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#include <stdint.h> |
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#include <stdlib.h> |
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#include <string.h> |
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#include <cpuinfo.h> |
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#include <x86/api.h> |
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#include <mach/api.h> |
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#include <cpuinfo/internal-api.h> |
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#include <cpuinfo/log.h> |
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static inline uint32_t max(uint32_t a, uint32_t b) { |
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return a > b ? a : b; |
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} |
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static inline uint32_t bit_mask(uint32_t bits) { |
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return (UINT32_C(1) << bits) - UINT32_C(1); |
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} |
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void cpuinfo_x86_mach_init(void) { |
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struct cpuinfo_processor* processors = NULL; |
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struct cpuinfo_core* cores = NULL; |
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struct cpuinfo_cluster* clusters = NULL; |
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struct cpuinfo_package* packages = NULL; |
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struct cpuinfo_cache* l1i = NULL; |
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struct cpuinfo_cache* l1d = NULL; |
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struct cpuinfo_cache* l2 = NULL; |
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struct cpuinfo_cache* l3 = NULL; |
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struct cpuinfo_cache* l4 = NULL; |
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struct cpuinfo_mach_topology mach_topology = cpuinfo_mach_detect_topology(); |
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processors = calloc(mach_topology.threads, sizeof(struct cpuinfo_processor)); |
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if (processors == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" logical processors", |
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mach_topology.threads * sizeof(struct cpuinfo_processor), mach_topology.threads); |
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goto cleanup; |
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} |
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cores = calloc(mach_topology.cores, sizeof(struct cpuinfo_core)); |
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if (cores == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" cores", |
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mach_topology.cores * sizeof(struct cpuinfo_core), mach_topology.cores); |
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goto cleanup; |
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} |
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clusters = calloc(mach_topology.packages, sizeof(struct cpuinfo_cluster)); |
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if (clusters == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" core clusters", |
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mach_topology.packages * sizeof(struct cpuinfo_cluster), mach_topology.packages); |
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goto cleanup; |
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} |
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packages = calloc(mach_topology.packages, sizeof(struct cpuinfo_package)); |
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if (packages == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" physical packages", |
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mach_topology.packages * sizeof(struct cpuinfo_package), mach_topology.packages); |
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goto cleanup; |
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} |
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struct cpuinfo_x86_processor x86_processor; |
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memset(&x86_processor, 0, sizeof(x86_processor)); |
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cpuinfo_x86_init_processor(&x86_processor); |
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char brand_string[48]; |
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cpuinfo_x86_normalize_brand_string(x86_processor.brand_string, brand_string); |
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const uint32_t threads_per_core = mach_topology.threads / mach_topology.cores; |
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const uint32_t threads_per_package = mach_topology.threads / mach_topology.packages; |
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const uint32_t cores_per_package = mach_topology.cores / mach_topology.packages; |
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for (uint32_t i = 0; i < mach_topology.packages; i++) { |
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clusters[i] = (struct cpuinfo_cluster) { |
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.processor_start = i * threads_per_package, |
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.processor_count = threads_per_package, |
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.core_start = i * cores_per_package, |
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.core_count = cores_per_package, |
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.cluster_id = 0, |
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.package = packages + i, |
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.vendor = x86_processor.vendor, |
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.uarch = x86_processor.uarch, |
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.cpuid = x86_processor.cpuid, |
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}; |
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packages[i].processor_start = i * threads_per_package; |
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packages[i].processor_count = threads_per_package; |
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packages[i].core_start = i * cores_per_package; |
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packages[i].core_count = cores_per_package; |
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packages[i].cluster_start = i; |
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packages[i].cluster_count = 1; |
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cpuinfo_x86_format_package_name(x86_processor.vendor, brand_string, packages[i].name); |
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} |
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for (uint32_t i = 0; i < mach_topology.cores; i++) { |
