1145eba1aSCai Huoqing // SPDX-License-Identifier: GPL-2.0 or BSD-3-Clause 2f48ad614SDennis Dalessandro /* 30bae02d5SGrzegorz Andrejczuk * Copyright(c) 2015 - 2020 Intel Corporation. 4f48ad614SDennis Dalessandro */ 5145eba1aSCai Huoqing 6f48ad614SDennis Dalessandro #include <linux/topology.h> 7f48ad614SDennis Dalessandro #include <linux/cpumask.h> 82d01c37dSTadeusz Struk #include <linux/interrupt.h> 998fa15f3SAnshuman Khandual #include <linux/numa.h> 10f48ad614SDennis Dalessandro 11f48ad614SDennis Dalessandro #include "hfi.h" 12f48ad614SDennis Dalessandro #include "affinity.h" 13f48ad614SDennis Dalessandro #include "sdma.h" 14f48ad614SDennis Dalessandro #include "trace.h" 15f48ad614SDennis Dalessandro 164197344bSDennis Dalessandro struct hfi1_affinity_node_list node_affinity = { 174197344bSDennis Dalessandro .list = LIST_HEAD_INIT(node_affinity.list), 18584d9577STadeusz Struk .lock = __MUTEX_INITIALIZER(node_affinity.lock) 194197344bSDennis Dalessandro }; 204197344bSDennis Dalessandro 21f48ad614SDennis Dalessandro /* Name of IRQ types, indexed by enum irq_type */ 22f48ad614SDennis Dalessandro static const char * const irq_type_names[] = { 23f48ad614SDennis Dalessandro "SDMA", 24f48ad614SDennis Dalessandro "RCVCTXT", 250bae02d5SGrzegorz Andrejczuk "NETDEVCTXT", 26f48ad614SDennis Dalessandro "GENERAL", 27f48ad614SDennis Dalessandro "OTHER", 28f48ad614SDennis Dalessandro }; 29f48ad614SDennis Dalessandro 30d6373019SSebastian Sanchez /* Per NUMA node count of HFI devices */ 31d6373019SSebastian Sanchez static unsigned int *hfi1_per_node_cntr; 32d6373019SSebastian Sanchez 33f48ad614SDennis Dalessandro static inline void init_cpu_mask_set(struct cpu_mask_set *set) 34f48ad614SDennis Dalessandro { 35f48ad614SDennis Dalessandro cpumask_clear(&set->mask); 36f48ad614SDennis Dalessandro cpumask_clear(&set->used); 37f48ad614SDennis Dalessandro set->gen = 0; 38f48ad614SDennis Dalessandro } 39f48ad614SDennis Dalessandro 40cf38ea10SSebastian Sanchez /* Increment generation of CPU set if needed */ 41cf38ea10SSebastian Sanchez static void _cpu_mask_set_gen_inc(struct cpu_mask_set *set) 42cf38ea10SSebastian Sanchez { 43cf38ea10SSebastian Sanchez if (cpumask_equal(&set->mask, &set->used)) { 44cf38ea10SSebastian Sanchez /* 45cf38ea10SSebastian Sanchez * We've used up all the CPUs, bump up the generation 46cf38ea10SSebastian Sanchez * and reset the 'used' map 47cf38ea10SSebastian Sanchez */ 48cf38ea10SSebastian Sanchez set->gen++; 49cf38ea10SSebastian Sanchez cpumask_clear(&set->used); 50cf38ea10SSebastian Sanchez } 51cf38ea10SSebastian Sanchez } 52cf38ea10SSebastian Sanchez 53cf38ea10SSebastian Sanchez static void _cpu_mask_set_gen_dec(struct cpu_mask_set *set) 54cf38ea10SSebastian Sanchez { 55cf38ea10SSebastian Sanchez if (cpumask_empty(&set->used) && set->gen) { 56cf38ea10SSebastian Sanchez set->gen--; 57cf38ea10SSebastian Sanchez cpumask_copy(&set->used, &set->mask); 58cf38ea10SSebastian Sanchez } 59cf38ea10SSebastian Sanchez } 60cf38ea10SSebastian Sanchez 61cf38ea10SSebastian Sanchez /* Get the first CPU from the list of unused CPUs in a CPU set data structure */ 62cf38ea10SSebastian Sanchez static int cpu_mask_set_get_first(struct cpu_mask_set *set, cpumask_var_t diff) 63cf38ea10SSebastian Sanchez { 64cf38ea10SSebastian Sanchez int cpu; 65cf38ea10SSebastian Sanchez 66cf38ea10SSebastian Sanchez if (!diff || !set) 67cf38ea10SSebastian Sanchez return -EINVAL; 68cf38ea10SSebastian Sanchez 69cf38ea10SSebastian Sanchez _cpu_mask_set_gen_inc(set); 70cf38ea10SSebastian Sanchez 71cf38ea10SSebastian Sanchez /* Find out CPUs left in CPU mask */ 72cf38ea10SSebastian Sanchez cpumask_andnot(diff, &set->mask, &set->used); 73cf38ea10SSebastian Sanchez 74cf38ea10SSebastian Sanchez cpu = cpumask_first(diff); 75cf38ea10SSebastian Sanchez if (cpu >= nr_cpu_ids) /* empty */ 76cf38ea10SSebastian Sanchez cpu = -EINVAL; 77cf38ea10SSebastian Sanchez else 78cf38ea10SSebastian Sanchez cpumask_set_cpu(cpu, &set->used); 79cf38ea10SSebastian Sanchez 80cf38ea10SSebastian Sanchez return cpu; 81cf38ea10SSebastian Sanchez } 82cf38ea10SSebastian Sanchez 83cf38ea10SSebastian Sanchez static void cpu_mask_set_put(struct cpu_mask_set *set, int cpu) 84cf38ea10SSebastian Sanchez { 85cf38ea10SSebastian Sanchez if (!set) 86cf38ea10SSebastian Sanchez return; 87cf38ea10SSebastian Sanchez 88cf38ea10SSebastian Sanchez cpumask_clear_cpu(cpu, &set->used); 89cf38ea10SSebastian Sanchez _cpu_mask_set_gen_dec(set); 90cf38ea10SSebastian Sanchez } 91cf38ea10SSebastian Sanchez 92f48ad614SDennis Dalessandro /* Initialize non-HT cpu cores mask */ 934197344bSDennis Dalessandro void init_real_cpu_mask(void) 94f48ad614SDennis Dalessandro { 95f48ad614SDennis Dalessandro int possible, curr_cpu, i, ht; 96f48ad614SDennis Dalessandro 974197344bSDennis Dalessandro cpumask_clear(&node_affinity.real_cpu_mask); 98f48ad614SDennis Dalessandro 99f48ad614SDennis Dalessandro /* Start with cpu online mask as the real cpu mask */ 1004197344bSDennis Dalessandro cpumask_copy(&node_affinity.real_cpu_mask, cpu_online_mask); 101f48ad614SDennis Dalessandro 102f48ad614SDennis Dalessandro /* 103f48ad614SDennis Dalessandro * Remove HT cores from the real cpu mask. Do this in two steps below. 104f48ad614SDennis Dalessandro */ 1054197344bSDennis Dalessandro possible = cpumask_weight(&node_affinity.real_cpu_mask); 106f48ad614SDennis Dalessandro ht = cpumask_weight(topology_sibling_cpumask( 1074197344bSDennis Dalessandro cpumask_first(&node_affinity.real_cpu_mask))); 108f48ad614SDennis Dalessandro /* 109f48ad614SDennis Dalessandro * Step 1. Skip over the first N HT siblings and use them as the 110f48ad614SDennis Dalessandro * "real" cores. Assumes that HT cores are not enumerated in 111f48ad614SDennis Dalessandro * succession (except in the single core case). 112f48ad614SDennis Dalessandro */ 1134197344bSDennis Dalessandro curr_cpu = cpumask_first(&node_affinity.real_cpu_mask); 114f48ad614SDennis Dalessandro for (i = 0; i < possible / ht; i++) 1154197344bSDennis Dalessandro curr_cpu = cpumask_next(curr_cpu, &node_affinity.real_cpu_mask); 116f48ad614SDennis Dalessandro /* 117f48ad614SDennis Dalessandro * Step 2. Remove the remaining HT siblings. Use cpumask_next() to 118f48ad614SDennis Dalessandro * skip any gaps. 119f48ad614SDennis Dalessandro */ 120f48ad614SDennis Dalessandro for (; i < possible; i++) { 1214197344bSDennis Dalessandro cpumask_clear_cpu(curr_cpu, &node_affinity.real_cpu_mask); 1224197344bSDennis Dalessandro curr_cpu = cpumask_next(curr_cpu, &node_affinity.real_cpu_mask); 1234197344bSDennis Dalessandro } 124f48ad614SDennis Dalessandro } 125f48ad614SDennis Dalessandro 126d6373019SSebastian Sanchez int node_affinity_init(void) 1274197344bSDennis Dalessandro { 128d6373019SSebastian Sanchez int node; 129d6373019SSebastian Sanchez struct pci_dev *dev = NULL; 130d6373019SSebastian Sanchez const struct pci_device_id *ids = hfi1_pci_tbl; 131d6373019SSebastian Sanchez 132b094a36fSSebastian Sanchez cpumask_clear(&node_affinity.proc.used); 1334197344bSDennis Dalessandro cpumask_copy(&node_affinity.proc.mask, cpu_online_mask); 134b094a36fSSebastian Sanchez 135b094a36fSSebastian Sanchez node_affinity.proc.gen = 0; 136b094a36fSSebastian Sanchez node_affinity.num_core_siblings = 137b094a36fSSebastian Sanchez cpumask_weight(topology_sibling_cpumask( 138b094a36fSSebastian Sanchez cpumask_first(&node_affinity.proc.mask) 139b094a36fSSebastian Sanchez )); 1409d8145a6SHarish Chegondi node_affinity.num_possible_nodes = num_possible_nodes(); 141b094a36fSSebastian Sanchez node_affinity.num_online_nodes = num_online_nodes(); 142b094a36fSSebastian Sanchez node_affinity.num_online_cpus = num_online_cpus(); 143b094a36fSSebastian Sanchez 1444197344bSDennis Dalessandro /* 1454197344bSDennis Dalessandro * The real cpu mask is part of the affinity struct but it has to be 1464197344bSDennis Dalessandro * initialized early. It is needed to calculate the number of user 1474197344bSDennis Dalessandro * contexts in set_up_context_variables(). 