:27 +04:00
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{
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2020-03-12 01:52:52 +03:00
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unsigned nr_dies = topo_info->dies_per_pkg;
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2024-04-24 18:49:23 +03:00
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unsigned nr_modules = topo_info->modules_per_die;
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unsigned nr_cores = topo_info->cores_per_module;
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2020-03-12 01:52:52 +03:00
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unsigned nr_threads = topo_info->threads_per_core;
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2024-04-24 18:49:23 +03:00
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topo_ids->pkg_id = cpu_index / (nr_dies * nr_modules *
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nr_cores * nr_threads);
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topo_ids->die_id = cpu_index / (nr_modules * nr_cores *
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nr_threads) % nr_dies;
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topo_ids->module_id = cpu_index / (nr_cores * nr_threads) %
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nr_modules;
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2020-03-03 22:56:58 +03:00
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topo_ids->core_id = cpu_index / nr_threads % nr_cores;
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topo_ids->smt_id = cpu_index % nr_threads;
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2013-01-23 21:58:27 +04:00
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}
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2023-10-24 12:03:04 +03:00
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/*
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* Calculate thread/core/package IDs for a specific topology,
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2016-07-06 09:20:38 +03:00
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* based on APIC ID
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*/
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static inline void x86_topo_ids_from_apicid(apic_id_t apicid,
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2020-03-12 01:52:52 +03:00
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X86CPUTopoInfo *topo_info,
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2020-03-03 22:56:58 +03:00
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X86CPUTopoIDs *topo_ids)
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2016-07-06 09:20:38 +03:00
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{
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2020-03-03 22:56:58 +03:00
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topo_ids->smt_id = apicid &
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2020-03-12 01:52:59 +03:00
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~(0xFFFFFFFFUL << apicid_smt_width(topo_info));
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2020-03-03 22:56:58 +03:00
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topo_ids->core_id =
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2020-03-12 01:52:59 +03:00
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(apicid >> apicid_core_offset(topo_info)) &
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~(0xFFFFFFFFUL << apicid_core_width(topo_info));
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2024-04-24 18:49:23 +03:00
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topo_ids->module_id =
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(apicid >> apicid_module_offset(topo_info)) &
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~(0xFFFFFFFFUL << apicid_module_width(topo_info));
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2020-03-03 22:56:58 +03:00
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topo_ids->die_id =
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2020-03-12 01:52:59 +03:00
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(apicid >> apicid_die_offset(topo_info)) &
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~(0xFFFFFFFFUL << apicid_die_width(topo_info));
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topo_ids->pkg_id = apicid >> apicid_pkg_offset(topo_info);
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2016-07-06 09:20:38 +03:00
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}
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2023-10-24 12:03:04 +03:00
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/*
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* Make APIC ID for the CPU 'cpu_index'
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2013-01-23 21:58:27 +04:00
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*
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* 'cpu_index' is a sequential, contiguous ID for the CPU.
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*/
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2020-03-12 01:52:52 +03:00
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static inline apic_id_t x86_apicid_from_cpu_idx(X86CPUTopoInfo *topo_info,
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2013-01-23 21:58:27 +04:00
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unsigned cpu_index)
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{
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2020-03-03 22:56:58 +03:00
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X86CPUTopoIDs topo_ids;
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2020-03-12 01:52:52 +03:00
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x86_topo_ids_from_idx(topo_info, cpu_index, &topo_ids);
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2020-03-12 01:53:27 +03:00
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return x86_apicid_from_topo_ids(topo_info, &topo_ids);
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2013-01-23 21:58:27 +04:00
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}
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2024-04-24 18:49:17 +03:00
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/*
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2024-04-24 18:49:22 +03:00
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* Check whether there's extended topology level (module or die)?
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2024-04-24 18:49:17 +03:00
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*/
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static inline bool x86_has_extended_topo(unsigned long *topo_bitmap)
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{
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2024-04-24 18:49:22 +03:00
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return test_bit(CPU_TOPO_LEVEL_MODULE, topo_bitmap) ||
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test_bit(CPU_TOPO_LEVEL_DIE, topo_bitmap);
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2024-04-24 18:49:17 +03:00
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}
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2014-12-19 04:41:06 +03:00
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#endif /* HW_I386_TOPOLOGY_H */
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