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cores[i] = (struct cpuinfo_core) { |
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.processor_start = i * threads_per_core, |
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.processor_count = threads_per_core, |
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.core_id = i % cores_per_package, |
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.cluster = clusters + i / cores_per_package, |
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.package = packages + i / cores_per_package, |
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.vendor = x86_processor.vendor, |
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.uarch = x86_processor.uarch, |
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.cpuid = x86_processor.cpuid, |
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}; |
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} |
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for (uint32_t i = 0; i < mach_topology.threads; i++) { |
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const uint32_t smt_id = i % threads_per_core; |
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const uint32_t core_id = i / threads_per_core; |
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const uint32_t package_id = i / threads_per_package; |
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const uint32_t thread_bits_mask = bit_mask(x86_processor.topology.thread_bits_length); |
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const uint32_t core_bits_mask = bit_mask(x86_processor.topology.core_bits_length); |
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const uint32_t package_bits_offset = max( |
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x86_processor.topology.thread_bits_offset + x86_processor.topology.thread_bits_length, |
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x86_processor.topology.core_bits_offset + x86_processor.topology.core_bits_length); |
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const uint32_t apic_id = |
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((smt_id & thread_bits_mask) << x86_processor.topology.thread_bits_offset) | |
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((core_id & core_bits_mask) << x86_processor.topology.core_bits_offset) | |
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(package_id << package_bits_offset); |
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cpuinfo_log_debug("reconstructed APIC ID 0x%08"PRIx32" for thread %"PRIu32, apic_id, i); |
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processors[i].smt_id = smt_id; |
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processors[i].core = cores + i / threads_per_core; |
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processors[i].cluster = clusters + i / threads_per_package; |
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processors[i].package = packages + i / threads_per_package; |
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processors[i].apic_id = apic_id; |
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} |
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uint32_t threads_per_l1 = 0, l1_count = 0; |
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if (x86_processor.cache.l1i.size != 0 || x86_processor.cache.l1d.size != 0) { |
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threads_per_l1 = mach_topology.threads_per_cache[1]; |
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if (threads_per_l1 == 0) { |
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threads_per_l1 = mach_topology.threads / mach_topology.cores; |
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cpuinfo_log_warning("Mach kernel did not report number of threads sharing L1 cache; assume %"PRIu32, |
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threads_per_l1); |
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} |
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l1_count = mach_topology.threads / threads_per_l1; |
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cpuinfo_log_debug("detected %"PRIu32" L1 caches", l1_count); |
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} |
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uint32_t threads_per_l2 = 0, l2_count = 0; |
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if (x86_processor.cache.l2.size != 0) { |
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threads_per_l2 = mach_topology.threads_per_cache[2]; |
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if (threads_per_l2 == 0) { |
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if (x86_processor.cache.l3.size != 0) { |
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threads_per_l2 = mach_topology.threads / mach_topology.cores; |
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} else { |
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threads_per_l2 = mach_topology.threads / mach_topology.packages; |
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} |
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cpuinfo_log_warning("Mach kernel did not report number of threads sharing L2 cache; assume %"PRIu32, |
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threads_per_l2); |
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} |
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l2_count = mach_topology.threads / threads_per_l2; |
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cpuinfo_log_debug("detected %"PRIu32" L2 caches", l2_count); |
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} |
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uint32_t threads_per_l3 = 0, l3_count = 0; |
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if (x86_processor.cache.l3.size != 0) { |
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threads_per_l3 = mach_topology.threads_per_cache[3]; |
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if (threads_per_l3 == 0) { |
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threads_per_l3 = mach_topology.threads / mach_topology.packages; |
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cpuinfo_log_warning("Mach kernel did not report number of threads sharing L3 cache; assume %"PRIu32, |
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threads_per_l3); |
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} |
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l3_count = mach_topology.threads / threads_per_l3; |
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cpuinfo_log_debug("detected %"PRIu32" L3 caches", l3_count); |
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} |
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uint32_t threads_per_l4 = 0, l4_count = 0; |
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if (x86_processor.cache.l4.size != 0) { |
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threads_per_l4 = mach_topology.threads_per_cache[4]; |
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if (threads_per_l4 == 0) { |