1484197344bSDennis Dalessandro */ 1494197344bSDennis Dalessandro init_real_cpu_mask(); 150d6373019SSebastian Sanchez 1519d8145a6SHarish Chegondi hfi1_per_node_cntr = kcalloc(node_affinity.num_possible_nodes, 152d6373019SSebastian Sanchez sizeof(*hfi1_per_node_cntr), GFP_KERNEL); 153d6373019SSebastian Sanchez if (!hfi1_per_node_cntr) 154d6373019SSebastian Sanchez return -ENOMEM; 155d6373019SSebastian Sanchez 156d6373019SSebastian Sanchez while (ids->vendor) { 157d6373019SSebastian Sanchez dev = NULL; 158d6373019SSebastian Sanchez while ((dev = pci_get_device(ids->vendor, ids->device, dev))) { 159d6373019SSebastian Sanchez node = pcibus_to_node(dev->bus); 160d6373019SSebastian Sanchez if (node < 0) 161c513de49SMichael J. Ruhl goto out; 162d6373019SSebastian Sanchez 163d6373019SSebastian Sanchez hfi1_per_node_cntr[node]++; 164d6373019SSebastian Sanchez } 165d6373019SSebastian Sanchez ids++; 166d6373019SSebastian Sanchez } 167d6373019SSebastian Sanchez 168d6373019SSebastian Sanchez return 0; 169c513de49SMichael J. Ruhl 170c513de49SMichael J. Ruhl out: 171c513de49SMichael J. Ruhl /* 172c513de49SMichael J. Ruhl * Invalid PCI NUMA node information found, note it, and populate 173c513de49SMichael J. Ruhl * our database 1:1. 174c513de49SMichael J. Ruhl */ 175c513de49SMichael J. Ruhl pr_err("HFI: Invalid PCI NUMA node. Performance may be affected\n"); 176c513de49SMichael J. Ruhl pr_err("HFI: System BIOS may need to be upgraded\n"); 177c513de49SMichael J. Ruhl for (node = 0; node < node_affinity.num_possible_nodes; node++) 178c513de49SMichael J. Ruhl hfi1_per_node_cntr[node] = 1; 179c513de49SMichael J. Ruhl 1809b51d072SXiongfeng Wang pci_dev_put(dev); 1819b51d072SXiongfeng Wang 182c513de49SMichael J. Ruhl return 0; 1834197344bSDennis Dalessandro } 1844197344bSDennis Dalessandro 1855d18ee67SSebastian Sanchez static void node_affinity_destroy(struct hfi1_affinity_node *entry) 1865d18ee67SSebastian Sanchez { 1875d18ee67SSebastian Sanchez free_percpu(entry->comp_vect_affinity); 1885d18ee67SSebastian Sanchez kfree(entry); 1895d18ee67SSebastian Sanchez } 1905d18ee67SSebastian Sanchez 1915d18ee67SSebastian Sanchez void node_affinity_destroy_all(void) 1924197344bSDennis Dalessandro { 1934197344bSDennis Dalessandro struct list_head *pos, *q; 1944197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 1954197344bSDennis Dalessandro 196584d9577STadeusz Struk mutex_lock(&node_affinity.lock); 1974197344bSDennis Dalessandro list_for_each_safe(pos, q, &node_affinity.list) { 1984197344bSDennis Dalessandro entry = list_entry(pos, struct hfi1_affinity_node, 1994197344bSDennis Dalessandro list); 2004197344bSDennis Dalessandro list_del(pos); 2015d18ee67SSebastian Sanchez node_affinity_destroy(entry); 2024197344bSDennis Dalessandro } 203584d9577STadeusz Struk mutex_unlock(&node_affinity.lock); 204d6373019SSebastian Sanchez kfree(hfi1_per_node_cntr); 2054197344bSDennis Dalessandro } 2064197344bSDennis Dalessandro 2074197344bSDennis Dalessandro static struct hfi1_affinity_node *node_affinity_allocate(int node) 2084197344bSDennis Dalessandro { 2094197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 2104197344bSDennis Dalessandro 2114197344bSDennis Dalessandro entry = kzalloc(sizeof(*entry), GFP_KERNEL); 2124197344bSDennis Dalessandro if (!entry) 2134197344bSDennis Dalessandro return NULL; 2144197344bSDennis Dalessandro entry->node = node; 2155d18ee67SSebastian Sanchez entry->comp_vect_affinity = alloc_percpu(u16); 2164197344bSDennis Dalessandro INIT_LIST_HEAD(&entry->list); 2174197344bSDennis Dalessandro 2184197344bSDennis Dalessandro return entry; 2194197344bSDennis Dalessandro } 2204197344bSDennis Dalessandro 2214197344bSDennis Dalessandro /* 2224197344bSDennis Dalessandro * It appends an entry to the list. 2234197344bSDennis Dalessandro * It *must* be called with node_affinity.lock held. 2244197344bSDennis Dalessandro */ 2254197344bSDennis Dalessandro static void node_affinity_add_tail(struct hfi1_affinity_node *entry) 2264197344bSDennis Dalessandro { 2274197344bSDennis Dalessandro list_add_tail(&entry->list, &node_affinity.list); 2284197344bSDennis Dalessandro } 2294197344bSDennis Dalessandro 2304197344bSDennis Dalessandro /* It must be called with node_affinity.lock held */ 2314197344bSDennis Dalessandro static struct hfi1_affinity_node *node_affinity_lookup(int node) 2324197344bSDennis Dalessandro { 2334197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 2344197344bSDennis Dalessandro 235*3d91dfe7SJinjie Ruan list_for_each_entry(entry, &node_affinity.list, list) { 2364197344bSDennis Dalessandro if (entry->node == node) 2374197344bSDennis Dalessandro return entry; 2384197344bSDennis Dalessandro } 2394197344bSDennis Dalessandro 2404197344bSDennis Dalessandro return NULL; 241f48ad614SDennis Dalessandro } 242f48ad614SDennis Dalessandro 2435d18ee67SSebastian Sanchez static int per_cpu_affinity_get(cpumask_var_t possible_cpumask, 2445d18ee67SSebastian Sanchez u16 __percpu *comp_vect_affinity) 2455d18ee67SSebastian Sanchez { 2465d18ee67SSebastian Sanchez int curr_cpu; 2475d18ee67SSebastian Sanchez u16 cntr; 2485d18ee67SSebastian Sanchez u16 prev_cntr; 2495d18ee67SSebastian Sanchez int ret_cpu; 2505d18ee67SSebastian Sanchez 2515d18ee67SSebastian Sanchez if (!possible_cpumask) { 2525d18ee67SSebastian Sanchez ret_cpu = -EINVAL; 2535d18ee67SSebastian Sanchez goto fail; 2545d18ee67SSebastian Sanchez } 2555d18ee67SSebastian Sanchez 2565d18ee67SSebastian Sanchez if (!comp_vect_affinity) { 2575d18ee67SSebastian Sanchez ret_cpu = -EINVAL; 2585d18ee67SSebastian Sanchez goto fail; 2595d18ee67SSebastian Sanchez } 2605d18ee67SSebastian Sanchez 2615d18ee67SSebastian Sanchez ret_cpu = cpumask_first(possible_cpumask); 2625d18ee67SSebastian Sanchez if (ret_cpu >= nr_cpu_ids) { 2635d18ee67SSebastian Sanchez ret_cpu = -EINVAL; 2645d18ee67SSebastian Sanchez goto fail; 2655d18ee67SSebastian Sanchez } 2665d18ee67SSebastian Sanchez 2675d18ee67SSebastian Sanchez prev_cntr = *per_cpu_ptr(comp_vect_affinity, ret_cpu); 2685d18ee67SSebastian Sanchez for_each_cpu(curr_cpu, possible_cpumask) { 2695d18ee67SSebastian Sanchez cntr = *per_cpu_ptr(comp_vect_affinity, curr_cpu); 2705d18ee67SSebastian Sanchez 2715d18ee67SSebastian Sanchez if (cntr < prev_cntr) { 2725d18ee67SSebastian Sanchez ret_cpu = curr_cpu; 2735d18ee67SSebastian Sanchez prev_cntr = cntr; 2745d18ee67SSebastian Sanchez } 2755d18ee67SSebastian Sanchez } 2765d18ee67SSebastian Sanchez 2775d18ee67SSebastian Sanchez *per_cpu_ptr(comp_vect_affinity, ret_cpu) += 1; 2785d18ee67SSebastian Sanchez 2795d18ee67SSebastian Sanchez fail: 2805d18ee67SSebastian Sanchez return ret_cpu; 2815d18ee67SSebastian Sanchez } 2825d18ee67SSebastian Sanchez 2835d18ee67SSebastian Sanchez static int per_cpu_affinity_put_max(cpumask_var_t possible_cpumask, 2845d18ee67SSebastian Sanchez u16 __percpu *comp_vect_affinity) 2855d18ee67SSebastian Sanchez { 2865d18ee67SSebastian Sanchez int curr_cpu; 2875d18ee67SSebastian Sanchez int max_cpu; 2885d18ee67SSebastian Sanchez u16 cntr; 2895d18ee67SSebastian Sanchez u16 prev_cntr; 2905d18ee67SSebastian Sanchez 2915d18ee67SSebastian Sanchez if (!possible_cpumask) 2925d18ee67SSebastian Sanchez return -EINVAL; 2935d18ee67SSebastian Sanchez 2945d18ee67SSebastian Sanchez if (!comp_vect_affinity) 2955d18ee67SSebastian Sanchez return -EINVAL; 2965d18ee67SSebastian Sanchez 2975d18ee67SSebastian Sanchez max_cpu = cpumask_first(possible_cpumask); 2985d18ee67SSebastian Sanchez if (max_cpu >= nr_cpu_ids) 2995d18ee67SSebastian Sanchez return -EINVAL; 3005d18ee67SSebastian Sanchez 3015d18ee67SSebastian Sanchez prev_cntr = *per_cpu_ptr(comp_vect_affinity, max_cpu); 3025d18ee67SSebastian Sanchez for_each_cpu(curr_cpu, possible_cpumask) { 3035d18ee67SSebastian Sanchez cntr = *per_cpu_ptr(comp_vect_affinity, curr_cpu); 3045d18ee67SSebastian Sanchez 3055d18ee67SSebastian Sanchez if (cntr > prev_cntr) { 3065d18ee67SSebastian Sanchez max_cpu = curr_cpu; 3075d18ee67SSebastian Sanchez prev_cntr = cntr; 3085d18ee67SSebastian Sanchez } 3095d18ee67SSebastian Sanchez } 3105d18ee67SSebastian Sanchez 3115d18ee67SSebastian Sanchez *per_cpu_ptr(comp_vect_affinity, max_cpu) -= 1; 3125d18ee67SSebastian Sanchez 3135d18ee67SSebastian Sanchez return max_cpu; 3145d18ee67SSebastian Sanchez } 3155d18ee67SSebastian Sanchez 3165d18ee67SSebastian Sanchez /* 3175d18ee67SSebastian Sanchez * Non-interrupt CPUs are used first, then interrupt CPUs. 3185d18ee67SSebastian Sanchez * Two already allocated cpu masks must be passed. 