190 lines
5.1 KiB
C
190 lines
5.1 KiB
C
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// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Copyright (C) 2017 SiFive
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*/
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#include <linux/cpu.h>
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#include <linux/of.h>
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#include <linux/of_device.h>
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#include <asm/cacheinfo.h>
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static struct riscv_cacheinfo_ops *rv_cache_ops;
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void riscv_set_cacheinfo_ops(struct riscv_cacheinfo_ops *ops)
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{
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rv_cache_ops = ops;
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}
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EXPORT_SYMBOL_GPL(riscv_set_cacheinfo_ops);
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const struct attribute_group *
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cache_get_priv_group(struct cacheinfo *this_leaf)
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{
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if (rv_cache_ops && rv_cache_ops->get_priv_group)
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return rv_cache_ops->get_priv_group(this_leaf);
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return NULL;
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}
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static struct cacheinfo *get_cacheinfo(u32 level, enum cache_type type)
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{
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/*
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* Using raw_smp_processor_id() elides a preemptability check, but this
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* is really indicative of a larger problem: the cacheinfo UABI assumes
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* that cores have a homonogenous view of the cache hierarchy. That
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* happens to be the case for the current set of RISC-V systems, but
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* likely won't be true in general. Since there's no way to provide
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* correct information for these systems via the current UABI we're
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* just eliding the check for now.
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*/
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struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(raw_smp_processor_id());
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struct cacheinfo *this_leaf;
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int index;
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for (index = 0; index < this_cpu_ci->num_leaves; index++) {
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this_leaf = this_cpu_ci->info_list + index;
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if (this_leaf->level == level && this_leaf->type == type)
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return this_leaf;
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}
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return NULL;
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}
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uintptr_t get_cache_size(u32 level, enum cache_type type)
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{
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struct cacheinfo *this_leaf = get_cacheinfo(level, type);
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return this_leaf ? this_leaf->size : 0;
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}
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uintptr_t get_cache_geometry(u32 level, enum cache_type type)
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{
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struct cacheinfo *this_leaf = get_cacheinfo(level, type);
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return this_leaf ? (this_leaf->ways_of_associativity << 16 |
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this_leaf->coherency_line_size) :
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0;
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}
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static void ci_leaf_init(struct cacheinfo *this_leaf, enum cache_type type,
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unsigned int level, unsigned int size,
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unsigned int sets, unsigned int line_size)
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{
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this_leaf->level = level;
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this_leaf->type = type;
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this_leaf->size = size;
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this_leaf->number_of_sets = sets;
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this_leaf->coherency_line_size = line_size;
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/*
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* If the cache is fully associative, there is no need to
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* check the other properties.
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*/
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if (sets == 1)
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return;
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/*
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* Set the ways number for n-ways associative, make sure
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* all properties are big than zero.
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*/
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if (sets > 0 && size > 0 && line_size > 0)
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this_leaf->ways_of_associativity = (size / sets) / line_size;
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}
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static void fill_cacheinfo(struct cacheinfo **this_leaf,
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struct device_node *node, unsigned int level)
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{
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unsigned int size, sets, line_size;
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if (!of_property_read_u32(node, "cache-size", &size) &&
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!of_property_read_u32(node, "cache-block-size", &line_size) &&
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!of_property_read_u32(node, "cache-sets", &sets)) {
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ci_leaf_init((*this_leaf)++, CACHE_TYPE_UNIFIED, level, size, sets, line_size);
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}
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if (!of_property_read_u32(node, "i-cache-size", &size) &&
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!of_property_read_u32(node, "i-cache-sets", &sets) &&
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!of_property_read_u32(node, "i-cache-block-size", &line_size)) {
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ci_leaf_init((*this_leaf)++, CACHE_TYPE_INST, level, size, sets, line_size);
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}
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if (!of_property_read_u32(node, "d-cache-size", &size) &&
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!of_property_read_u32(node, "d-cache-sets", &sets) &&
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!of_property_read_u32(node, "d-cache-block-size", &line_size)) {
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ci_leaf_init((*this_leaf)++, CACHE_TYPE_DATA, level, size, sets, line_size);
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}
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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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struct device_node *np = of_cpu_device_node_get(cpu);
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struct device_node *prev = NULL;
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int levels = 0, leaves = 0, level;
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if (of_property_read_bool(np, "cache-size"))
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++leaves;
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if (of_property_read_bool(np, "i-cache-size"))
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++leaves;
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if (of_property_read_bool(np, "d-cache-size"))
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++leaves;
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if (leaves > 0)
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levels = 1;
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prev = np;
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while ((np = of_find_next_cache_node(np))) {
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of_node_put(prev);
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prev = np;
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if (!of_device_is_compatible(np, "cache"))
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break;
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if (of_property_read_u32(np, "cache-level", &level))
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break;
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if (level <= levels)
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break;
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if (of_property_read_bool(np, "cache-size"))
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++leaves;
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if (of_property_read_bool(np, "i-cache-size"))
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++leaves;
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if (of_property_read_bool(np, "d-cache-size"))
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++leaves;
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levels = level;
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}
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of_node_put(np);
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this_cpu_ci->num_levels = levels;
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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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struct device_node *np = of_cpu_device_node_get(cpu);
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struct device_node *prev = NULL;
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int levels = 1, level = 1;
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/* Level 1 caches in cpu node */
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fill_cacheinfo(&this_leaf, np, level);
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/* Next level caches in cache nodes */
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prev = np;
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while ((np = of_find_next_cache_node(np))) {
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of_node_put(prev);
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prev = np;
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if (!of_device_is_compatible(np, "cache"))
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break;
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if (of_property_read_u32(np, "cache-level", &level))
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break;
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if (level <= levels)
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break;
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fill_cacheinfo(&this_leaf, np, level);
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levels = level;
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}
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of_node_put(np);
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return 0;
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}
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