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threads_per_l4 = mach_topology.threads; |
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cpuinfo_log_warning("Mach kernel did not report number of threads sharing L4 cache; assume %"PRIu32, |
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threads_per_l4); |
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} |
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l4_count = mach_topology.threads / threads_per_l4; |
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cpuinfo_log_debug("detected %"PRIu32" L4 caches", l4_count); |
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} |
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if (x86_processor.cache.l1i.size != 0) { |
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l1i = calloc(l1_count, sizeof(struct cpuinfo_cache)); |
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if (l1i == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" L1I caches", |
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l1_count * sizeof(struct cpuinfo_cache), l1_count); |
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return; |
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} |
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for (uint32_t c = 0; c < l1_count; c++) { |
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l1i[c] = (struct cpuinfo_cache) { |
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.size = x86_processor.cache.l1i.size, |
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.associativity = x86_processor.cache.l1i.associativity, |
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.sets = x86_processor.cache.l1i.sets, |
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.partitions = x86_processor.cache.l1i.partitions, |
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.line_size = x86_processor.cache.l1i.line_size, |
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.flags = x86_processor.cache.l1i.flags, |
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.processor_start = c * threads_per_l1, |
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.processor_count = threads_per_l1, |
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}; |
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} |
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for (uint32_t t = 0; t < mach_topology.threads; t++) { |
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processors[t].cache.l1i = &l1i[t / threads_per_l1]; |
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} |
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} |
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if (x86_processor.cache.l1d.size != 0) { |
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l1d = calloc(l1_count, sizeof(struct cpuinfo_cache)); |
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if (l1d == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" L1D caches", |
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l1_count * sizeof(struct cpuinfo_cache), l1_count); |
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return; |
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} |
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for (uint32_t c = 0; c < l1_count; c++) { |
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l1d[c] = (struct cpuinfo_cache) { |
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.size = x86_processor.cache.l1d.size, |
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.associativity = x86_processor.cache.l1d.associativity, |
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.sets = x86_processor.cache.l1d.sets, |
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.partitions = x86_processor.cache.l1d.partitions, |
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.line_size = x86_processor.cache.l1d.line_size, |
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.flags = x86_processor.cache.l1d.flags, |
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.processor_start = c * threads_per_l1, |
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.processor_count = threads_per_l1, |
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}; |
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} |
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for (uint32_t t = 0; t < mach_topology.threads; t++) { |
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processors[t].cache.l1d = &l1d[t / threads_per_l1]; |
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} |
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} |
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if (l2_count != 0) { |
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l2 = calloc(l2_count, sizeof(struct cpuinfo_cache)); |
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if (l2 == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" L2 caches", |
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l2_count * sizeof(struct cpuinfo_cache), l2_count); |
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return; |
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} |
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for (uint32_t c = 0; c < l2_count; c++) { |
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l2[c] = (struct cpuinfo_cache) { |
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.size = x86_processor.cache.l2.size, |
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.associativity = x86_processor.cache.l2.associativity, |
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.sets = x86_processor.cache.l2.sets, |
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.partitions = x86_processor.cache.l2.partitions, |
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.line_size = x86_processor.cache.l2.line_size, |
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.flags = x86_processor.cache.l2.flags, |
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.processor_start = c * threads_per_l2, |
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.processor_count = threads_per_l2, |
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}; |
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} |
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for (uint32_t t = 0; t < mach_topology.threads; t++) { |
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processors[t].cache.l2 = &l2[t / threads_per_l2]; |
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} |
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} |
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if (l3_count != 0) { |
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l3 = calloc(l3_count, sizeof(struct cpuinfo_cache)); |
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if (l3 == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" L3 caches", |
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l3_count * sizeof(struct cpuinfo_cache), l3_count); |
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return; |
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} |