3195d18ee67SSebastian Sanchez */ 3205d18ee67SSebastian Sanchez static int _dev_comp_vect_cpu_get(struct hfi1_devdata *dd, 3215d18ee67SSebastian Sanchez struct hfi1_affinity_node *entry, 3225d18ee67SSebastian Sanchez cpumask_var_t non_intr_cpus, 3235d18ee67SSebastian Sanchez cpumask_var_t available_cpus) 3245d18ee67SSebastian Sanchez __must_hold(&node_affinity.lock) 3255d18ee67SSebastian Sanchez { 3265d18ee67SSebastian Sanchez int cpu; 3275d18ee67SSebastian Sanchez struct cpu_mask_set *set = dd->comp_vect; 3285d18ee67SSebastian Sanchez 3295d18ee67SSebastian Sanchez lockdep_assert_held(&node_affinity.lock); 3305d18ee67SSebastian Sanchez if (!non_intr_cpus) { 3315d18ee67SSebastian Sanchez cpu = -1; 3325d18ee67SSebastian Sanchez goto fail; 3335d18ee67SSebastian Sanchez } 3345d18ee67SSebastian Sanchez 3355d18ee67SSebastian Sanchez if (!available_cpus) { 3365d18ee67SSebastian Sanchez cpu = -1; 3375d18ee67SSebastian Sanchez goto fail; 3385d18ee67SSebastian Sanchez } 3395d18ee67SSebastian Sanchez 3405d18ee67SSebastian Sanchez /* Available CPUs for pinning completion vectors */ 3415d18ee67SSebastian Sanchez _cpu_mask_set_gen_inc(set); 3425d18ee67SSebastian Sanchez cpumask_andnot(available_cpus, &set->mask, &set->used); 3435d18ee67SSebastian Sanchez 3445d18ee67SSebastian Sanchez /* Available CPUs without SDMA engine interrupts */ 3455d18ee67SSebastian Sanchez cpumask_andnot(non_intr_cpus, available_cpus, 3465d18ee67SSebastian Sanchez &entry->def_intr.used); 3475d18ee67SSebastian Sanchez 3485d18ee67SSebastian Sanchez /* If there are non-interrupt CPUs available, use them first */ 3495d18ee67SSebastian Sanchez if (!cpumask_empty(non_intr_cpus)) 3505d18ee67SSebastian Sanchez cpu = cpumask_first(non_intr_cpus); 3515d18ee67SSebastian Sanchez else /* Otherwise, use interrupt CPUs */ 3525d18ee67SSebastian Sanchez cpu = cpumask_first(available_cpus); 3535d18ee67SSebastian Sanchez 3545d18ee67SSebastian Sanchez if (cpu >= nr_cpu_ids) { /* empty */ 3555d18ee67SSebastian Sanchez cpu = -1; 3565d18ee67SSebastian Sanchez goto fail; 3575d18ee67SSebastian Sanchez } 3585d18ee67SSebastian Sanchez cpumask_set_cpu(cpu, &set->used); 3595d18ee67SSebastian Sanchez 3605d18ee67SSebastian Sanchez fail: 3615d18ee67SSebastian Sanchez return cpu; 3625d18ee67SSebastian Sanchez } 3635d18ee67SSebastian Sanchez 3645d18ee67SSebastian Sanchez static void _dev_comp_vect_cpu_put(struct hfi1_devdata *dd, int cpu) 3655d18ee67SSebastian Sanchez { 3665d18ee67SSebastian Sanchez struct cpu_mask_set *set = dd->comp_vect; 3675d18ee67SSebastian Sanchez 3685d18ee67SSebastian Sanchez if (cpu < 0) 3695d18ee67SSebastian Sanchez return; 3705d18ee67SSebastian Sanchez 3715d18ee67SSebastian Sanchez cpu_mask_set_put(set, cpu); 3725d18ee67SSebastian Sanchez } 3735d18ee67SSebastian Sanchez 3745d18ee67SSebastian Sanchez /* _dev_comp_vect_mappings_destroy() is reentrant */ 3755d18ee67SSebastian Sanchez static void _dev_comp_vect_mappings_destroy(struct hfi1_devdata *dd) 3765d18ee67SSebastian Sanchez { 3775d18ee67SSebastian Sanchez int i, cpu; 3785d18ee67SSebastian Sanchez 3795d18ee67SSebastian Sanchez if (!dd->comp_vect_mappings) 3805d18ee67SSebastian Sanchez return; 3815d18ee67SSebastian Sanchez 3825d18ee67SSebastian Sanchez for (i = 0; i < dd->comp_vect_possible_cpus; i++) { 3835d18ee67SSebastian Sanchez cpu = dd->comp_vect_mappings[i]; 3845d18ee67SSebastian Sanchez _dev_comp_vect_cpu_put(dd, cpu); 3855d18ee67SSebastian Sanchez dd->comp_vect_mappings[i] = -1; 3865d18ee67SSebastian Sanchez hfi1_cdbg(AFFINITY, 3875d18ee67SSebastian Sanchez "[%s] Release CPU %d from completion vector %d", 3885d18ee67SSebastian Sanchez rvt_get_ibdev_name(&(dd)->verbs_dev.rdi), cpu, i); 3895d18ee67SSebastian Sanchez } 3905d18ee67SSebastian Sanchez 3915d18ee67SSebastian Sanchez kfree(dd->comp_vect_mappings); 3925d18ee67SSebastian Sanchez dd->comp_vect_mappings = NULL; 3935d18ee67SSebastian Sanchez } 3945d18ee67SSebastian Sanchez 3955d18ee67SSebastian Sanchez /* 3965d18ee67SSebastian Sanchez * This function creates the table for looking up CPUs for completion vectors. 3975d18ee67SSebastian Sanchez * num_comp_vectors needs to have been initilized before calling this function. 3985d18ee67SSebastian Sanchez */ 3995d18ee67SSebastian Sanchez static int _dev_comp_vect_mappings_create(struct hfi1_devdata *dd, 4005d18ee67SSebastian Sanchez struct hfi1_affinity_node *entry) 4015d18ee67SSebastian Sanchez __must_hold(&node_affinity.lock) 4025d18ee67SSebastian Sanchez { 4035d18ee67SSebastian Sanchez int i, cpu, ret; 4045d18ee67SSebastian Sanchez cpumask_var_t non_intr_cpus; 4055d18ee67SSebastian Sanchez cpumask_var_t available_cpus; 4065d18ee67SSebastian Sanchez 4075d18ee67SSebastian Sanchez lockdep_assert_held(&node_affinity.lock); 4085d18ee67SSebastian Sanchez 4095d18ee67SSebastian Sanchez if (!zalloc_cpumask_var(&non_intr_cpus, GFP_KERNEL)) 4105d18ee67SSebastian Sanchez return -ENOMEM; 4115d18ee67SSebastian Sanchez 4125d18ee67SSebastian Sanchez if (!zalloc_cpumask_var(&available_cpus, GFP_KERNEL)) { 4135d18ee67SSebastian Sanchez free_cpumask_var(non_intr_cpus); 4145d18ee67SSebastian Sanchez return -ENOMEM; 4155d18ee67SSebastian Sanchez } 4165d18ee67SSebastian Sanchez 4175d18ee67SSebastian Sanchez dd->comp_vect_mappings = kcalloc(dd->comp_vect_possible_cpus, 4185d18ee67SSebastian Sanchez sizeof(*dd->comp_vect_mappings), 4195d18ee67SSebastian Sanchez GFP_KERNEL); 4205d18ee67SSebastian Sanchez if (!dd->comp_vect_mappings) { 4215d18ee67SSebastian Sanchez ret = -ENOMEM; 4225d18ee67SSebastian Sanchez goto fail; 4235d18ee67SSebastian Sanchez } 4245d18ee67SSebastian Sanchez for (i = 0; i < dd->comp_vect_possible_cpus; i++) 4255d18ee67SSebastian Sanchez dd->comp_vect_mappings[i] = -1; 4265d18ee67SSebastian Sanchez 4275d18ee67SSebastian Sanchez for (i = 0; i < dd->comp_vect_possible_cpus; i++) { 4285d18ee67SSebastian Sanchez cpu = _dev_comp_vect_cpu_get(dd, entry, non_intr_cpus, 4295d18ee67SSebastian Sanchez available_cpus); 4305d18ee67SSebastian Sanchez if (cpu < 0) { 4315d18ee67SSebastian Sanchez ret = -EINVAL; 4325d18ee67SSebastian Sanchez goto fail; 4335d18ee67SSebastian Sanchez } 4345d18ee67SSebastian Sanchez 4355d18ee67SSebastian Sanchez dd->comp_vect_mappings[i] = cpu; 4365d18ee67SSebastian Sanchez hfi1_cdbg(AFFINITY, 4375d18ee67SSebastian Sanchez "[%s] Completion Vector %d -> CPU %d", 4385d18ee67SSebastian Sanchez rvt_get_ibdev_name(&(dd)->verbs_dev.rdi), i, cpu); 4395d18ee67SSebastian Sanchez } 4405d18ee67SSebastian Sanchez 4418a4f300bSKamal Heib free_cpumask_var(available_cpus); 4428a4f300bSKamal Heib free_cpumask_var(non_intr_cpus); 4435d18ee67SSebastian Sanchez return 0; 4445d18ee67SSebastian Sanchez 4455d18ee67SSebastian Sanchez fail: 4465d18ee67SSebastian Sanchez free_cpumask_var(available_cpus); 4475d18ee67SSebastian Sanchez free_cpumask_var(non_intr_cpus); 4485d18ee67SSebastian Sanchez _dev_comp_vect_mappings_destroy(dd); 4495d18ee67SSebastian Sanchez 4505d18ee67SSebastian Sanchez return ret; 4515d18ee67SSebastian Sanchez } 4525d18ee67SSebastian Sanchez 4535d18ee67SSebastian Sanchez int hfi1_comp_vectors_set_up(struct hfi1_devdata *dd) 4545d18ee67SSebastian Sanchez { 4555d18ee67SSebastian Sanchez int ret; 4565d18ee67SSebastian Sanchez struct hfi1_affinity_node *entry; 4575d18ee67SSebastian Sanchez 4585d18ee67SSebastian Sanchez mutex_lock(&node_affinity.lock); 4595d18ee67SSebastian Sanchez entry = node_affinity_lookup(dd->node); 4605d18ee67SSebastian Sanchez if (!entry) { 4615d18ee67SSebastian Sanchez ret = -EINVAL; 4625d18ee67SSebastian Sanchez goto unlock; 4635d18ee67SSebastian Sanchez } 4645d18ee67SSebastian Sanchez ret = _dev_comp_vect_mappings_create(dd, entry); 4655d18ee67SSebastian Sanchez unlock: 4665d18ee67SSebastian Sanchez mutex_unlock(&node_affinity.lock); 4675d18ee67SSebastian Sanchez 4685d18ee67SSebastian Sanchez return ret; 4695d18ee67SSebastian Sanchez } 4705d18ee67SSebastian Sanchez 4715d18ee67SSebastian Sanchez void hfi1_comp_vectors_clean_up(struct hfi1_devdata *dd) 4725d18ee67SSebastian Sanchez { 4735d18ee67SSebastian Sanchez _dev_comp_vect_mappings_destroy(dd); 4745d18ee67SSebastian Sanchez } 4755d18ee67SSebastian Sanchez 4765d18ee67SSebastian Sanchez int hfi1_comp_vect_mappings_lookup(struct rvt_dev_info *rdi, int comp_vect) 4775d18ee67SSebastian Sanchez { 4785d18ee67SSebastian Sanchez struct hfi1_ibdev *verbs_dev = dev_from_rdi(rdi); 4795d18ee67SSebastian Sanchez struct hfi1_devdata *dd = dd_from_dev(verbs_dev); 4805d18ee67SSebastian Sanchez 4815d18ee67SSebastian Sanchez if (!dd->comp_vect_mappings) 4825d18ee67SSebastian Sanchez return -EINVAL; 4835d18ee67SSebastian Sanchez if (comp_vect >= dd->comp_vect_possible_cpus) 4845d18ee67SSebastian Sanchez return -EINVAL; 4855d18ee67SSebastian Sanchez 4865d18ee67SSebastian Sanchez return dd->comp_vect_mappings[comp_vect]; 4875d18ee67SSebastian Sanchez } 4885d18ee67SSebastian Sanchez 4895d18ee67SSebastian Sanchez /* 4905d18ee67SSebastian Sanchez * It assumes dd->comp_vect_possible_cpus is available. 