17168ae33SJames Morse // SPDX-License-Identifier: GPL-2.0-only
27168ae33SJames Morse /*
37168ae33SJames Morse * Resource Director Technology(RDT)
47168ae33SJames Morse * - Monitoring code
57168ae33SJames Morse *
67168ae33SJames Morse * Copyright (C) 2017 Intel Corporation
77168ae33SJames Morse *
87168ae33SJames Morse * Author:
97168ae33SJames Morse * Vikas Shivappa <vikas.shivappa@intel.com>
107168ae33SJames Morse *
117168ae33SJames Morse * This replaces the cqm.c based on perf but we reuse a lot of
127168ae33SJames Morse * code and datastructures originally from Peter Zijlstra and Matt Fleming.
137168ae33SJames Morse *
147168ae33SJames Morse * More information about RDT be found in the Intel (R) x86 Architecture
157168ae33SJames Morse * Software Developer Manual June 2016, volume 3, section 17.17.
167168ae33SJames Morse */
177168ae33SJames Morse
187168ae33SJames Morse #define pr_fmt(fmt) "resctrl: " fmt
197168ae33SJames Morse
207168ae33SJames Morse #include <linux/cpu.h>
217168ae33SJames Morse #include <linux/resctrl.h>
227168ae33SJames Morse #include <linux/sizes.h>
237168ae33SJames Morse #include <linux/slab.h>
247168ae33SJames Morse
257168ae33SJames Morse #include "internal.h"
267168ae33SJames Morse
277168ae33SJames Morse #define CREATE_TRACE_POINTS
287168ae33SJames Morse
297168ae33SJames Morse #include "monitor_trace.h"
307168ae33SJames Morse
317168ae33SJames Morse /**
327168ae33SJames Morse * struct rmid_entry - dirty tracking for all RMID.
337168ae33SJames Morse * @closid: The CLOSID for this entry.
347168ae33SJames Morse * @rmid: The RMID for this entry.
357168ae33SJames Morse * @busy: The number of domains with cached data using this RMID.
367168ae33SJames Morse * @list: Member of the rmid_free_lru list when busy == 0.
377168ae33SJames Morse *
387168ae33SJames Morse * Depending on the architecture the correct monitor is accessed using
397168ae33SJames Morse * both @closid and @rmid, or @rmid only.
407168ae33SJames Morse *
417168ae33SJames Morse * Take the rdtgroup_mutex when accessing.
427168ae33SJames Morse */
437168ae33SJames Morse struct rmid_entry {
447168ae33SJames Morse u32 closid;
457168ae33SJames Morse u32 rmid;
467168ae33SJames Morse int busy;
477168ae33SJames Morse struct list_head list;
487168ae33SJames Morse };
497168ae33SJames Morse
507168ae33SJames Morse /*
517168ae33SJames Morse * @rmid_free_lru - A least recently used list of free RMIDs
527168ae33SJames Morse * These RMIDs are guaranteed to have an occupancy less than the
537168ae33SJames Morse * threshold occupancy
547168ae33SJames Morse */
557168ae33SJames Morse static LIST_HEAD(rmid_free_lru);
567168ae33SJames Morse
577168ae33SJames Morse /*
587168ae33SJames Morse * @closid_num_dirty_rmid The number of dirty RMID each CLOSID has.
597168ae33SJames Morse * Only allocated when CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID is defined.
607168ae33SJames Morse * Indexed by CLOSID. Protected by rdtgroup_mutex.
617168ae33SJames Morse */
627168ae33SJames Morse static u32 *closid_num_dirty_rmid;
637168ae33SJames Morse
647168ae33SJames Morse /*
657168ae33SJames Morse * @rmid_limbo_count - count of currently unused but (potentially)
667168ae33SJames Morse * dirty RMIDs.
677168ae33SJames Morse * This counts RMIDs that no one is currently using but that
687168ae33SJames Morse * may have a occupancy value > resctrl_rmid_realloc_threshold. User can
697168ae33SJames Morse * change the threshold occupancy value.
707168ae33SJames Morse */
717168ae33SJames Morse static unsigned int rmid_limbo_count;
727168ae33SJames Morse
737168ae33SJames Morse /*
747168ae33SJames Morse * @rmid_entry - The entry in the limbo and free lists.
757168ae33SJames Morse */
767168ae33SJames Morse static struct rmid_entry *rmid_ptrs;
777168ae33SJames Morse
787168ae33SJames Morse /*
797168ae33SJames Morse * This is the threshold cache occupancy in bytes at which we will consider an
807168ae33SJames Morse * RMID available for re-allocation.
817168ae33SJames Morse */
827168ae33SJames Morse unsigned int resctrl_rmid_realloc_threshold;
837168ae33SJames Morse
847168ae33SJames Morse /*
857168ae33SJames Morse * This is the maximum value for the reallocation threshold, in bytes.
867168ae33SJames Morse */
877168ae33SJames Morse unsigned int resctrl_rmid_realloc_limit;
887168ae33SJames Morse
897168ae33SJames Morse /*
907168ae33SJames Morse * x86 and arm64 differ in their handling of monitoring.
917168ae33SJames Morse * x86's RMID are independent numbers, there is only one source of traffic
927168ae33SJames Morse * with an RMID value of '1'.
937168ae33SJames Morse * arm64's PMG extends the PARTID/CLOSID space, there are multiple sources of
947168ae33SJames Morse * traffic with a PMG value of '1', one for each CLOSID, meaning the RMID
957168ae33SJames Morse * value is no longer unique.
967168ae33SJames Morse * To account for this, resctrl uses an index. On x86 this is just the RMID,
977168ae33SJames Morse * on arm64 it encodes the CLOSID and RMID. This gives a unique number.
987168ae33SJames Morse *
997168ae33SJames Morse * The domain's rmid_busy_llc and rmid_ptrs[] are sized by index. The arch code
1007168ae33SJames Morse * must accept an attempt to read every index.