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for (uint32_t c = 0; c < l3_count; c++) { |
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l3[c] = (struct cpuinfo_cache) { |
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.size = x86_processor.cache.l3.size, |
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.associativity = x86_processor.cache.l3.associativity, |
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.sets = x86_processor.cache.l3.sets, |
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.partitions = x86_processor.cache.l3.partitions, |
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.line_size = x86_processor.cache.l3.line_size, |
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.flags = x86_processor.cache.l3.flags, |
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.processor_start = c * threads_per_l3, |
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.processor_count = threads_per_l3, |
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}; |
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} |
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for (uint32_t t = 0; t < mach_topology.threads; t++) { |
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processors[t].cache.l3 = &l3[t / threads_per_l3]; |
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} |
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} |
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if (l4_count != 0) { |
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l4 = calloc(l4_count, sizeof(struct cpuinfo_cache)); |
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if (l4 == NULL) { |
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cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" L4 caches", |
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l4_count * sizeof(struct cpuinfo_cache), l4_count); |
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return; |
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} |
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for (uint32_t c = 0; c < l4_count; c++) { |
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l4[c] = (struct cpuinfo_cache) { |
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.size = x86_processor.cache.l4.size, |
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.associativity = x86_processor.cache.l4.associativity, |
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.sets = x86_processor.cache.l4.sets, |
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.partitions = x86_processor.cache.l4.partitions, |
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.line_size = x86_processor.cache.l4.line_size, |
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.flags = x86_processor.cache.l4.flags, |
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.processor_start = c * threads_per_l4, |
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.processor_count = threads_per_l4, |
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}; |
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} |
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for (uint32_t t = 0; t < mach_topology.threads; t++) { |
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processors[t].cache.l4 = &l4[t / threads_per_l4]; |
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} |
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} |
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cpuinfo_processors = processors; |
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cpuinfo_cores = cores; |
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cpuinfo_clusters = clusters; |
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cpuinfo_packages = packages; |
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cpuinfo_cache[cpuinfo_cache_level_1i] = l1i; |
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cpuinfo_cache[cpuinfo_cache_level_1d] = l1d; |
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cpuinfo_cache[cpuinfo_cache_level_2] = l2; |
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cpuinfo_cache[cpuinfo_cache_level_3] = l3; |
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cpuinfo_cache[cpuinfo_cache_level_4] = l4; |
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cpuinfo_processors_count = mach_topology.threads; |
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cpuinfo_cores_count = mach_topology.cores; |
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cpuinfo_clusters_count = mach_topology.packages; |
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cpuinfo_packages_count = mach_topology.packages; |
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cpuinfo_cache_count[cpuinfo_cache_level_1i] = l1_count; |
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cpuinfo_cache_count[cpuinfo_cache_level_1d] = l1_count; |
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cpuinfo_cache_count[cpuinfo_cache_level_2] = l2_count; |
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cpuinfo_cache_count[cpuinfo_cache_level_3] = l3_count; |
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cpuinfo_cache_count[cpuinfo_cache_level_4] = l4_count; |
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cpuinfo_max_cache_size = cpuinfo_compute_max_cache_size(&processors[0]); |
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cpuinfo_global_uarch = (struct cpuinfo_uarch_info) { |
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.uarch = x86_processor.uarch, |
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.cpuid = x86_processor.cpuid, |
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.processor_count = mach_topology.threads, |
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.core_count = mach_topology.cores, |
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}; |
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__sync_synchronize(); |
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cpuinfo_is_initialized = true; |
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processors = NULL; |
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cores = NULL; |
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clusters = NULL; |
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packages = NULL; |
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l1i = l1d = l2 = l3 = l4 = NULL; |
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cleanup: |
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free(processors); |
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free(cores); |
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free(clusters); |
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free(packages); |
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free(l1i); |
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free(l1d); |
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free(l2); |
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free(l3); |
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free(l4); |
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} |
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