4915d18ee67SSebastian Sanchez */ 4925d18ee67SSebastian Sanchez static int _dev_comp_vect_cpu_mask_init(struct hfi1_devdata *dd, 4935d18ee67SSebastian Sanchez struct hfi1_affinity_node *entry, 4945d18ee67SSebastian Sanchez bool first_dev_init) 4955d18ee67SSebastian Sanchez __must_hold(&node_affinity.lock) 4965d18ee67SSebastian Sanchez { 4975d18ee67SSebastian Sanchez int i, j, curr_cpu; 4985d18ee67SSebastian Sanchez int possible_cpus_comp_vect = 0; 4995d18ee67SSebastian Sanchez struct cpumask *dev_comp_vect_mask = &dd->comp_vect->mask; 5005d18ee67SSebastian Sanchez 5015d18ee67SSebastian Sanchez lockdep_assert_held(&node_affinity.lock); 5025d18ee67SSebastian Sanchez /* 5035d18ee67SSebastian Sanchez * If there's only one CPU available for completion vectors, then 5045d18ee67SSebastian Sanchez * there will only be one completion vector available. Othewise, 5055d18ee67SSebastian Sanchez * the number of completion vector available will be the number of 5065d18ee67SSebastian Sanchez * available CPUs divide it by the number of devices in the 5075d18ee67SSebastian Sanchez * local NUMA node. 5085d18ee67SSebastian Sanchez */ 5095d18ee67SSebastian Sanchez if (cpumask_weight(&entry->comp_vect_mask) == 1) { 5105d18ee67SSebastian Sanchez possible_cpus_comp_vect = 1; 5115d18ee67SSebastian Sanchez dd_dev_warn(dd, 5125d18ee67SSebastian Sanchez "Number of kernel receive queues is too large for completion vector affinity to be effective\n"); 5135d18ee67SSebastian Sanchez } else { 5145d18ee67SSebastian Sanchez possible_cpus_comp_vect += 5155d18ee67SSebastian Sanchez cpumask_weight(&entry->comp_vect_mask) / 5165d18ee67SSebastian Sanchez hfi1_per_node_cntr[dd->node]; 5175d18ee67SSebastian Sanchez 5185d18ee67SSebastian Sanchez /* 5195d18ee67SSebastian Sanchez * If the completion vector CPUs available doesn't divide 5205d18ee67SSebastian Sanchez * evenly among devices, then the first device device to be 5215d18ee67SSebastian Sanchez * initialized gets an extra CPU. 5225d18ee67SSebastian Sanchez */ 5235d18ee67SSebastian Sanchez if (first_dev_init && 5245d18ee67SSebastian Sanchez cpumask_weight(&entry->comp_vect_mask) % 5255d18ee67SSebastian Sanchez hfi1_per_node_cntr[dd->node] != 0) 5265d18ee67SSebastian Sanchez possible_cpus_comp_vect++; 5275d18ee67SSebastian Sanchez } 5285d18ee67SSebastian Sanchez 5295d18ee67SSebastian Sanchez dd->comp_vect_possible_cpus = possible_cpus_comp_vect; 5305d18ee67SSebastian Sanchez 5315d18ee67SSebastian Sanchez /* Reserving CPUs for device completion vector */ 5325d18ee67SSebastian Sanchez for (i = 0; i < dd->comp_vect_possible_cpus; i++) { 5335d18ee67SSebastian Sanchez curr_cpu = per_cpu_affinity_get(&entry->comp_vect_mask, 5345d18ee67SSebastian Sanchez entry->comp_vect_affinity); 5355d18ee67SSebastian Sanchez if (curr_cpu < 0) 5365d18ee67SSebastian Sanchez goto fail; 5375d18ee67SSebastian Sanchez 5385d18ee67SSebastian Sanchez cpumask_set_cpu(curr_cpu, dev_comp_vect_mask); 5395d18ee67SSebastian Sanchez } 5405d18ee67SSebastian Sanchez 5415d18ee67SSebastian Sanchez hfi1_cdbg(AFFINITY, 5425d18ee67SSebastian Sanchez "[%s] Completion vector affinity CPU set(s) %*pbl", 5435d18ee67SSebastian Sanchez rvt_get_ibdev_name(&(dd)->verbs_dev.rdi), 5445d18ee67SSebastian Sanchez cpumask_pr_args(dev_comp_vect_mask)); 5455d18ee67SSebastian Sanchez 5465d18ee67SSebastian Sanchez return 0; 5475d18ee67SSebastian Sanchez 5485d18ee67SSebastian Sanchez fail: 5495d18ee67SSebastian Sanchez for (j = 0; j < i; j++) 5505d18ee67SSebastian Sanchez per_cpu_affinity_put_max(&entry->comp_vect_mask, 5515d18ee67SSebastian Sanchez entry->comp_vect_affinity); 5525d18ee67SSebastian Sanchez 5535d18ee67SSebastian Sanchez return curr_cpu; 5545d18ee67SSebastian Sanchez } 5555d18ee67SSebastian Sanchez 5565d18ee67SSebastian Sanchez /* 5575d18ee67SSebastian Sanchez * It assumes dd->comp_vect_possible_cpus is available. 5585d18ee67SSebastian Sanchez */ 5595d18ee67SSebastian Sanchez static void _dev_comp_vect_cpu_mask_clean_up(struct hfi1_devdata *dd, 5605d18ee67SSebastian Sanchez struct hfi1_affinity_node *entry) 5615d18ee67SSebastian Sanchez __must_hold(&node_affinity.lock) 5625d18ee67SSebastian Sanchez { 5635d18ee67SSebastian Sanchez int i, cpu; 5645d18ee67SSebastian Sanchez 5655d18ee67SSebastian Sanchez lockdep_assert_held(&node_affinity.lock); 5665d18ee67SSebastian Sanchez if (!dd->comp_vect_possible_cpus) 5675d18ee67SSebastian Sanchez return; 5685d18ee67SSebastian Sanchez 5695d18ee67SSebastian Sanchez for (i = 0; i < dd->comp_vect_possible_cpus; i++) { 5705d18ee67SSebastian Sanchez cpu = per_cpu_affinity_put_max(&dd->comp_vect->mask, 5715d18ee67SSebastian Sanchez entry->comp_vect_affinity); 5725d18ee67SSebastian Sanchez /* Clearing CPU in device completion vector cpu mask */ 5735d18ee67SSebastian Sanchez if (cpu >= 0) 5745d18ee67SSebastian Sanchez cpumask_clear_cpu(cpu, &dd->comp_vect->mask); 5755d18ee67SSebastian Sanchez } 5765d18ee67SSebastian Sanchez 5775d18ee67SSebastian Sanchez dd->comp_vect_possible_cpus = 0; 5785d18ee67SSebastian Sanchez } 5795d18ee67SSebastian Sanchez 580f48ad614SDennis Dalessandro /* 581f48ad614SDennis Dalessandro * Interrupt affinity. 582f48ad614SDennis Dalessandro * 583f48ad614SDennis Dalessandro * non-rcv avail gets a default mask that 584f48ad614SDennis Dalessandro * starts as possible cpus with threads reset 585f48ad614SDennis Dalessandro * and each rcv avail reset. 586f48ad614SDennis Dalessandro * 587f48ad614SDennis Dalessandro * rcv avail gets node relative 1 wrapping back 588f48ad614SDennis Dalessandro * to the node relative 1 as necessary. 589f48ad614SDennis Dalessandro * 590f48ad614SDennis Dalessandro */ 5914197344bSDennis Dalessandro int hfi1_dev_affinity_init(struct hfi1_devdata *dd) 592f48ad614SDennis Dalessandro { 5934197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 594f48ad614SDennis Dalessandro const struct cpumask *local_mask; 5955d18ee67SSebastian Sanchez int curr_cpu, possible, i, ret; 5965d18ee67SSebastian Sanchez bool new_entry = false; 597f48ad614SDennis Dalessandro 598f48ad614SDennis Dalessandro local_mask = cpumask_of_node(dd->node); 599f48ad614SDennis Dalessandro if (cpumask_first(local_mask) >= nr_cpu_ids) 600f48ad614SDennis Dalessandro local_mask = topology_core_cpumask(0); 6014197344bSDennis Dalessandro 602584d9577STadeusz Struk mutex_lock(&node_affinity.lock); 6034197344bSDennis Dalessandro entry = node_affinity_lookup(dd->node); 6044197344bSDennis Dalessandro 6054197344bSDennis Dalessandro /* 6064197344bSDennis Dalessandro * If this is the first time this NUMA node's affinity is used, 6074197344bSDennis Dalessandro * create an entry in the global affinity structure and initialize it. 6084197344bSDennis Dalessandro */ 6094197344bSDennis Dalessandro if (!entry) { 6105de61a47SMike Marciniszyn entry = node_affinity_allocate(dd->node); 6114197344bSDennis Dalessandro if (!entry) { 6124197344bSDennis Dalessandro dd_dev_err(dd, 6134197344bSDennis Dalessandro "Unable to allocate global affinity node\n"); 6145d18ee67SSebastian