1017168ae33SJames Morse */
__rmid_entry(u32 idx)1027168ae33SJames Morse static inline struct rmid_entry *__rmid_entry(u32 idx)
1037168ae33SJames Morse {
1047168ae33SJames Morse struct rmid_entry *entry;
1057168ae33SJames Morse u32 closid, rmid;
1067168ae33SJames Morse
1077168ae33SJames Morse entry = &rmid_ptrs[idx];
1087168ae33SJames Morse resctrl_arch_rmid_idx_decode(idx, &closid, &rmid);
1097168ae33SJames Morse
1107168ae33SJames Morse WARN_ON_ONCE(entry->closid != closid);
1117168ae33SJames Morse WARN_ON_ONCE(entry->rmid != rmid);
1127168ae33SJames Morse
1137168ae33SJames Morse return entry;
1147168ae33SJames Morse }
1157168ae33SJames Morse
limbo_release_entry(struct rmid_entry * entry)1167168ae33SJames Morse static void limbo_release_entry(struct rmid_entry *entry)
1177168ae33SJames Morse {
1187168ae33SJames Morse lockdep_assert_held(&rdtgroup_mutex);
1197168ae33SJames Morse
1207168ae33SJames Morse rmid_limbo_count--;
1217168ae33SJames Morse list_add_tail(&entry->list, &rmid_free_lru);
1227168ae33SJames Morse
1237168ae33SJames Morse if (IS_ENABLED(CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID))
1247168ae33SJames Morse closid_num_dirty_rmid[entry->closid]--;
1257168ae33SJames Morse }
1267168ae33SJames Morse
1277168ae33SJames Morse /*
1287168ae33SJames Morse * Check the RMIDs that are marked as busy for this domain. If the
1297168ae33SJames Morse * reported LLC occupancy is below the threshold clear the busy bit and
1307168ae33SJames Morse * decrement the count. If the busy count gets to zero on an RMID, we
1317168ae33SJames Morse * free the RMID
1327168ae33SJames Morse */
__check_limbo(struct rdt_mon_domain * d,bool force_free)1337168ae33SJames Morse void __check_limbo(struct rdt_mon_domain *d, bool force_free)
1347168ae33SJames Morse {
1357168ae33SJames Morse struct rdt_resource *r = resctrl_arch_get_resource(RDT_RESOURCE_L3);
1367168ae33SJames Morse u32 idx_limit = resctrl_arch_system_num_rmid_idx();
1377168ae33SJames Morse struct rmid_entry *entry;
1387168ae33SJames Morse u32 idx, cur_idx = 1;
1397168ae33SJames Morse void *arch_mon_ctx;
1407168ae33SJames Morse bool rmid_dirty;
1417168ae33SJames Morse u64 val = 0;
1427168ae33SJames Morse
1437168ae33SJames Morse arch_mon_ctx = resctrl_arch_mon_ctx_alloc(r, QOS_L3_OCCUP_EVENT_ID);
1447168ae33SJames Morse if (IS_ERR(arch_mon_ctx)) {
1457168ae33SJames Morse pr_warn_ratelimited("Failed to allocate monitor context: %ld",
1467168ae33SJames Morse PTR_ERR(arch_mon_ctx));
1477168ae33SJames Morse return;
1487168ae33SJames Morse }
1497168ae33SJames Morse
1507168ae33SJames Morse /*
1517168ae33SJames Morse * Skip RMID 0 and start from RMID 1 and check all the RMIDs that
1527168ae33SJames Morse * are marked as busy for occupancy < threshold. If the occupancy
1537168ae33SJames Morse * is less than the threshold decrement the busy counter of the
1547168ae33SJames Morse * RMID and move it to the free list when the counter reaches 0.
1557168ae33SJames Morse */
1567168ae33SJames Morse for (;;) {
1577168ae33SJames Morse idx = find_next_bit(d->rmid_busy_llc, idx_limit, cur_idx);
1587168ae33SJames Morse if (idx >= idx_limit)
1597168ae33SJames Morse break;
1607168ae33SJames Morse
1617168ae33SJames Morse entry = __rmid_entry(idx);
1627168ae33SJames Morse if (resctrl_arch_rmid_read(r, d, entry->closid, entry->rmid,
1637168ae33SJames Morse QOS_L3_OCCUP_EVENT_ID, &val,
1647168ae33SJames Morse arch_mon_ctx)) {
1657168ae33SJames Morse rmid_dirty = true;
1667168ae33SJames Morse } else {
1677168ae33SJames Morse rmid_dirty = (val >= resctrl_rmid_realloc_threshold);
1687168ae33SJames Morse
1697168ae33SJames Morse /*
1707168ae33SJames Morse * x86's CLOSID and RMID are independent numbers, so the entry's
1717168ae33SJames Morse * CLOSID is an empty CLOSID (X86_RESCTRL_EMPTY_CLOSID). On Arm the
1727168ae33SJames Morse * RMID (PMG) extends the CLOSID (PARTID) space with bits that aren't
1737168ae33SJames Morse * used to select the configuration. It is thus necessary to track both
1747168ae33SJames Morse * CLOSID and RMID because there may be dependencies between them
1757168ae33SJames Morse * on some architectures.
1767168ae33SJames Morse */
1777168ae33SJames Morse trace_mon_llc_occupancy_limbo(entry->closid, entry->rmid, d->hdr.id, val);
1787168ae33SJames Morse }
1797168ae33SJames Morse
1807168ae33SJames Morse if (force_free || !rmid_dirty) {
1817168ae33SJames Morse clear_bit(idx, d->rmid_busy_llc);
1827168ae33SJames Morse if (!--entry->busy)
1837168ae33SJames Morse limbo_release_entry(entry);
1847168ae33SJames Morse }
1857168ae33SJames Morse cur_idx = idx + 1;
1867168ae33SJames Morse }
1877168ae33SJames Morse
1887168ae33SJames Morse resctrl_arch_mon_ctx_free(r, QOS_L3_OCCUP_EVENT_ID, arch_mon_ctx);
1897168ae33SJames Morse }
1907168ae33SJames Morse
has_busy_rmid(struct rdt_mon_domain * d)1917168ae33SJames Morse bool has_busy_rmid(struct rdt_mon_domain *d)
1927168ae33SJames Morse {
1937168ae33SJames Morse u32 idx_limit = resctrl_arch_system_num_rmid_idx();
1947168ae33SJames Morse
1957168ae33SJames Morse return find_first_bit(d->rmid_busy_llc, idx_limit) != idx_limit;
1967168ae33SJames Morse }
1977168ae33SJames Morse
resctrl_find_free_rmid(u32 closid)1987168ae33SJames Morse static struct rmid_entry *resctrl_find_free_rmid(u32 closid)
1997168ae33SJames Morse {
2007168ae33SJames Morse struct rmid_entry *itr;
2017168ae33SJames Morse u32 itr_idx, cmp_idx;
2027168ae33SJames Morse
2037168ae33SJames Morse if (list_empty(&rmid_free_lru))
2047168ae33SJames Morse return rmid_limbo_count ? ERR_PTR(-EBUSY) : ERR_PTR(-ENOSPC);
2057168ae33SJames Morse
2067168ae33SJames Morse list_for_each_entry(itr, &rmid_free_lru, list) {
2077168ae33SJames Morse /*
2087168ae33SJames Morse * Get the index of this free RMID, and the index it would need
2097168ae33SJames Morse * to be if it were used with this CLOSID.
2107168ae33SJames Morse * If the CLOSID is irrelevant on this architecture, the two
2117168ae33SJames Morse * index values are always the same on every entry and thus the
2127168ae33SJames Morse * very first entry will be returned.
2137168ae33SJames Morse */
2147168ae33SJames Morse itr_idx = resctrl_arch_rmid_idx_encode(itr->closid, itr->rmid);
2157168ae33SJames Morse cmp_idx = resctrl_arch_rmid_idx_encode(closid, itr->rmid);
2167168ae33SJames Morse
2177168ae33SJames Morse if (itr_idx == cmp_idx)
2187168ae33SJames Morse return itr;
2197168ae33SJames Morse }
2207168ae33SJames Morse
2217168ae33SJames Morse return ERR_PTR(-ENOSPC);
2227168ae33SJames Morse }
2237168ae33SJames Morse
2247168ae33SJames Morse /**
2257168ae33SJames Morse * resctrl_find_cleanest_closid() - Find a CLOSID where all the associated
2267168ae33SJames Morse * RMID are clean, or the CLOSID that has
2277168ae33SJames Morse * the most clean RMID.
2287168ae33SJames Morse *
2297168ae33SJames Morse * MPAM's equivalent of RMID are per-CLOSID, meaning a freshly allocated CLOSID
2307168ae33SJames Morse * may not be able to allocate clean RMID. To avoid this the allocator will
2317168ae33SJames Morse * choose the CLOSID with the most clean RMID.
2327168ae33SJames Morse *
2337168ae33SJames Morse * When the CLOSID and RMID are independent numbers, the first free CLOSID will
2347168ae33SJames Morse * be returned.
