forked from luck/tmp_suning_uos_patched
097a116c7e
Show the dynamic and static cpu mhz of each cpu. Since these values are per cpu this requires a fundamental extension of the format of /proc/cpuinfo. Historically we had only a single line per cpu and a summary at the top of the file. This format is hardly extendible if we want to add more per cpu information. Therefore this patch adds per cpu blocks at the end of /proc/cpuinfo: cpu : 0 cpu Mhz dynamic : 5504 cpu Mhz static : 5504 cpu : 1 cpu Mhz dynamic : 5504 cpu Mhz static : 5504 cpu : 2 cpu Mhz dynamic : 5504 cpu Mhz static : 5504 cpu : 3 cpu Mhz dynamic : 5504 cpu Mhz static : 5504 Right now each block contains only the dynamic and static cpu mhz, but it can be easily extended like on every other architecture. This extension is supposed to be compatible with the old format. Signed-off-by: Heiko Carstens <heiko.carstens@de.ibm.com> Acked-by: Sascha Silbe <silbe@linux.vnet.ibm.com> Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
177 lines
4.4 KiB
C
177 lines
4.4 KiB
C
/*
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* Extract CPU cache information and expose them via sysfs.
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*
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* Copyright IBM Corp. 2012
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* Author(s): Heiko Carstens <heiko.carstens@de.ibm.com>
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*/
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#include <linux/seq_file.h>
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#include <linux/cpu.h>
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#include <linux/cacheinfo.h>
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#include <asm/facility.h>
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enum {
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CACHE_SCOPE_NOTEXISTS,
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CACHE_SCOPE_PRIVATE,
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CACHE_SCOPE_SHARED,
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CACHE_SCOPE_RESERVED,
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};
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enum {
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CTYPE_SEPARATE,
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CTYPE_DATA,
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CTYPE_INSTRUCTION,
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CTYPE_UNIFIED,
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};
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enum {
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EXTRACT_TOPOLOGY,
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EXTRACT_LINE_SIZE,
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EXTRACT_SIZE,
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EXTRACT_ASSOCIATIVITY,
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};
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enum {
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CACHE_TI_UNIFIED = 0,
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CACHE_TI_DATA = 0,
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CACHE_TI_INSTRUCTION,
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};
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struct cache_info {
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unsigned char : 4;
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unsigned char scope : 2;
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unsigned char type : 2;
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};
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#define CACHE_MAX_LEVEL 8
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union cache_topology {
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struct cache_info ci[CACHE_MAX_LEVEL];
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unsigned long long raw;
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};
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static const char * const cache_type_string[] = {
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"",
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"Instruction",
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"Data",
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"",
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"Unified",
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};
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static const enum cache_type cache_type_map[] = {
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[CTYPE_SEPARATE] = CACHE_TYPE_SEPARATE,
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[CTYPE_DATA] = CACHE_TYPE_DATA,
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[CTYPE_INSTRUCTION] = CACHE_TYPE_INST,
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[CTYPE_UNIFIED] = CACHE_TYPE_UNIFIED,
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};
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void show_cacheinfo(struct seq_file *m)
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{
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struct cpu_cacheinfo *this_cpu_ci;
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struct cacheinfo *cache;
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int idx;
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if (!test_facility(34))
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return;
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this_cpu_ci = get_cpu_cacheinfo(cpumask_any(cpu_online_mask));
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for (idx = 0; idx < this_cpu_ci->num_leaves; idx++) {
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cache = this_cpu_ci->info_list + idx;
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seq_printf(m, "cache%-11d: ", idx);
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seq_printf(m, "level=%d ", cache->level);
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seq_printf(m, "type=%s ", cache_type_string[cache->type]);
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seq_printf(m, "scope=%s ",
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cache->disable_sysfs ? "Shared" : "Private");
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seq_printf(m, "size=%dK ", cache->size >> 10);
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seq_printf(m, "line_size=%u ", cache->coherency_line_size);
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seq_printf(m, "associativity=%d", cache->ways_of_associativity);
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seq_puts(m, "\n");
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}
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}
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static inline enum cache_type get_cache_type(struct cache_info *ci, int level)
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{
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if (level >= CACHE_MAX_LEVEL)
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return CACHE_TYPE_NOCACHE;
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ci += level;
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if (ci->scope != CACHE_SCOPE_SHARED && ci->scope != CACHE_SCOPE_PRIVATE)
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return CACHE_TYPE_NOCACHE;
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return cache_type_map[ci->type];
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}
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static inline unsigned long ecag(int ai, int li, int ti)
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{
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return __ecag(ECAG_CACHE_ATTRIBUTE, ai << 4 | li << 1 | ti);
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}
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static void ci_leaf_init(struct cacheinfo *this_leaf, int private,
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enum cache_type type, unsigned int level, int cpu)
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{
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int ti, num_sets;
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if (type == CACHE_TYPE_INST)
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ti = CACHE_TI_INSTRUCTION;
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else
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ti = CACHE_TI_UNIFIED;
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this_leaf->level = level + 1;
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this_leaf->type = type;
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this_leaf->coherency_line_size = ecag(EXTRACT_LINE_SIZE, level, ti);
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this_leaf->ways_of_associativity = ecag(EXTRACT_ASSOCIATIVITY, level, ti);
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this_leaf->size = ecag(EXTRACT_SIZE, level, ti);
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num_sets = this_leaf->size / this_leaf->coherency_line_size;
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num_sets /= this_leaf->ways_of_associativity;
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this_leaf->number_of_sets = num_sets;
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cpumask_set_cpu(cpu, &this_leaf->shared_cpu_map);
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if (!private)
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this_leaf->disable_sysfs = true;
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}
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int init_cache_level(unsigned int cpu)
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{
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struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
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unsigned int level = 0, leaves = 0;
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union cache_topology ct;
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enum cache_type ctype;
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if (!test_facility(34))
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return -EOPNOTSUPP;
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if (!this_cpu_ci)
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return -EINVAL;
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ct.raw = ecag(EXTRACT_TOPOLOGY, 0, 0);
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do {
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ctype = get_cache_type(&ct.ci[0], level);
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if (ctype == CACHE_TYPE_NOCACHE)
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break;
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/* Separate instruction and data caches */
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leaves += (ctype == CACHE_TYPE_SEPARATE) ? 2 : 1;
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} while (++level < CACHE_MAX_LEVEL);
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this_cpu_ci->num_levels = level;
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this_cpu_ci->num_leaves = leaves;
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return 0;
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}
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int populate_cache_leaves(unsigned int cpu)
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{
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struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
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struct cacheinfo *this_leaf = this_cpu_ci->info_list;
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unsigned int level, idx, pvt;
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union cache_topology ct;
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enum cache_type ctype;
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if (!test_facility(34))
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return -EOPNOTSUPP;
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ct.raw = ecag(EXTRACT_TOPOLOGY, 0, 0);
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for (idx = 0, level = 0; level < this_cpu_ci->num_levels &&
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idx < this_cpu_ci->num_leaves; idx++, level++) {
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if (!this_leaf)
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return -EINVAL;
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pvt = (ct.ci[level].scope == CACHE_SCOPE_PRIVATE) ? 1 : 0;
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ctype = get_cache_type(&ct.ci[0], level);
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if (ctype == CACHE_TYPE_SEPARATE) {
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ci_leaf_init(this_leaf++, pvt, CACHE_TYPE_DATA, level, cpu);
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ci_leaf_init(this_leaf++, pvt, CACHE_TYPE_INST, level, cpu);
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} else {
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ci_leaf_init(this_leaf++, pvt, ctype, level, cpu);
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}
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}
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return 0;
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}
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