Sanchez ret = -ENOMEM; 6155d18ee67SSebastian Sanchez goto fail; 6164197344bSDennis Dalessandro } 6175d18ee67SSebastian Sanchez new_entry = true; 6185d18ee67SSebastian Sanchez 6194197344bSDennis Dalessandro init_cpu_mask_set(&entry->def_intr); 6204197344bSDennis Dalessandro init_cpu_mask_set(&entry->rcv_intr); 6215d18ee67SSebastian Sanchez cpumask_clear(&entry->comp_vect_mask); 622d6373019SSebastian Sanchez cpumask_clear(&entry->general_intr_mask); 623f48ad614SDennis Dalessandro /* Use the "real" cpu mask of this node as the default */ 6244197344bSDennis Dalessandro cpumask_and(&entry->def_intr.mask, &node_affinity.real_cpu_mask, 6254197344bSDennis Dalessandro local_mask); 626f48ad614SDennis Dalessandro 627f48ad614SDennis Dalessandro /* fill in the receive list */ 6284197344bSDennis Dalessandro possible = cpumask_weight(&entry->def_intr.mask); 6294197344bSDennis Dalessandro curr_cpu = cpumask_first(&entry->def_intr.mask); 6304197344bSDennis Dalessandro 631f48ad614SDennis Dalessandro if (possible == 1) { 632f48ad614SDennis Dalessandro /* only one CPU, everyone will use it */ 6334197344bSDennis Dalessandro cpumask_set_cpu(curr_cpu, &entry->rcv_intr.mask); 634d6373019SSebastian Sanchez cpumask_set_cpu(curr_cpu, &entry->general_intr_mask); 635f48ad614SDennis Dalessandro } else { 636f48ad614SDennis Dalessandro /* 637d6373019SSebastian Sanchez * The general/control context will be the first CPU in 638d6373019SSebastian Sanchez * the default list, so it is removed from the default 639d6373019SSebastian Sanchez * list and added to the general interrupt list. 640f48ad614SDennis Dalessandro */ 641d6373019SSebastian Sanchez cpumask_clear_cpu(curr_cpu, &entry->def_intr.mask); 642d6373019SSebastian Sanchez cpumask_set_cpu(curr_cpu, &entry->general_intr_mask); 6434197344bSDennis Dalessandro curr_cpu = cpumask_next(curr_cpu, 6444197344bSDennis Dalessandro &entry->def_intr.mask); 6454197344bSDennis Dalessandro 646f48ad614SDennis Dalessandro /* 647f48ad614SDennis Dalessandro * Remove the remaining kernel receive queues from 648f48ad614SDennis Dalessandro * the default list and add them to the receive list. 649f48ad614SDennis Dalessandro */ 650d6373019SSebastian Sanchez for (i = 0; 651d6373019SSebastian Sanchez i < (dd->n_krcv_queues - 1) * 652d6373019SSebastian Sanchez hfi1_per_node_cntr[dd->node]; 653d6373019SSebastian Sanchez i++) { 6544197344bSDennis Dalessandro cpumask_clear_cpu(curr_cpu, 6554197344bSDennis Dalessandro &entry->def_intr.mask); 6564197344bSDennis Dalessandro cpumask_set_cpu(curr_cpu, 6574197344bSDennis Dalessandro &entry->rcv_intr.mask); 6584197344bSDennis Dalessandro curr_cpu = cpumask_next(curr_cpu, 6594197344bSDennis Dalessandro &entry->def_intr.mask); 660f48ad614SDennis Dalessandro if (curr_cpu >= nr_cpu_ids) 661f48ad614SDennis Dalessandro break; 662f48ad614SDennis Dalessandro } 663d6373019SSebastian Sanchez 664d6373019SSebastian Sanchez /* 665d6373019SSebastian Sanchez * If there ends up being 0 CPU cores leftover for SDMA 666d6373019SSebastian Sanchez * engines, use the same CPU cores as general/control 667d6373019SSebastian Sanchez * context. 668d6373019SSebastian Sanchez */ 6693c8bc395SYury Norov if (cpumask_empty(&entry->def_intr.mask)) 670d6373019SSebastian Sanchez cpumask_copy(&entry->def_intr.mask, 671d6373019SSebastian Sanchez &entry->general_intr_mask); 672f48ad614SDennis Dalessandro } 673f48ad614SDennis Dalessandro 6745d18ee67SSebastian Sanchez /* Determine completion vector CPUs for the entire node */ 6755d18ee67SSebastian Sanchez cpumask_and(&entry->comp_vect_mask, 6765d18ee67SSebastian Sanchez &node_affinity.real_cpu_mask, local_mask); 6775d18ee67SSebastian Sanchez cpumask_andnot(&entry->comp_vect_mask, 6785d18ee67SSebastian Sanchez &entry->comp_vect_mask, 6795d18ee67SSebastian Sanchez &entry->rcv_intr.mask); 6805d18ee67SSebastian Sanchez cpumask_andnot(&entry->comp_vect_mask, 6815d18ee67SSebastian Sanchez &entry->comp_vect_mask, 6825d18ee67SSebastian Sanchez &entry->general_intr_mask); 6835d18ee67SSebastian Sanchez 6845d18ee67SSebastian Sanchez /* 6855d18ee67SSebastian Sanchez * If there ends up being 0 CPU cores leftover for completion 6865d18ee67SSebastian Sanchez * vectors, use the same CPU core as the general/control 6875d18ee67SSebastian Sanchez * context. 6885d18ee67SSebastian Sanchez */ 6893c8bc395SYury Norov if (cpumask_empty(&entry->comp_vect_mask)) 6905d18ee67SSebastian Sanchez cpumask_copy(&entry->comp_vect_mask, 6915d18ee67SSebastian Sanchez &entry->general_intr_mask); 692f48ad614SDennis Dalessandro } 6935d18ee67SSebastian Sanchez 6945d18ee67SSebastian Sanchez ret = _dev_comp_vect_cpu_mask_init(dd, entry, new_entry); 6955d18ee67SSebastian Sanchez if (ret < 0) 6965d18ee67SSebastian Sanchez goto fail; 6975d18ee67SSebastian Sanchez 6985d18ee67SSebastian Sanchez if (new_entry) 6995d18ee67SSebastian Sanchez node_affinity_add_tail(entry); 7005d18ee67SSebastian Sanchez 7015de61a47SMike Marciniszyn dd->affinity_entry = entry; 702584d9577STadeusz Struk mutex_unlock(&node_affinity.lock); 7035d18ee67SSebastian Sanchez 7044197344bSDennis Dalessandro return 0; 7055d18ee67SSebastian Sanchez 7065d18ee67SSebastian Sanchez fail: 7075d18ee67SSebastian Sanchez if (new_entry) 7085d18ee67SSebastian Sanchez node_affinity_destroy(entry); 7095d18ee67SSebastian Sanchez mutex_unlock(&node_affinity.lock); 7105d18ee67SSebastian Sanchez return ret; 7115d18ee67SSebastian Sanchez } 7125d18ee67SSebastian Sanchez 7135d18ee67SSebastian Sanchez void hfi1_dev_affinity_clean_up(struct hfi1_devdata *dd) 7145d18ee67SSebastian Sanchez { 7155d18ee67SSebastian Sanchez struct hfi1_affinity_node *entry; 7165d18ee67SSebastian Sanchez 7175d18ee67SSebastian Sanchez mutex_lock(&node_affinity.lock); 7185de61a47SMike Marciniszyn if (!dd->affinity_entry) 7195de61a47SMike Marciniszyn goto unlock; 7205d18ee67SSebastian Sanchez entry = node_affinity_lookup(dd->node); 7215d18ee67SSebastian Sanchez if (!entry) 7225d18ee67SSebastian Sanchez goto unlock; 7235d18ee67SSebastian Sanchez 7245d18ee67SSebastian Sanchez /* 7255d18ee67SSebastian Sanchez * Free device completion vector CPUs to be used by future 7265d18ee67SSebastian Sanchez * completion vectors 7275d18ee67SSebastian Sanchez */ 7285d18ee67SSebastian Sanchez _dev_comp_vect_cpu_mask_clean_up(dd, entry); 7295d18ee67SSebastian Sanchez unlock: 7305de61a47SMike Marciniszyn dd->affinity_entry = NULL; 7315d18ee67SSebastian Sanchez mutex_unlock(&node_affinity.lock); 732f48ad614SDennis Dalessandro } 733f48ad614SDennis Dalessandro 734584d9577STadeusz Struk /* 7352d01c37dSTadeusz Struk * Function updates the irq affinity hint for msix after it has been changed 7362d01c37dSTadeusz Struk * by the user using the /proc/irq interface. This function only accepts 7372d01c37dSTadeusz Struk * one cpu in the mask. 7382d01c37dSTadeusz Struk */ 7392d01c37dSTadeusz Struk static void hfi1_update_sdma_affinity(struct hfi1_msix_entry *msix, int cpu) 7402d01c37dSTadeusz Struk { 7412d01c37dSTadeusz Struk struct sdma_engine *sde = msix->arg; 7422d01c37dSTadeusz Struk struct hfi1_devdata *dd = sde->dd; 7432d01c37dSTadeusz Struk struct hfi1_affinity_node *entry; 7442d01c37dSTadeusz Struk struct cpu_mask_set *set; 7452d01c37dSTadeusz Struk int i, old_cpu; 7462d01c37dSTadeusz Struk 7472d01c37dSTadeusz Struk if (cpu > num_online_cpus() || cpu == sde->cpu) 7482d01c37dSTadeusz Struk return; 7492d01c37dSTadeusz Struk 7502d01c37dSTadeusz Struk mutex_lock(&node_affinity.lock); 7512d01c37dSTadeusz Struk entry = node_affinity_lookup(dd->node); 7522d01c37dSTadeusz Struk if (!entry) 7532d01c37dSTadeusz Struk goto unlock; 7542d01c37dSTadeusz Struk 7552d01c37dSTadeusz Struk old_cpu = sde->cpu; 7562d01c37dSTadeusz Struk sde->cpu = cpu; 7572d01c37dSTadeusz Struk cpumask_clear(&msix->mask); 7582d01c37dSTadeusz Struk cpumask_set_cpu(cpu, &msix->mask); 759bb7dde87SMichael J. Ruhl dd_dev_dbg(dd, "IRQ: %u, type %s engine %u -> cpu: %d\n", 760bb7dde87SMichael J. Ruhl msix->irq, irq_type_names[msix->type], 7612d01c37dSTadeusz Struk sde->this_idx, cpu); 762bb7dde87SMichael J. Ruhl irq_set_affinity_hint(msix->irq, &msix->mask); 7632d01c37dSTadeusz Struk 