2357168ae33SJames Morse */
resctrl_find_cleanest_closid(void)2367168ae33SJames Morse int resctrl_find_cleanest_closid(void)
2377168ae33SJames Morse {
2387168ae33SJames Morse u32 cleanest_closid = ~0;
2397168ae33SJames Morse int i = 0;
2407168ae33SJames Morse
2417168ae33SJames Morse lockdep_assert_held(&rdtgroup_mutex);
2427168ae33SJames Morse
2437168ae33SJames Morse if (!IS_ENABLED(CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID))
2447168ae33SJames Morse return -EIO;
2457168ae33SJames Morse
2467168ae33SJames Morse for (i = 0; i < closids_supported(); i++) {
2477168ae33SJames Morse int num_dirty;
2487168ae33SJames Morse
2497168ae33SJames Morse if (closid_allocated(i))
2507168ae33SJames Morse continue;
2517168ae33SJames Morse
2527168ae33SJames Morse num_dirty = closid_num_dirty_rmid[i];
2537168ae33SJames Morse if (num_dirty == 0)
2547168ae33SJames Morse return i;
2557168ae33SJames Morse
2567168ae33SJames Morse if (cleanest_closid == ~0)
2577168ae33SJames Morse cleanest_closid = i;
2587168ae33SJames Morse
2597168ae33SJames Morse if (num_dirty < closid_num_dirty_rmid[cleanest_closid])
2607168ae33SJames Morse cleanest_closid = i;
2617168ae33SJames Morse }
2627168ae33SJames Morse
2637168ae33SJames Morse if (cleanest_closid == ~0)
2647168ae33SJames Morse return -ENOSPC;
2657168ae33SJames Morse
2667168ae33SJames Morse return cleanest_closid;
2677168ae33SJames Morse }
2687168ae33SJames Morse
2697168ae33SJames Morse /*
2707168ae33SJames Morse * For MPAM the RMID value is not unique, and has to be considered with
2717168ae33SJames Morse * the CLOSID. The (CLOSID, RMID) pair is allocated on all domains, which
2727168ae33SJames Morse * allows all domains to be managed by a single free list.
2737168ae33SJames Morse * Each domain also has a rmid_busy_llc to reduce the work of the limbo handler.
2747168ae33SJames Morse */
alloc_rmid(u32 closid)2757168ae33SJames Morse int alloc_rmid(u32 closid)
2767168ae33SJames Morse {
2777168ae33SJames Morse struct rmid_entry *entry;
2787168ae33SJames Morse
2797168ae33SJames Morse lockdep_assert_held(&rdtgroup_mutex);
2807168ae33SJames Morse
2817168ae33SJames Morse entry = resctrl_find_free_rmid(closid);
2827168ae33SJames Morse if (IS_ERR(entry))
2837168ae33SJames Morse return PTR_ERR(entry);
2847168ae33SJames Morse
2857168ae33SJames Morse list_del(&entry->list);
2867168ae33SJames Morse return entry->rmid;
2877168ae33SJames Morse }
2887168ae33SJames Morse
add_rmid_to_limbo(struct rmid_entry * entry)2897168ae33SJames Morse static void add_rmid_to_limbo(struct rmid_entry *entry)
2907168ae33SJames Morse {
2917168ae33SJames Morse struct rdt_resource *r = resctrl_arch_get_resource(RDT_RESOURCE_L3);
2927168ae33SJames Morse struct rdt_mon_domain *d;
2937168ae33SJames Morse u32 idx;
2947168ae33SJames Morse
2957168ae33SJames Morse lockdep_assert_held(&rdtgroup_mutex);
2967168ae33SJames Morse
2977168ae33SJames Morse /* Walking r->domains, ensure it can't race with cpuhp */
2987168ae33SJames Morse lockdep_assert_cpus_held();
2997168ae33SJames Morse
3007168ae33SJames Morse idx = resctrl_arch_rmid_idx_encode(entry->closid, entry->rmid);
3017168ae33SJames Morse
3027168ae33SJames Morse entry->busy = 0;
3037168ae33SJames Morse list_for_each_entry(d, &r->mon_domains, hdr.list) {
3047168ae33SJames Morse /*
3057168ae33SJames Morse * For the first limbo RMID in the domain,
3067168ae33SJames Morse * setup up the limbo worker.
3077168ae33SJames Morse */
3087168ae33SJames Morse if (!has_busy_rmid(d))
3097168ae33SJames Morse cqm_setup_limbo_handler(d, CQM_LIMBOCHECK_INTERVAL,
3107168ae33SJames Morse RESCTRL_PICK_ANY_CPU);
3117168ae33SJames Morse set_bit(idx, d->rmid_busy_llc);
3127168ae33SJames Morse entry->busy++;
3137168ae33SJames Morse }
3147168ae33SJames Morse
3157168ae33SJames Morse rmid_limbo_count++;
3167168ae33SJames Morse if (IS_ENABLED(CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID))
3177168ae33SJames Morse closid_num_dirty_rmid[entry->closid]++;
3187168ae33SJames Morse }
3197168ae33SJames Morse
free_rmid(u32 closid,u32 rmid)3207168ae33SJames Morse void free_rmid(u32 closid, u32 rmid)
3217168ae33SJames Morse {
3227168ae33SJames Morse u32 idx = resctrl_arch_rmid_idx_encode(closid, rmid);
3237168ae33SJames Morse struct rmid_entry *entry;
3247168ae33SJames Morse
3257168ae33SJames Morse lockdep_assert_held(&rdtgroup_mutex);
3267168ae33SJames Morse
3277168ae33SJames Morse /*
3287168ae33SJames Morse * Do not allow the default rmid to be free'd. Comparing by index
3297168ae33SJames Morse * allows architectures that ignore the closid parameter to avoid an
3307168ae33SJames Morse * unnecessary check.
3317168ae33SJames Morse */
3327168ae33SJames Morse if (!resctrl_arch_mon_capable() ||
3337168ae33SJames Morse idx == resctrl_arch_rmid_idx_encode(RESCTRL_RESERVED_CLOSID,
3347168ae33SJames Morse RESCTRL_RESERVED_RMID))
3357168ae33SJames Morse return;
3367168ae33SJames Morse
3377168ae33SJames Morse entry = __rmid_entry(idx);
3387168ae33SJames Morse
3397168ae33SJames Morse if (resctrl_arch_is_llc_occupancy_enabled())
3407168ae33SJames Morse add_rmid_to_limbo(entry);
3417168ae33SJames Morse else
3427168ae33SJames Morse list_add_tail(&entry->list, &rmid_free_lru);
3437168ae33SJames Morse }
3447168ae33SJames Morse
get_mbm_state(struct rdt_mon_domain * d,u32 closid,u32 rmid,enum resctrl_event_id evtid)3457168ae33SJames Morse static struct mbm_state *get_mbm_state(struct rdt_mon_domain *d, u32 closid,
3467168ae33SJames Morse u32 rmid, enum resctrl_event_id evtid)
3477168ae33SJames Morse {
3487168ae33SJames Morse u32 idx = resctrl_arch_rmid_idx_encode(closid, rmid);
3497168ae33SJames Morse
3507168ae33SJames Morse switch (evtid) {
3517168ae33SJames Morse case QOS_L3_MBM_TOTAL_EVENT_ID:
3527168ae33SJames Morse return &d->mbm_total[idx];
3537168ae33SJames Morse case QOS_L3_MBM_LOCAL_EVENT_ID:
3547168ae33SJames Morse return &d->mbm_local[idx];
3557168ae33SJames Morse default:
3567168ae33SJames Morse return NULL;
3577168ae33SJames Morse }
3587168ae33SJames Morse }
3597168ae33SJames Morse
__mon_event_count(u32 closid,u32 rmid,struct rmid_read * rr)3607168ae33SJames Morse static int __mon_event_count(u32 closid, u32 rmid, struct rmid_read *rr)
3617168ae33SJames Morse {
3627168ae33SJames Morse int cpu = smp_processor_id();
3637168ae33SJames Morse struct rdt_mon_domain *d;
364*594902c9SQinyun Tan struct cacheinfo *ci;
3657168ae33SJames Morse struct mbm_state *m;
3667168ae33SJames Morse int err, ret;
3677168ae33SJames Morse u64 tval = 0;
3687168ae33SJames Morse
3697168ae33SJames Morse if (rr->first) {
3707168ae33SJames Morse resctrl_arch_reset_rmid(rr->r, rr->d, closid, rmid, rr->evtid);
3717168ae33SJames Morse m = get_mbm_state(rr->d, closid, rmid, rr->evtid);
3727168ae33SJames Morse if (m)
3737168ae33SJames Morse memset(m, 0, sizeof(struct mbm_state));
3747168ae33SJames Morse return 0;
3757168ae33SJames Morse }
3767168ae33SJames Morse
3777168ae33SJames Morse if (rr->d) {
3787168ae33SJames Morse /* Reading a single domain, must be on a CPU in that domain. */
3797168ae33SJames Morse if (!cpumask_test_cpu(cpu, &rr->d->hdr.cpu_mask))
3807168ae33SJames Morse return -EINVAL;
3817168ae33SJames Morse rr->err = resctrl_arch_rmid_read(rr->r, rr->d, closid, rmid,
3827168ae33SJames Morse rr->evtid, &tval, rr->arch_mon_ctx);
3837168ae33SJames Morse if (rr->err)
3847168ae33SJames Morse return rr->err;
3857168ae33SJames Morse
3867168ae33SJames Morse rr->val += tval;
3877168ae33SJames Morse
3887168ae33SJames Morse return 0;
3897168ae33SJames Morse }
3907168ae33SJames Morse
3917168ae33SJames Morse /* Summing domains that share a cache, must be on a CPU for that cache. */
392*594902c9SQinyun Tan ci = get_cpu_cacheinfo_level(cpu, RESCTRL_L3_CACHE);
393*594902c9SQinyun Tan if (!ci || ci->id != rr->ci_id)
3947168ae33SJames Morse return -EINVAL;
3957168ae33SJames Morse
3967168ae33SJames Morse /*
3977168ae33SJames Morse * Legacy files must report the sum of an event across all
3987168ae33SJames Morse * domains that share the same L3 cache instance.
3997168ae33SJames Morse * Report success if a read from any domain succeeds, -EINVAL
4007168ae33SJames Morse * (translated to "Unavailable" for user space) if reading from
4017168ae33SJames Morse * all domains fail for any reason.
4027168ae33SJames Morse */
4037168ae33SJames Morse ret = -EINVAL;
4047168ae33SJames Morse list_for_each_entry(d, &rr->r->mon_domains, hdr.list) {
405*594902c9SQinyun Tan if (d->ci_id != rr->ci_id)
4067168ae33SJames Morse continue;
4077168ae33SJames Morse err = resctrl_arch_rmid_read(rr->r, d, closid, rmid,
4087168ae33SJames Morse rr->evtid, &tval, rr->arch_mon_ctx);
4097168ae33SJames Morse if (!err) {
4107168ae33SJames Morse rr->val += tval;
4117168ae33SJames Morse ret = 0;
4127168ae33SJames Morse }
4137168ae33SJames Morse }
4147168ae33SJames Morse
4157168ae33SJames Morse if (ret)
4167168ae33SJames Morse rr->err = ret;
4177168ae33SJames Morse
4187168ae33SJames Morse return ret;
4197168ae33SJames Morse }
4207168ae33SJames Morse
4217168ae33SJames Morse /*
4227168ae33SJames Morse * mbm_bw_count() - Update bw count from values previously read by
4237168ae33SJames Morse * __mon_event_count().
4247168ae33SJames Morse * @closid: The closid used to identify the cached mbm_state.
4257168ae33SJames Morse * @rmid: The rmid used to identify the cached mbm_state.
4267168ae33SJames Morse * @rr: The struct rmid_read populated by __mon_event_count().
4277168ae33SJames Morse *
4287168ae33SJames Morse * Supporting function to calculate the memory bandwidth
4297168ae33SJames Morse * and delta bandwidth in MBps. The chunks value previously read by
4307168ae33SJames Morse * __mon_event_count() is compared with the chunks value from the previous
4317168ae33SJames Morse * invocation. This must be called once per second to maintain values in MBps.
4327168ae33SJames Morse */
mbm_bw_count(u32 closid,u32 rmid,struct rmid_read * rr)4337168ae33SJames Morse static void mbm_bw_count(u32 closid, u32 rmid, struct rmid_read *rr)
4347168ae33SJames Morse {
4357168ae33SJames Morse u64 cur_bw, bytes, cur_bytes;
4367168ae33SJames Morse struct mbm_state *m;
4377168ae33SJames Morse
4387168ae33SJames Morse m = get_mbm_state(rr->d, closid, rmid, rr->evtid);
4397168ae33SJames Morse if (WARN_ON_ONCE(!m))
4407168ae33SJames Morse return;
4417168ae33SJames Morse
4427168ae33SJames Morse cur_bytes = rr->val;
4437168ae33SJames Morse bytes = cur_bytes - m->prev_bw_bytes;
4447168ae33SJames Morse m->prev_bw_bytes = cur_bytes;
4457168ae33SJames Morse
4467168ae33SJames Morse cur_bw = bytes / SZ_1M;
4477168ae33SJames Morse
4487168ae33SJames Morse m->prev_bw = cur_bw;
4497168ae33SJames Morse }
4507168ae33SJames Morse
4517168ae33SJames Morse /*
4527168ae33SJames Morse * This is scheduled by mon_event_read() to read the CQM/MBM counters
4537168ae33SJames Morse * on a domain.
4547168ae33SJames Morse */
mon_event_count(void * info)4557168ae33SJames Morse void mon_event_count(void *info)
4567168ae33SJames Morse {
4577168ae33SJames Morse struct rdtgroup *rdtgrp, *entry;
4587168ae33SJames Morse struct rmid_read *rr = info;
4597168ae33SJames Morse struct list_head *head;
4607168ae33SJames Morse int ret;
4617168ae33SJames Morse
4627168ae33SJames Morse rdtgrp = rr->rgrp;
4637168ae33SJames Morse
4647168ae33SJames Morse ret = __mon_event_count(rdtgrp->closid, rdtgrp->mon.rmid, rr);
4657168ae33SJames Morse
4667168ae33SJames Morse /*
4677168ae33SJames Morse * For Ctrl groups read data from child monitor groups and
4687168ae33SJames Morse * add them together. Count events which are read successfully.
4697168ae33SJames Morse * Discard the rmid_read's reporting errors.
4707168ae33SJames Morse */
4717168ae33SJames Morse head = &rdtgrp->mon.crdtgrp_list;
4727168ae33SJames Morse
4737168ae33SJames Morse if (rdtgrp->type == RDTCTRL_GROUP) {
4747168ae33SJames Morse list_for_each_entry(entry, head, mon.crdtgrp_list) {
4757168ae33SJames Morse if (__mon_event_count(entry->closid, entry->mon.rmid,
4767168ae33SJames Morse rr) == 0)
4777168ae33SJames Morse ret = 0;
4787168ae33SJames Morse }
4797168ae33SJames Morse }
4807168ae33SJames Morse
4817168ae33SJames Morse /*
4827168ae33SJames Morse * __mon_event_count() calls for newly created monitor groups may
4837168ae33SJames Morse * report -EINVAL/Unavailable if the monitor hasn't seen any traffic.