7642d01c37dSTadeusz Struk /* 7652d01c37dSTadeusz Struk * Set the new cpu in the hfi1_affinity_node and clean 7662d01c37dSTadeusz Struk * the old cpu if it is not used by any other IRQ 7672d01c37dSTadeusz Struk */ 7682d01c37dSTadeusz Struk set = &entry->def_intr; 7692d01c37dSTadeusz Struk cpumask_set_cpu(cpu, &set->mask); 7702d01c37dSTadeusz Struk cpumask_set_cpu(cpu, &set->used); 7716eb4eb10SMichael J. Ruhl for (i = 0; i < dd->msix_info.max_requested; i++) { 7722d01c37dSTadeusz Struk struct hfi1_msix_entry *other_msix; 7732d01c37dSTadeusz Struk 7746eb4eb10SMichael J. Ruhl other_msix = &dd->msix_info.msix_entries[i]; 7752d01c37dSTadeusz Struk if (other_msix->type != IRQ_SDMA || other_msix == msix) 7762d01c37dSTadeusz Struk continue; 7772d01c37dSTadeusz Struk 7782d01c37dSTadeusz Struk if (cpumask_test_cpu(old_cpu, &other_msix->mask)) 7792d01c37dSTadeusz Struk goto unlock; 7802d01c37dSTadeusz Struk } 7812d01c37dSTadeusz Struk cpumask_clear_cpu(old_cpu, &set->mask); 7822d01c37dSTadeusz Struk cpumask_clear_cpu(old_cpu, &set->used); 7832d01c37dSTadeusz Struk unlock: 7842d01c37dSTadeusz Struk mutex_unlock(&node_affinity.lock); 7852d01c37dSTadeusz Struk } 7862d01c37dSTadeusz Struk 7872d01c37dSTadeusz Struk static void hfi1_irq_notifier_notify(struct irq_affinity_notify *notify, 7882d01c37dSTadeusz Struk const cpumask_t *mask) 7892d01c37dSTadeusz Struk { 7902d01c37dSTadeusz Struk int cpu = cpumask_first(mask); 7912d01c37dSTadeusz Struk struct hfi1_msix_entry *msix = container_of(notify, 7922d01c37dSTadeusz Struk struct hfi1_msix_entry, 7932d01c37dSTadeusz Struk notify); 7942d01c37dSTadeusz Struk 7952d01c37dSTadeusz Struk /* Only one CPU configuration supported currently */ 7962d01c37dSTadeusz Struk hfi1_update_sdma_affinity(msix, cpu); 7972d01c37dSTadeusz Struk } 7982d01c37dSTadeusz Struk 7992d01c37dSTadeusz Struk static void hfi1_irq_notifier_release(struct kref *ref) 8002d01c37dSTadeusz Struk { 8012d01c37dSTadeusz Struk /* 8022d01c37dSTadeusz Struk * This is required by affinity notifier. We don't have anything to 8032d01c37dSTadeusz Struk * free here. 8042d01c37dSTadeusz Struk */ 8052d01c37dSTadeusz Struk } 8062d01c37dSTadeusz Struk 8072d01c37dSTadeusz Struk static void hfi1_setup_sdma_notifier(struct hfi1_msix_entry *msix) 8082d01c37dSTadeusz Struk { 8092d01c37dSTadeusz Struk struct irq_affinity_notify *notify = &msix->notify; 8102d01c37dSTadeusz Struk 811bb7dde87SMichael J. Ruhl notify->irq = msix->irq; 8122d01c37dSTadeusz Struk notify->notify = hfi1_irq_notifier_notify; 8132d01c37dSTadeusz Struk notify->release = hfi1_irq_notifier_release; 8142d01c37dSTadeusz Struk 8152d01c37dSTadeusz Struk if (irq_set_affinity_notifier(notify->irq, notify)) 8162d01c37dSTadeusz Struk pr_err("Failed to register sdma irq affinity notifier for irq %d\n", 8172d01c37dSTadeusz Struk notify->irq); 8182d01c37dSTadeusz Struk } 8192d01c37dSTadeusz Struk 8202d01c37dSTadeusz Struk static void hfi1_cleanup_sdma_notifier(struct hfi1_msix_entry *msix) 8212d01c37dSTadeusz Struk { 8222d01c37dSTadeusz Struk struct irq_affinity_notify *notify = &msix->notify; 8232d01c37dSTadeusz Struk 8242d01c37dSTadeusz Struk if (irq_set_affinity_notifier(notify->irq, NULL)) 8252d01c37dSTadeusz Struk pr_err("Failed to cleanup sdma irq affinity notifier for irq %d\n", 8262d01c37dSTadeusz Struk notify->irq); 8272d01c37dSTadeusz Struk } 8282d01c37dSTadeusz Struk 8292d01c37dSTadeusz Struk /* 830584d9577STadeusz Struk * Function sets the irq affinity for msix. 831584d9577STadeusz Struk * It *must* be called with node_affinity.lock held. 832584d9577STadeusz Struk */ 833584d9577STadeusz Struk static int get_irq_affinity(struct hfi1_devdata *dd, 834584d9577STadeusz Struk struct hfi1_msix_entry *msix) 835f48ad614SDennis Dalessandro { 836f48ad614SDennis Dalessandro cpumask_var_t diff; 8374197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 838d6373019SSebastian Sanchez struct cpu_mask_set *set = NULL; 839f48ad614SDennis Dalessandro struct sdma_engine *sde = NULL; 840f48ad614SDennis Dalessandro struct hfi1_ctxtdata *rcd = NULL; 841f48ad614SDennis Dalessandro char extra[64]; 842f48ad614SDennis Dalessandro int cpu = -1; 843f48ad614SDennis Dalessandro 844f48ad614SDennis Dalessandro extra[0] = '\0'; 845f48ad614SDennis Dalessandro cpumask_clear(&msix->mask); 846f48ad614SDennis Dalessandro 8474197344bSDennis Dalessandro entry = node_affinity_lookup(dd->node); 8484197344bSDennis Dalessandro 849f48ad614SDennis Dalessandro switch (msix->type) { 850f48ad614SDennis Dalessandro case IRQ_SDMA: 851f48ad614SDennis Dalessandro sde = (struct sdma_engine *)msix->arg; 852f48ad614SDennis Dalessandro scnprintf(extra, 64, "engine %u", sde->this_idx); 8534197344bSDennis Dalessandro set = &entry->def_intr; 854f48ad614SDennis Dalessandro break; 855d6373019SSebastian Sanchez case IRQ_GENERAL: 856d6373019SSebastian Sanchez cpu = cpumask_first(&entry->general_intr_mask); 857d6373019SSebastian Sanchez break; 858f48ad614SDennis Dalessandro case IRQ_RCVCTXT: 859f48ad614SDennis Dalessandro rcd = (struct hfi1_ctxtdata *)msix->arg; 860d6373019SSebastian Sanchez if (rcd->ctxt == HFI1_CTRL_CTXT) 861d6373019SSebastian Sanchez cpu = cpumask_first(&entry->general_intr_mask); 862d6373019SSebastian Sanchez else 8634197344bSDennis Dalessandro set = &entry->rcv_intr; 864f48ad614SDennis Dalessandro scnprintf(extra, 64, "ctxt %u", rcd->ctxt); 865f48ad614SDennis Dalessandro break; 8660bae02d5SGrzegorz Andrejczuk case IRQ_NETDEVCTXT: 8670bae02d5SGrzegorz Andrejczuk rcd = (struct hfi1_ctxtdata *)msix->arg; 8680bae02d5SGrzegorz Andrejczuk set = &entry->def_intr; 8690bae02d5SGrzegorz Andrejczuk scnprintf(extra, 64, "ctxt %u", rcd->ctxt); 8700bae02d5SGrzegorz Andrejczuk break; 871f48ad614SDennis Dalessandro default: 872f48ad614SDennis Dalessandro dd_dev_err(dd, "Invalid IRQ type %d\n", msix->type); 873f48ad614SDennis Dalessandro return -EINVAL; 874f48ad614SDennis Dalessandro } 875f48ad614SDennis Dalessandro 876f48ad614SDennis Dalessandro /* 877d6373019SSebastian Sanchez * The general and control contexts are placed on a particular 878d6373019SSebastian Sanchez * CPU, which is set above. Skip accounting for it. Everything else 879d6373019SSebastian Sanchez * finds its CPU here. 880f48ad614SDennis Dalessandro */ 8814197344bSDennis Dalessandro if (cpu == -1 && set) { 88259482a14SSebastian Sanchez if (!zalloc_cpumask_var(&diff, GFP_KERNEL)) 88359482a14SSebastian Sanchez return -ENOMEM; 88459482a14SSebastian Sanchez 885cf38ea10SSebastian Sanchez cpu = cpu_mask_set_get_first(set, diff); 886cf38ea10SSebastian Sanchez if (cpu < 0) { 887cf38ea10SSebastian Sanchez free_cpumask_var(diff); 888cf38ea10SSebastian Sanchez dd_dev_err(dd, "Failure to obtain CPU for IRQ\n"); 889cf38ea10SSebastian Sanchez return cpu; 890f48ad614SDennis Dalessandro } 89159482a14SSebastian Sanchez 89259482a14SSebastian Sanchez free_cpumask_var(diff); 893f48ad614SDennis Dalessandro } 894f48ad614SDennis Dalessandro 895f48ad614SDennis Dalessandro cpumask_set_cpu(cpu, &msix->mask); 896bb7dde87SMichael J. Ruhl dd_dev_info(dd, "IRQ: %u, type %s %s -> cpu: %d\n", 897bb7dde87SMichael J. Ruhl msix->irq, irq_type_names[msix->type], 898f48ad614SDennis Dalessandro extra, cpu); 899bb7dde87SMichael J. Ruhl irq_set_affinity_hint(msix->irq, &msix->mask); 900f48ad614SDennis Dalessandro 9012d01c37dSTadeusz Struk if (msix->type == IRQ_SDMA) { 9022d01c37dSTadeusz Struk sde->cpu = cpu; 9032d01c37dSTadeusz Struk hfi1_setup_sdma_notifier(msix); 9042d01c37dSTadeusz Struk } 9052d01c37dSTadeusz Struk 906f48ad614SDennis Dalessandro return 0; 907f48ad614SDennis Dalessandro } 908f48ad614SDennis Dalessandro 909584d9577STadeusz Struk int hfi1_get_irq_affinity(struct hfi1_devdata *dd, struct hfi1_msix_entry *msix) 910584d9577STadeusz Struk { 911584d9577STadeusz Struk int ret; 912584d9577STadeusz Struk 913584d9577STadeusz Struk mutex_lock(&node_affinity.lock); 914584d9577STadeusz Struk ret = get_irq_affinity(dd, msix); 915584d9577STadeusz Struk mutex_unlock(&node_affinity.lock); 916584d9577STadeusz Struk return ret; 917584d9577STadeusz Struk } 918584d9577STadeusz Struk 919f48ad614SDennis Dalessandro void