4847168ae33SJames Morse * Discard error if any of the monitor event reads succeeded.
4857168ae33SJames Morse */
4867168ae33SJames Morse if (ret == 0)
4877168ae33SJames Morse rr->err = 0;
4887168ae33SJames Morse }
4897168ae33SJames Morse
get_ctrl_domain_from_cpu(int cpu,struct rdt_resource * r)4907168ae33SJames Morse static struct rdt_ctrl_domain *get_ctrl_domain_from_cpu(int cpu,
4917168ae33SJames Morse struct rdt_resource *r)
4927168ae33SJames Morse {
4937168ae33SJames Morse struct rdt_ctrl_domain *d;
4947168ae33SJames Morse
4957168ae33SJames Morse lockdep_assert_cpus_held();
4967168ae33SJames Morse
4977168ae33SJames Morse list_for_each_entry(d, &r->ctrl_domains, hdr.list) {
4987168ae33SJames Morse /* Find the domain that contains this CPU */
4997168ae33SJames Morse if (cpumask_test_cpu(cpu, &d->hdr.cpu_mask))
5007168ae33SJames Morse return d;
5017168ae33SJames Morse }
5027168ae33SJames Morse
5037168ae33SJames Morse return NULL;
5047168ae33SJames Morse }
5057168ae33SJames Morse
5067168ae33SJames Morse /*
5077168ae33SJames Morse * Feedback loop for MBA software controller (mba_sc)
5087168ae33SJames Morse *
5097168ae33SJames Morse * mba_sc is a feedback loop where we periodically read MBM counters and
5107168ae33SJames Morse * adjust the bandwidth percentage values via the IA32_MBA_THRTL_MSRs so
5117168ae33SJames Morse * that:
5127168ae33SJames Morse *
5137168ae33SJames Morse * current bandwidth(cur_bw) < user specified bandwidth(user_bw)
5147168ae33SJames Morse *
5157168ae33SJames Morse * This uses the MBM counters to measure the bandwidth and MBA throttle
5167168ae33SJames Morse * MSRs to control the bandwidth for a particular rdtgrp. It builds on the
5177168ae33SJames Morse * fact that resctrl rdtgroups have both monitoring and control.
5187168ae33SJames Morse *
5197168ae33SJames Morse * The frequency of the checks is 1s and we just tag along the MBM overflow
5207168ae33SJames Morse * timer. Having 1s interval makes the calculation of bandwidth simpler.
5217168ae33SJames Morse *
5227168ae33SJames Morse * Although MBA's goal is to restrict the bandwidth to a maximum, there may
5237168ae33SJames Morse * be a need to increase the bandwidth to avoid unnecessarily restricting
5247168ae33SJames Morse * the L2 <-> L3 traffic.
5257168ae33SJames Morse *
5267168ae33SJames Morse * Since MBA controls the L2 external bandwidth where as MBM measures the
5277168ae33SJames Morse * L3 external bandwidth the following sequence could lead to such a
5287168ae33SJames Morse * situation.
5297168ae33SJames Morse *
5307168ae33SJames Morse * Consider an rdtgroup which had high L3 <-> memory traffic in initial
5317168ae33SJames Morse * phases -> mba_sc kicks in and reduced bandwidth percentage values -> but
5327168ae33SJames Morse * after some time rdtgroup has mostly L2 <-> L3 traffic.
5337168ae33SJames Morse *
5347168ae33SJames Morse * In this case we may restrict the rdtgroup's L2 <-> L3 traffic as its
5357168ae33SJames Morse * throttle MSRs already have low percentage values. To avoid
5367168ae33SJames Morse * unnecessarily restricting such rdtgroups, we also increase the bandwidth.
5377168ae33SJames Morse */
update_mba_bw(struct rdtgroup * rgrp,struct rdt_mon_domain * dom_mbm)5387168ae33SJames Morse static void update_mba_bw(struct rdtgroup *rgrp, struct rdt_mon_domain *dom_mbm)
5397168ae33SJames Morse {
5407168ae33SJames Morse u32 closid, rmid, cur_msr_val, new_msr_val;
5417168ae33SJames Morse struct mbm_state *pmbm_data, *cmbm_data;
5427168ae33SJames Morse struct rdt_ctrl_domain *dom_mba;
5437168ae33SJames Morse enum resctrl_event_id evt_id;
5447168ae33SJames Morse struct rdt_resource *r_mba;
5457168ae33SJames Morse struct list_head *head;
5467168ae33SJames Morse struct rdtgroup *entry;
5477168ae33SJames Morse u32 cur_bw, user_bw;
5487168ae33SJames Morse
5497168ae33SJames Morse r_mba = resctrl_arch_get_resource(RDT_RESOURCE_MBA);
5507168ae33SJames Morse evt_id = rgrp->mba_mbps_event;
5517168ae33SJames Morse
5527168ae33SJames Morse closid = rgrp->closid;
5537168ae33SJames Morse rmid = rgrp->mon.rmid;
5547168ae33SJames Morse pmbm_data = get_mbm_state(dom_mbm, closid, rmid, evt_id);
5557168ae33SJames Morse if (WARN_ON_ONCE(!pmbm_data))
5567168ae33SJames Morse return;
5577168ae33SJames Morse
5587168ae33SJames Morse dom_mba = get_ctrl_domain_from_cpu(smp_processor_id(), r_mba);
5597168ae33SJames Morse if (!dom_mba) {
5607168ae33SJames Morse pr_warn_once("Failure to get domain for MBA update\n");
5617168ae33SJames Morse return;
5627168ae33SJames Morse }
5637168ae33SJames Morse
5647168ae33SJames Morse cur_bw = pmbm_data->prev_bw;
5657168ae33SJames Morse user_bw = dom_mba->mbps_val[closid];
5667168ae33SJames Morse
5677168ae33SJames Morse /* MBA resource doesn't support CDP */
5687168ae33SJames Morse cur_msr_val = resctrl_arch_get_config(r_mba, dom_mba, closid, CDP_NONE);
5697168ae33SJames Morse
5707168ae33SJames Morse /*
5717168ae33SJames Morse * For Ctrl groups read data from child monitor groups.
5727168ae33SJames Morse */
5737168ae33SJames Morse head = &rgrp->mon.crdtgrp_list;
5747168ae33SJames Morse list_for_each_entry(entry, head, mon.crdtgrp_list) {
5757168ae33SJames Morse cmbm_data = get_mbm_state(dom_mbm, entry->closid, entry->mon.rmid, evt_id);
5767168ae33SJames Morse if (WARN_ON_ONCE(!cmbm_data))
5777168ae33SJames Morse return;
5787168ae33SJames Morse cur_bw += cmbm_data->prev_bw;
5797168ae33SJames Morse }
5807168ae33SJames Morse
5817168ae33SJames Morse /*
5827168ae33SJames Morse * Scale up/down the bandwidth linearly for the ctrl group. The
5837168ae33SJames Morse * bandwidth step is the bandwidth granularity specified by the
5847168ae33SJames Morse * hardware.
5857168ae33SJames Morse * Always increase throttling if current bandwidth is above the
5867168ae33SJames Morse * target set by user.
5877168ae33SJames Morse * But avoid thrashing up and down on every poll by checking
5887168ae33SJames Morse * whether a decrease in throttling is likely to push the group
5897168ae33SJames Morse * back over target. E.g. if currently throttling to 30% of bandwidth
5907168ae33SJames Morse * on a system with 10% granularity steps, check whether moving to
5917168ae33SJames Morse * 40% would go past the limit by multiplying current bandwidth by
5927168ae33SJames Morse * "(30 + 10) / 30".