hfi1_put_irq_affinity(struct hfi1_devdata *dd, 920f48ad614SDennis Dalessandro struct hfi1_msix_entry *msix) 921f48ad614SDennis Dalessandro { 922f48ad614SDennis Dalessandro struct cpu_mask_set *set = NULL; 9234197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 9244197344bSDennis Dalessandro 925584d9577STadeusz Struk mutex_lock(&node_affinity.lock); 9264197344bSDennis Dalessandro entry = node_affinity_lookup(dd->node); 927f48ad614SDennis Dalessandro 928f48ad614SDennis Dalessandro switch (msix->type) { 929f48ad614SDennis Dalessandro case IRQ_SDMA: 9304197344bSDennis Dalessandro set = &entry->def_intr; 9312d01c37dSTadeusz Struk hfi1_cleanup_sdma_notifier(msix); 932f48ad614SDennis Dalessandro break; 933d6373019SSebastian Sanchez case IRQ_GENERAL: 934b094a36fSSebastian Sanchez /* Don't do accounting for general contexts */ 935d6373019SSebastian Sanchez break; 9362d085ee1SJiapeng Chong case IRQ_RCVCTXT: { 9372d085ee1SJiapeng Chong struct hfi1_ctxtdata *rcd = msix->arg; 9382d085ee1SJiapeng Chong 939d6373019SSebastian Sanchez /* Don't do accounting for control contexts */ 940f48ad614SDennis Dalessandro if (rcd->ctxt != HFI1_CTRL_CTXT) 9414197344bSDennis Dalessandro set = &entry->rcv_intr; 942f48ad614SDennis Dalessandro break; 9432d085ee1SJiapeng Chong } 9440bae02d5SGrzegorz Andrejczuk case IRQ_NETDEVCTXT: 9450bae02d5SGrzegorz Andrejczuk set = &entry->def_intr; 9460bae02d5SGrzegorz Andrejczuk break; 947f48ad614SDennis Dalessandro default: 948584d9577STadeusz Struk mutex_unlock(&node_affinity.lock); 949f48ad614SDennis Dalessandro return; 950f48ad614SDennis Dalessandro } 951f48ad614SDennis Dalessandro 952f48ad614SDennis Dalessandro if (set) { 953f48ad614SDennis Dalessandro cpumask_andnot(&set->used, &set->used, &msix->mask); 954cf38ea10SSebastian Sanchez _cpu_mask_set_gen_dec(set); 955f48ad614SDennis Dalessandro } 956f48ad614SDennis Dalessandro 957bb7dde87SMichael J. Ruhl irq_set_affinity_hint(msix->irq, NULL); 958f48ad614SDennis Dalessandro cpumask_clear(&msix->mask); 959584d9577STadeusz Struk mutex_unlock(&node_affinity.lock); 960f48ad614SDennis Dalessandro } 961f48ad614SDennis Dalessandro 962b094a36fSSebastian Sanchez /* This should be called with node_affinity.lock held */ 963b094a36fSSebastian Sanchez static void find_hw_thread_mask(uint hw_thread_no, cpumask_var_t hw_thread_mask, 964b094a36fSSebastian Sanchez struct hfi1_affinity_node_list *affinity) 965f48ad614SDennis Dalessandro { 966b094a36fSSebastian Sanchez int possible, curr_cpu, i; 967b094a36fSSebastian Sanchez uint num_cores_per_socket = node_affinity.num_online_cpus / 968b094a36fSSebastian Sanchez affinity->num_core_siblings / 969b094a36fSSebastian Sanchez node_affinity.num_online_nodes; 970b094a36fSSebastian Sanchez 971b094a36fSSebastian Sanchez cpumask_copy(hw_thread_mask, &affinity->proc.mask); 972b094a36fSSebastian Sanchez if (affinity->num_core_siblings > 0) { 973b094a36fSSebastian Sanchez /* Removing other siblings not needed for now */ 974b094a36fSSebastian Sanchez possible = cpumask_weight(hw_thread_mask); 975b094a36fSSebastian Sanchez curr_cpu = cpumask_first(hw_thread_mask); 976b094a36fSSebastian Sanchez for (i = 0; 977b094a36fSSebastian Sanchez i < num_cores_per_socket * node_affinity.num_online_nodes; 978b094a36fSSebastian Sanchez i++) 979b094a36fSSebastian Sanchez curr_cpu = cpumask_next(curr_cpu, hw_thread_mask); 980b094a36fSSebastian Sanchez 981b094a36fSSebastian Sanchez for (; i < possible; i++) { 982b094a36fSSebastian Sanchez cpumask_clear_cpu(curr_cpu, hw_thread_mask); 983b094a36fSSebastian Sanchez curr_cpu = cpumask_next(curr_cpu, hw_thread_mask); 984b094a36fSSebastian Sanchez } 985b094a36fSSebastian Sanchez 986b094a36fSSebastian Sanchez /* Identifying correct HW threads within physical cores */ 987b094a36fSSebastian Sanchez cpumask_shift_left(hw_thread_mask, hw_thread_mask, 988b094a36fSSebastian Sanchez num_cores_per_socket * 989b094a36fSSebastian Sanchez node_affinity.num_online_nodes * 990b094a36fSSebastian Sanchez hw_thread_no); 991b094a36fSSebastian Sanchez } 992b094a36fSSebastian Sanchez } 993b094a36fSSebastian Sanchez 994b094a36fSSebastian Sanchez int hfi1_get_proc_affinity(int node) 995b094a36fSSebastian Sanchez { 996b094a36fSSebastian Sanchez int cpu = -1, ret, i; 9974197344bSDennis Dalessandro struct hfi1_affinity_node *entry; 998b094a36fSSebastian Sanchez cpumask_var_t diff, hw_thread_mask, available_mask, intrs_mask; 999f48ad614SDennis Dalessandro const struct cpumask *node_mask, 10003bd37062SSebastian Andrzej Siewior *proc_mask = current->cpus_ptr; 1001b094a36fSSebastian Sanchez struct hfi1_affinity_node_list *affinity = &node_affinity; 1002b094a36fSSebastian Sanchez struct cpu_mask_set *set = &affinity->proc; 1003f48ad614SDennis Dalessandro 1004f48ad614SDennis Dalessandro /* 1005f48ad614SDennis Dalessandro * check whether process/context affinity has already 1006f48ad614SDennis Dalessandro * been set 1007f48ad614SDennis Dalessandro */ 10083bd37062SSebastian Andrzej Siewior if (current->nr_cpus_allowed == 1) { 1009f242d93aSLeon Romanovsky hfi1_cdbg(PROC, "PID %u %s affinity set to CPU %*pbl", 1010f242d93aSLeon Romanovsky current->pid, current->comm, 1011f242d93aSLeon Romanovsky cpumask_pr_args(proc_mask)); 1012f48ad614SDennis Dalessandro /* 1013f48ad614SDennis Dalessandro * Mark the pre-set CPU as used. This is atomic so we don't 1014f48ad614SDennis Dalessandro * need the lock 1015f48ad614SDennis Dalessandro */ 1016f48ad614SDennis Dalessandro cpu = cpumask_first(proc_mask); 1017f48ad614SDennis Dalessandro cpumask_set_cpu(cpu, &set->used); 1018f48ad614SDennis Dalessandro goto done; 10193bd37062SSebastian Andrzej Siewior } else if (current->nr_cpus_allowed < cpumask_weight(&set->mask)) { 1020f242d93aSLeon Romanovsky hfi1_cdbg(PROC, "PID %u %s affinity set to CPU set(s) %*pbl", 1021f242d93aSLeon Romanovsky current->pid, current->comm, 1022f242d93aSLeon Romanovsky cpumask_pr_args(proc_mask)); 1023f48ad614SDennis Dalessandro goto done; 1024f48ad614SDennis Dalessandro } 1025f48ad614SDennis Dalessandro 1026f48ad614SDennis Dalessandro /* 1027f48ad614SDennis Dalessandro * The process does not have a preset CPU affinity so find one to 1028b094a36fSSebastian Sanchez * recommend using the following algorithm: 1029b094a36fSSebastian Sanchez * 1030b094a36fSSebastian Sanchez * For each user process that is opening a context on HFI Y: 1031b094a36fSSebastian Sanchez * a) If all cores are filled, reinitialize the bitmask 1032b094a36fSSebastian Sanchez * b) Fill real cores first, then HT cores (First set of HT 1033b094a36fSSebastian Sanchez * cores on all physical cores, then second set of HT core, 1034b094a36fSSebastian Sanchez * and, so on) in the following order: 1035b094a36fSSebastian Sanchez * 1036b094a36fSSebastian Sanchez * 1. Same NUMA node as HFI Y and not running an IRQ 1037b094a36fSSebastian Sanchez * handler 1038b094a36fSSebastian Sanchez * 2. Same NUMA node as HFI Y and running an IRQ handler 1039b094a36fSSebastian Sanchez * 3. Different NUMA node to HFI Y and not running an IRQ 1040b094a36fSSebastian Sanchez * handler 1041b094a36fSSebastian Sanchez * 4. Different NUMA node to HFI Y and running an IRQ 1042b094a36fSSebastian Sanchez * handler 1043b094a36fSSebastian Sanchez * c) Mark core as filled in the bitmask. As user processes are 1044b094a36fSSebastian Sanchez * done, clear cores from the bitmask. 1045f48ad614SDennis Dalessandro */ 1046f48ad614SDennis Dalessandro 1047f48ad614SDennis Dalessandro ret = zalloc_cpumask_var(&diff, GFP_KERNEL); 1048f48ad614SDennis Dalessandro if (!ret) 1049f48ad614SDennis Dalessandro goto done; 1050b094a36fSSebastian Sanchez ret = zalloc_cpumask_var(&hw_thread_mask, GFP_KERNEL); 1051f48ad614SDennis Dalessandro if (!ret) 1052f48ad614SDennis Dalessandro goto free_diff; 1053b094a36fSSebastian Sanchez ret = zalloc_cpumask_var(&available_mask, GFP_KERNEL); 1054f48ad614SDennis Dalessandro if (!ret) 1055b094a36fSSebastian Sanchez goto free_hw_thread_mask; 1056b094a36fSSebastian Sanchez ret = zalloc_cpumask_var(&intrs_mask, GFP_KERNEL); 1057b094a36fSSebastian Sanchez if (!ret) 1058b094a36fSSebastian Sanchez goto free_available_mask; 1059f48ad614SDennis Dalessandro 1060584d9577STadeusz Struk mutex_lock(&affinity->lock); 1061f48ad614SDennis Dalessandro /* 1062b094a36fSSebastian Sanchez * If we've used all available HW threads, clear the mask and start 1063f48ad614SDennis Dalessandro * overloading. 