5937168ae33SJames Morse */
5947168ae33SJames Morse if (cur_msr_val > r_mba->membw.min_bw && user_bw < cur_bw) {
5957168ae33SJames Morse new_msr_val = cur_msr_val - r_mba->membw.bw_gran;
5967168ae33SJames Morse } else if (cur_msr_val < MAX_MBA_BW &&
5977168ae33SJames Morse (user_bw > (cur_bw * (cur_msr_val + r_mba->membw.min_bw) / cur_msr_val))) {
5987168ae33SJames Morse new_msr_val = cur_msr_val + r_mba->membw.bw_gran;
5997168ae33SJames Morse } else {
6007168ae33SJames Morse return;
6017168ae33SJames Morse }
6027168ae33SJames Morse
6037168ae33SJames Morse resctrl_arch_update_one(r_mba, dom_mba, closid, CDP_NONE, new_msr_val);
6047168ae33SJames Morse }
6057168ae33SJames Morse
mbm_update_one_event(struct rdt_resource * r,struct rdt_mon_domain * d,u32 closid,u32 rmid,enum resctrl_event_id evtid)6067168ae33SJames Morse static void mbm_update_one_event(struct rdt_resource *r, struct rdt_mon_domain *d,
6077168ae33SJames Morse u32 closid, u32 rmid, enum resctrl_event_id evtid)
6087168ae33SJames Morse {
6097168ae33SJames Morse struct rmid_read rr = {0};
6107168ae33SJames Morse
6117168ae33SJames Morse rr.r = r;
6127168ae33SJames Morse rr.d = d;
6137168ae33SJames Morse rr.evtid = evtid;
6147168ae33SJames Morse rr.arch_mon_ctx = resctrl_arch_mon_ctx_alloc(rr.r, rr.evtid);
6157168ae33SJames Morse if (IS_ERR(rr.arch_mon_ctx)) {
6167168ae33SJames Morse pr_warn_ratelimited("Failed to allocate monitor context: %ld",
6177168ae33SJames Morse PTR_ERR(rr.arch_mon_ctx));
6187168ae33SJames Morse return;
6197168ae33SJames Morse }
6207168ae33SJames Morse
6217168ae33SJames Morse __mon_event_count(closid, rmid, &rr);
6227168ae33SJames Morse
6237168ae33SJames Morse /*
6247168ae33SJames Morse * If the software controller is enabled, compute the
6257168ae33SJames Morse * bandwidth for this event id.
6267168ae33SJames Morse */
6277168ae33SJames Morse if (is_mba_sc(NULL))
6287168ae33SJames Morse mbm_bw_count(closid, rmid, &rr);
6297168ae33SJames Morse
6307168ae33SJames Morse resctrl_arch_mon_ctx_free(rr.r, rr.evtid, rr.arch_mon_ctx);
6317168ae33SJames Morse }
6327168ae33SJames Morse
mbm_update(struct rdt_resource * r,struct rdt_mon_domain * d,u32 closid,u32 rmid)6337168ae33SJames Morse static void mbm_update(struct rdt_resource *r, struct rdt_mon_domain *d,
6347168ae33SJames Morse u32 closid, u32 rmid)
6357168ae33SJames Morse {
6367168ae33SJames Morse /*
6377168ae33SJames Morse * This is protected from concurrent reads from user as both
6387168ae33SJames Morse * the user and overflow handler hold the global mutex.
6397168ae33SJames Morse */
6407168ae33SJames Morse if (resctrl_arch_is_mbm_total_enabled())
6417168ae33SJames Morse mbm_update_one_event(r, d, closid, rmid, QOS_L3_MBM_TOTAL_EVENT_ID);
6427168ae33SJames Morse
6437168ae33SJames Morse if (resctrl_arch_is_mbm_local_enabled())
6447168ae33SJames Morse mbm_update_one_event(r, d, closid, rmid, QOS_L3_MBM_LOCAL_EVENT_ID);
6457168ae33SJames Morse }
6467168ae33SJames Morse
6477168ae33SJames Morse /*
6487168ae33SJames Morse * Handler to scan the limbo list and move the RMIDs
6497168ae33SJames Morse * to free list whose occupancy < threshold_occupancy.
6507168ae33SJames Morse */
cqm_handle_limbo(struct work_struct * work)6517168ae33SJames Morse void cqm_handle_limbo(struct work_struct *work)
6527168ae33SJames Morse {
6537168ae33SJames Morse unsigned long delay = msecs_to_jiffies(CQM_LIMBOCHECK_INTERVAL);
6547168ae33SJames Morse struct rdt_mon_domain *d;
6557168ae33SJames Morse
6567168ae33SJames Morse cpus_read_lock();
6577168ae33SJames Morse mutex_lock(&rdtgroup_mutex);
6587168ae33SJames Morse
6597168ae33SJames Morse d = container_of(work, struct rdt_mon_domain, cqm_limbo.work);
6607168ae33SJames Morse
6617168ae33SJames Morse __check_limbo(d, false);
6627168ae33SJames Morse
6637168ae33SJames Morse if (has_busy_rmid(d)) {
6647168ae33SJames Morse d->cqm_work_cpu = cpumask_any_housekeeping(&d->hdr.cpu_mask,
6657168ae33SJames Morse RESCTRL_PICK_ANY_CPU);
6667168ae33SJames Morse schedule_delayed_work_on(d->cqm_work_cpu, &d->cqm_limbo,
6677168ae33SJames Morse delay);
6687168ae33SJames Morse }
6697168ae33SJames Morse
6707168ae33SJames Morse mutex_unlock(&rdtgroup_mutex);
6717168ae33SJames Morse cpus_read_unlock();
6727168ae33SJames Morse }
6737168ae33SJames Morse
6747168ae33SJames Morse /**
6757168ae33SJames Morse * cqm_setup_limbo_handler() - Schedule the limbo handler to run for this
6767168ae33SJames Morse * domain.
6777168ae33SJames Morse * @dom: The domain the limbo handler should run for.
6787168ae33SJames Morse * @delay_ms: How far in the future the handler should run.
6797168ae33SJames Morse * @exclude_cpu: Which CPU the handler should not run on,
6807168ae33SJames Morse * RESCTRL_PICK_ANY_CPU to pick any CPU.
6817168ae33SJames Morse */
cqm_setup_limbo_handler(struct rdt_mon_domain * dom,unsigned long delay_ms,int exclude_cpu)6827168ae33SJames Morse void cqm_setup_limbo_handler(struct rdt_mon_domain *dom, unsigned long delay_ms,
6837168ae33SJames Morse int exclude_cpu)
6847168ae33SJames Morse {
6857168ae33SJames Morse unsigned long delay = msecs_to_jiffies(delay_ms);
6867168ae33SJames Morse int cpu;
6877168ae33SJames Morse
6887168ae33SJames Morse cpu = cpumask_any_housekeeping(&dom->hdr.cpu_mask, exclude_cpu);
6897168ae33SJames Morse dom->cqm_work_cpu = cpu;
6907168ae33SJames Morse
6917168ae33SJames Morse if (cpu < nr_cpu_ids)
6927168ae33SJames Morse schedule_delayed_work_on(cpu, &dom->cqm_limbo, delay);
6937168ae33SJames Morse }
6947168ae33SJames Morse
mbm_handle_overflow(struct work_struct * work)6957168ae33SJames Morse void mbm_handle_overflow(struct work_struct *work)
6967168ae33SJames Morse {
6977168ae33SJames Morse unsigned long delay = msecs_to_jiffies(MBM_OVERFLOW_INTERVAL);
6987168ae33SJames Morse struct rdtgroup *prgrp, *crgrp;
6997168ae33SJames Morse struct rdt_mon_domain *d;
7007168ae33SJames Morse struct list_head *head;
7017168ae33SJames Morse struct rdt_resource *r;
7027168ae33SJames Morse
7037168ae33SJames Morse cpus_read_lock();
7047168ae33SJames Morse mutex_lock(&rdtgroup_mutex);
7057168ae33SJames Morse
7067168ae33SJames Morse /*
7077168ae33SJames Morse * If the filesystem has been unmounted this work no longer needs to
7087168ae33SJames Morse * run.
7097168ae33SJames Morse */
7107168ae33SJames Morse if (!resctrl_mounted || !resctrl_arch_mon_capable())
7117168ae33SJames Morse goto out_unlock;
7127168ae33SJames Morse
7137168ae33SJames Morse r = resctrl_arch_get_resource(RDT_RESOURCE_L3);
7147168ae33SJames Morse d = container_of(work, struct rdt_mon_domain, mbm_over.work);
7157168ae33SJames Morse
7167168ae33SJames Morse list_for_each_entry(prgrp, &rdt_all_groups, rdtgroup_list) {
7177168ae33SJames Morse mbm_update(r, d, prgrp->closid, prgrp->mon.rmid);
7187168ae33SJames Morse
7197168ae33SJames Morse head = &prgrp->mon.crdtgrp_list;
7207168ae33SJames Morse list_for_each_entry(crgrp, head, mon.crdtgrp_list)
7217168ae33SJames Morse mbm_update(r, d, crgrp->closid, crgrp->mon.rmid);
7227168ae33SJames Morse
7237168ae33SJames Morse if (is_mba_sc(NULL))
7247168ae33SJames Morse update_mba_bw(prgrp, d);
7257168ae33SJames Morse }
7267168ae33SJames Morse
7277168ae33SJames Morse /*
7287168ae33SJames Morse * Re-check for housekeeping CPUs. This allows the overflow handler to
7297168ae33SJames Morse * move off a nohz_full CPU quickly.
7307168ae33SJames Morse */
7317168ae33SJames Morse d->mbm_work_cpu = cpumask_any_housekeeping(&d->hdr.cpu_mask,
7327168ae33SJames Morse RESCTRL_PICK_ANY_CPU);
7337168ae33SJames Morse schedule_delayed_work_on(d->mbm_work_cpu, &d->mbm_over, delay);
7347168ae33SJames Morse
7357168ae33SJames Morse out_unlock:
7367168ae33SJames Morse mutex_unlock(&rdtgroup_mutex);
7377168ae33SJames Morse cpus_read_unlock();
7387168ae33SJames Morse }
7397168ae33SJames Morse
7407168ae33SJames Morse /**
7417168ae33SJames Morse * mbm_setup_overflow_handler() - Schedule the overflow handler to run for this
7427168ae33SJames Morse * domain.
7437168ae33SJames Morse * @dom: The domain the overflow handler should run for.
7447168ae33SJames Morse * @delay_ms: How far in the future the handler should run.
7457168ae33SJames Morse * @exclude_cpu: Which CPU the handler should not run on,
7467168ae33SJames Morse * RESCTRL_PICK_ANY_CPU to pick any CPU.
7477168ae33SJames Morse */
mbm_setup_overflow_handler(struct rdt_mon_domain * dom,unsigned long delay_ms,int exclude_cpu)7487168ae33SJames Morse void mbm_setup_overflow_handler(struct rdt_mon_domain *dom, unsigned long delay_ms,
7497168ae33SJames Morse int exclude_cpu)
7507168ae33SJames Morse {
7517168ae33SJames Morse unsigned long delay = msecs_to_jiffies(delay_ms);
7527168ae33SJames Morse int cpu;
7537168ae33SJames Morse
7547168ae33SJames Morse /*
7557168ae33SJames Morse * When a domain comes online there is no guarantee the filesystem is
7567168ae33SJames Morse * mounted. If not, there is no need to catch counter overflow.
7577168ae33SJames Morse */
7587168ae33SJames Morse if (!resctrl_mounted || !resctrl_arch_mon_capable())
7597168ae33SJames Morse return;
7607168ae33SJames Morse cpu = cpumask_any_housekeeping(&dom->hdr.cpu_mask, exclude_cpu);
7617168ae33SJames Morse dom->mbm_work_cpu = cpu;
7627168ae33SJames Morse
7637168ae33SJames Morse if (cpu < nr_cpu_ids)
7647168ae33SJames Morse schedule_delayed_work_on(cpu, &dom->mbm_over, delay);
7657168ae33SJames Morse }
7667168ae33SJames Morse
dom_data_init(struct rdt_resource * r)7677168ae33SJames Morse static int dom_data_init(struct rdt_resource *r)
7687168ae33SJames Morse {
7697168ae33SJames Morse u32 idx_limit = resctrl_arch_system_num_rmid_idx();
7707168ae33SJames Morse u32 num_closid = resctrl_arch_get_num_closid(r);
7717168ae33SJames Morse struct rmid_entry *entry = NULL;
7727168ae33SJames Morse int err = 0, i;
7737168ae33SJames Morse u32 idx;
7747168ae33SJames Morse
7757168ae33SJames Morse mutex_lock(&rdtgroup_mutex);
7767168ae33SJames Morse if (IS_ENABLED(CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID)) {
7777168ae33SJames Morse u32 *tmp;
7787168ae33SJames Morse
7797168ae33SJames Morse /*
7807168ae33SJames Morse * If the architecture hasn't provided a sanitised value here,
7817168ae33SJames Morse * this may result in larger arrays than necessary. Resctrl will
7827168ae33SJames Morse * use a smaller system wide value based on the resources in
7837168ae33SJames Morse * use.
7847168ae33SJames Morse */
7857168ae33SJames Morse tmp = kcalloc(num_closid, sizeof(*tmp), GFP_KERNEL);
7867168ae33SJames Morse if (!tmp) {
7877168ae33SJames Morse err = -ENOMEM;
7887168ae33SJames Morse goto out_unlock;
7897168ae33SJames Morse }
7907168ae33SJames Morse
7917168ae33SJames Morse closid_num_dirty_rmid = tmp;
7927168ae33SJames Morse }
7937168ae33SJames Morse
7947168ae33SJames Morse rmid_ptrs = kcalloc(idx_limit, sizeof(struct rmid_entry), GFP_KERNEL);
7957168ae33SJames Morse if (!rmid_ptrs) {
7967168ae33SJames Morse if (IS_ENABLED(CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID)) {
7977168ae33SJames Morse kfree(closid_num_dirty_rmid);
7987168ae33SJames Morse closid_num_dirty_rmid = NULL;
7997168ae33SJames Morse }
8007168ae33SJames Morse err = -ENOMEM;
8017168ae33SJames Morse goto out_unlock;
8027168ae33SJames Morse }
8037168ae33SJames Morse
8047168ae33SJames Morse for (i = 0; i < idx_limit; i++) {
8057168ae33SJames Morse entry = &rmid_ptrs[i];
8067168ae33SJames Morse INIT_LIST_HEAD(&entry->list);
8077168ae33SJames Morse
8087168ae33SJames Morse resctrl_arch_rmid_idx_decode(i, &entry->closid, &entry->rmid);
8097168ae33SJames Morse list_add_tail(&entry->list, &rmid_free_lru);
8107168ae33SJames Morse }
8117168ae33SJames Morse
8127168ae33SJames Morse /*
8137168ae33SJames Morse * RESCTRL_RESERVED_CLOSID and RESCTRL_RESERVED_RMID are special and
8147168ae33SJames Morse * are always allocated. These are used for the rdtgroup_default
8157168ae33SJames Morse * control group, which will be setup later in resctrl_init().