1064f48ad614SDennis Dalessandro */ 1065cf38ea10SSebastian Sanchez _cpu_mask_set_gen_inc(set); 1066f48ad614SDennis Dalessandro 1067d6373019SSebastian Sanchez /* 1068d6373019SSebastian Sanchez * If NUMA node has CPUs used by interrupt handlers, include them in the 1069d6373019SSebastian Sanchez * interrupt handler mask. 1070d6373019SSebastian Sanchez */ 1071d6373019SSebastian Sanchez entry = node_affinity_lookup(node); 1072d6373019SSebastian Sanchez if (entry) { 1073b094a36fSSebastian Sanchez cpumask_copy(intrs_mask, (entry->def_intr.gen ? 10744197344bSDennis Dalessandro &entry->def_intr.mask : 10754197344bSDennis Dalessandro &entry->def_intr.used)); 1076b094a36fSSebastian Sanchez cpumask_or(intrs_mask, intrs_mask, (entry->rcv_intr.gen ? 10774197344bSDennis Dalessandro &entry->rcv_intr.mask : 10784197344bSDennis Dalessandro &entry->rcv_intr.used)); 1079b094a36fSSebastian Sanchez cpumask_or(intrs_mask, intrs_mask, &entry->general_intr_mask); 1080d6373019SSebastian Sanchez } 1081f242d93aSLeon Romanovsky hfi1_cdbg(PROC, "CPUs used by interrupts: %*pbl", 1082b094a36fSSebastian Sanchez cpumask_pr_args(intrs_mask)); 1083b094a36fSSebastian Sanchez 1084b094a36fSSebastian Sanchez cpumask_copy(hw_thread_mask, &set->mask); 1085f48ad614SDennis Dalessandro 1086f48ad614SDennis Dalessandro /* 1087b094a36fSSebastian Sanchez * If HT cores are enabled, identify which HW threads within the 1088b094a36fSSebastian Sanchez * physical cores should be used. 1089f48ad614SDennis Dalessandro */ 1090b094a36fSSebastian Sanchez if (affinity->num_core_siblings > 0) { 1091b094a36fSSebastian Sanchez for (i = 0; i < affinity->num_core_siblings; i++) { 1092b094a36fSSebastian Sanchez find_hw_thread_mask(i, hw_thread_mask, affinity); 1093b094a36fSSebastian Sanchez 1094b094a36fSSebastian Sanchez /* 1095b094a36fSSebastian Sanchez * If there's at least one available core for this HW 1096b094a36fSSebastian Sanchez * thread number, stop looking for a core. 1097b094a36fSSebastian Sanchez * 1098b094a36fSSebastian Sanchez * diff will always be not empty at least once in this 1099b094a36fSSebastian Sanchez * loop as the used mask gets reset when 1100b094a36fSSebastian Sanchez * (set->mask == set->used) before this loop. 1101b094a36fSSebastian Sanchez */ 1102b094a36fSSebastian Sanchez cpumask_andnot(diff, hw_thread_mask, &set->used); 1103b094a36fSSebastian Sanchez if (!cpumask_empty(diff)) 1104b094a36fSSebastian Sanchez break; 1105b094a36fSSebastian Sanchez } 1106b094a36fSSebastian Sanchez } 1107b094a36fSSebastian Sanchez hfi1_cdbg(PROC, "Same available HW thread on all physical CPUs: %*pbl", 1108b094a36fSSebastian Sanchez cpumask_pr_args(hw_thread_mask)); 1109b094a36fSSebastian Sanchez 1110f48ad614SDennis Dalessandro node_mask = cpumask_of_node(node); 1111b094a36fSSebastian Sanchez hfi1_cdbg(PROC, "Device on NUMA %u, CPUs %*pbl", node, 1112f242d93aSLeon Romanovsky cpumask_pr_args(node_mask)); 1113f48ad614SDennis Dalessandro 1114b094a36fSSebastian Sanchez /* Get cpumask of available CPUs on preferred NUMA */ 1115b094a36fSSebastian Sanchez cpumask_and(available_mask, hw_thread_mask, node_mask); 1116b094a36fSSebastian Sanchez cpumask_andnot(available_mask, available_mask, &set->used); 1117b094a36fSSebastian Sanchez hfi1_cdbg(PROC, "Available CPUs on NUMA %u: %*pbl", node, 1118b094a36fSSebastian Sanchez cpumask_pr_args(available_mask)); 1119f48ad614SDennis Dalessandro 1120b094a36fSSebastian Sanchez /* 1121b094a36fSSebastian Sanchez * At first, we don't want to place processes on the same 1122b094a36fSSebastian Sanchez * CPUs as interrupt handlers. Then, CPUs running interrupt 1123b094a36fSSebastian Sanchez * handlers are used. 1124b094a36fSSebastian Sanchez * 1125b094a36fSSebastian Sanchez * 1) If diff is not empty, then there are CPUs not running 1126b094a36fSSebastian Sanchez * non-interrupt handlers available, so diff gets copied 1127b094a36fSSebastian Sanchez * over to available_mask. 1128b094a36fSSebastian Sanchez * 2) If diff is empty, then all CPUs not running interrupt 1129b094a36fSSebastian Sanchez * handlers are taken, so available_mask contains all 1130b094a36fSSebastian Sanchez * available CPUs running interrupt handlers. 1131b094a36fSSebastian Sanchez * 3) If available_mask is empty, then all CPUs on the 1132b094a36fSSebastian Sanchez * preferred NUMA node are taken, so other NUMA nodes are 1133b094a36fSSebastian Sanchez * used for process assignments using the same method as 1134b094a36fSSebastian Sanchez * the preferred NUMA node. 1135b094a36fSSebastian Sanchez */ 1136b094a36fSSebastian Sanchez cpumask_andnot(diff, available_mask, intrs_mask); 1137b094a36fSSebastian Sanchez if (!cpumask_empty(diff)) 1138b094a36fSSebastian Sanchez cpumask_copy(available_mask, diff); 1139b094a36fSSebastian Sanchez 1140b094a36fSSebastian Sanchez /* If we don't have CPUs on the preferred node, use other NUMA nodes */ 1141b094a36fSSebastian Sanchez if (cpumask_empty(available_mask)) { 1142b094a36fSSebastian Sanchez cpumask_andnot(available_mask, hw_thread_mask, &set->used); 1143b094a36fSSebastian Sanchez /* Excluding preferred NUMA cores */ 1144b094a36fSSebastian Sanchez cpumask_andnot(available_mask, available_mask, node_mask); 1145b094a36fSSebastian Sanchez hfi1_cdbg(PROC, 1146b094a36fSSebastian Sanchez "Preferred NUMA node cores are taken, cores available in other NUMA nodes: %*pbl", 1147b094a36fSSebastian Sanchez cpumask_pr_args(available_mask)); 1148f48ad614SDennis Dalessandro 1149f48ad614SDennis Dalessandro /* 1150f48ad614SDennis Dalessandro * At first, we don't want to place processes on the same 1151f48ad614SDennis Dalessandro * CPUs as interrupt handlers. 1152f48ad614SDennis Dalessandro */ 1153b094a36fSSebastian Sanchez cpumask_andnot(diff, available_mask, intrs_mask); 1154f48ad614SDennis Dalessandro if (!cpumask_empty(diff)) 1155b094a36fSSebastian Sanchez cpumask_copy(available_mask, diff); 1156f48ad614SDennis Dalessandro } 1157b094a36fSSebastian Sanchez hfi1_cdbg(PROC, "Possible CPUs for process: %*pbl", 1158b094a36fSSebastian Sanchez cpumask_pr_args(available_mask)); 1159f48ad614SDennis Dalessandro 1160b094a36fSSebastian Sanchez cpu = cpumask_first(available_mask); 1161f48ad614SDennis Dalessandro if (cpu >= nr_cpu_ids) /* empty */ 1162f48ad614SDennis Dalessandro cpu = -1; 1163f48ad614SDennis Dalessandro else 1164f48ad614SDennis Dalessandro cpumask_set_cpu(cpu, &set->used); 1165584d9577STadeusz Struk 1166584d9577STadeusz Struk mutex_unlock(&affinity->lock); 1167b094a36fSSebastian Sanchez hfi1_cdbg(PROC, "Process assigned to CPU %d", cpu); 1168f48ad614SDennis Dalessandro 1169b094a36fSSebastian Sanchez free_cpumask_var(intrs_mask); 1170b094a36fSSebastian Sanchez free_available_mask: 1171b094a36fSSebastian Sanchez free_cpumask_var(available_mask); 1172b094a36fSSebastian Sanchez free_hw_thread_mask: 1173b094a36fSSebastian Sanchez free_cpumask_var(hw_thread_mask); 1174f48ad614SDennis Dalessandro free_diff: 1175f48ad614SDennis Dalessandro free_cpumask_var(diff); 1176f48ad614SDennis Dalessandro done: 1177f48ad614SDennis Dalessandro return cpu; 1178f48ad614SDennis Dalessandro } 1179f48ad614SDennis Dalessandro 1180b094a36fSSebastian Sanchez void hfi1_put_proc_affinity(int cpu) 1181f48ad614SDennis Dalessandro { 1182b094a36fSSebastian Sanchez struct hfi1_affinity_node_list *affinity = &node_affinity; 1183b094a36fSSebastian Sanchez struct cpu_mask_set *set = &affinity->proc; 1184f48ad614SDennis Dalessandro 1185f48ad614SDennis Dalessandro if (cpu < 0) 1186f48ad614SDennis Dalessandro return; 1187584d9577STadeusz Struk 1188584d9577STadeusz Struk mutex_lock(&affinity->lock); 1189cf38ea10SSebastian Sanchez cpu_mask_set_put(set, cpu); 1190b094a36fSSebastian Sanchez hfi1_cdbg(PROC, "Returning CPU %d for future process assignment", cpu); 1191584d9577STadeusz Struk mutex_unlock(&affinity->lock); 1192f48ad614SDennis Dalessandro } 1193