8167168ae33SJames Morse */
8177168ae33SJames Morse idx = resctrl_arch_rmid_idx_encode(RESCTRL_RESERVED_CLOSID,
8187168ae33SJames Morse RESCTRL_RESERVED_RMID);
8197168ae33SJames Morse entry = __rmid_entry(idx);
8207168ae33SJames Morse list_del(&entry->list);
8217168ae33SJames Morse
8227168ae33SJames Morse out_unlock:
8237168ae33SJames Morse mutex_unlock(&rdtgroup_mutex);
8247168ae33SJames Morse
8257168ae33SJames Morse return err;
8267168ae33SJames Morse }
8277168ae33SJames Morse
dom_data_exit(struct rdt_resource * r)8287168ae33SJames Morse static void dom_data_exit(struct rdt_resource *r)
8297168ae33SJames Morse {
8307168ae33SJames Morse mutex_lock(&rdtgroup_mutex);
8317168ae33SJames Morse
8327168ae33SJames Morse if (!r->mon_capable)
8337168ae33SJames Morse goto out_unlock;
8347168ae33SJames Morse
8357168ae33SJames Morse if (IS_ENABLED(CONFIG_RESCTRL_RMID_DEPENDS_ON_CLOSID)) {
8367168ae33SJames Morse kfree(closid_num_dirty_rmid);
8377168ae33SJames Morse closid_num_dirty_rmid = NULL;
8387168ae33SJames Morse }
8397168ae33SJames Morse
8407168ae33SJames Morse kfree(rmid_ptrs);
8417168ae33SJames Morse rmid_ptrs = NULL;
8427168ae33SJames Morse
8437168ae33SJames Morse out_unlock:
8447168ae33SJames Morse mutex_unlock(&rdtgroup_mutex);
8457168ae33SJames Morse }
8467168ae33SJames Morse
8477168ae33SJames Morse static struct mon_evt llc_occupancy_event = {
8487168ae33SJames Morse .name = "llc_occupancy",
8497168ae33SJames Morse .evtid = QOS_L3_OCCUP_EVENT_ID,
8507168ae33SJames Morse };
8517168ae33SJames Morse
8527168ae33SJames Morse static struct mon_evt mbm_total_event = {
8537168ae33SJames Morse .name = "mbm_total_bytes",
8547168ae33SJames Morse .evtid = QOS_L3_MBM_TOTAL_EVENT_ID,
8557168ae33SJames Morse };
8567168ae33SJames Morse
8577168ae33SJames Morse static struct mon_evt mbm_local_event = {
8587168ae33SJames Morse .name = "mbm_local_bytes",
8597168ae33SJames Morse .evtid = QOS_L3_MBM_LOCAL_EVENT_ID,
8607168ae33SJames Morse };
8617168ae33SJames Morse
8627168ae33SJames Morse /*
8637168ae33SJames Morse * Initialize the event list for the resource.
8647168ae33SJames Morse *
8657168ae33SJames Morse * Note that MBM events are also part of RDT_RESOURCE_L3 resource
8667168ae33SJames Morse * because as per the SDM the total and local memory bandwidth
8677168ae33SJames Morse * are enumerated as part of L3 monitoring.
8687168ae33SJames Morse */
l3_mon_evt_init(struct rdt_resource * r)8697168ae33SJames Morse static void l3_mon_evt_init(struct rdt_resource *r)
8707168ae33SJames Morse {
8717168ae33SJames Morse INIT_LIST_HEAD(&r->evt_list);
8727168ae33SJames Morse
8737168ae33SJames Morse if (resctrl_arch_is_llc_occupancy_enabled())
8747168ae33SJames Morse list_add_tail(&llc_occupancy_event.list, &r->evt_list);
8757168ae33SJames Morse if (resctrl_arch_is_mbm_total_enabled())
8767168ae33SJames Morse list_add_tail(&mbm_total_event.list, &r->evt_list);
8777168ae33SJames Morse if (resctrl_arch_is_mbm_local_enabled())
8787168ae33SJames Morse list_add_tail(&mbm_local_event.list, &r->evt_list);
8797168ae33SJames Morse }
8807168ae33SJames Morse
8817168ae33SJames Morse /**
8827168ae33SJames Morse * resctrl_mon_resource_init() - Initialise global monitoring structures.
8837168ae33SJames Morse *
8847168ae33SJames Morse * Allocate and initialise global monitor resources that do not belong to a
8857168ae33SJames Morse * specific domain. i.e. the rmid_ptrs[] used for the limbo and free lists.
8867168ae33SJames Morse * Called once during boot after the struct rdt_resource's have been configured
8877168ae33SJames Morse * but before the filesystem is mounted.
8887168ae33SJames Morse * Resctrl's cpuhp callbacks may be called before this point to bring a domain
8897168ae33SJames Morse * online.
8907168ae33SJames Morse *
8917168ae33SJames Morse * Returns 0 for success, or -ENOMEM.
8927168ae33SJames Morse */
resctrl_mon_resource_init(void)8937168ae33SJames Morse int resctrl_mon_resource_init(void)
8947168ae33SJames Morse {
8957168ae33SJames Morse struct rdt_resource *r = resctrl_arch_get_resource(RDT_RESOURCE_L3);
8967168ae33SJames Morse int ret;
8977168ae33SJames Morse
8987168ae33SJames Morse if (!r->mon_capable)
8997168ae33SJames Morse return 0;
9007168ae33SJames Morse
9017168ae33SJames Morse ret = dom_data_init(r);
9027168ae33SJames Morse if (ret)
9037168ae33SJames Morse return ret;
9047168ae33SJames Morse
9057168ae33SJames Morse l3_mon_evt_init(r);
9067168ae33SJames Morse
9077168ae33SJames Morse if (resctrl_arch_is_evt_configurable(QOS_L3_MBM_TOTAL_EVENT_ID)) {
9087168ae33SJames Morse mbm_total_event.configurable = true;
9097168ae33SJames Morse resctrl_file_fflags_init("mbm_total_bytes_config",
9107168ae33SJames Morse RFTYPE_MON_INFO | RFTYPE_RES_CACHE);
9117168ae33SJames Morse }
9127168ae33SJames Morse if (resctrl_arch_is_evt_configurable(QOS_L3_MBM_LOCAL_EVENT_ID)) {
9137168ae33SJames Morse mbm_local_event.configurable = true;
9147168ae33SJames Morse resctrl_file_fflags_init("mbm_local_bytes_config",
9157168ae33SJames Morse RFTYPE_MON_INFO | RFTYPE_RES_CACHE);
9167168ae33SJames Morse }
9177168ae33SJames Morse
9187168ae33SJames Morse if (resctrl_arch_is_mbm_local_enabled())
9197168ae33SJames Morse mba_mbps_default_event = QOS_L3_MBM_LOCAL_EVENT_ID;
9207168ae33SJames Morse else if (resctrl_arch_is_mbm_total_enabled())
9217168ae33SJames Morse mba_mbps_default_event = QOS_L3_MBM_TOTAL_EVENT_ID;
9227168ae33SJames Morse
9237168ae33SJames Morse return 0;
9247168ae33SJames Morse }
9257168ae33SJames Morse
resctrl_mon_resource_exit(void)9267168ae33SJames Morse void resctrl_mon_resource_exit(void)
9277168ae33SJames Morse {
9287168ae33SJames Morse struct rdt_resource *r = resctrl_arch_get_resource(RDT_RESOURCE_L3);
9297168ae33SJames Morse
9307168ae33SJames Morse dom_data_exit(r);
9317168ae33SJames Morse }
932