1ea25da48SPaolo Valente /* 2ea25da48SPaolo Valente * Hierarchical Budget Worst-case Fair Weighted Fair Queueing 3ea25da48SPaolo Valente * (B-WF2Q+): hierarchical scheduling algorithm by which the BFQ I/O 4ea25da48SPaolo Valente * scheduler schedules generic entities. The latter can represent 5ea25da48SPaolo Valente * either single bfq queues (associated with processes) or groups of 6ea25da48SPaolo Valente * bfq queues (associated with cgroups). 7ea25da48SPaolo Valente * 8ea25da48SPaolo Valente * This program is free software; you can redistribute it and/or 9ea25da48SPaolo Valente * modify it under the terms of the GNU General Public License as 10ea25da48SPaolo Valente * published by the Free Software Foundation; either version 2 of the 11ea25da48SPaolo Valente * License, or (at your option) any later version. 12ea25da48SPaolo Valente * 13ea25da48SPaolo Valente * This program is distributed in the hope that it will be useful, 14ea25da48SPaolo Valente * but WITHOUT ANY WARRANTY; without even the implied warranty of 15ea25da48SPaolo Valente * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 16ea25da48SPaolo Valente * General Public License for more details. 17ea25da48SPaolo Valente */ 18ea25da48SPaolo Valente #include "bfq-iosched.h" 19ea25da48SPaolo Valente 20ea25da48SPaolo Valente /** 21ea25da48SPaolo Valente * bfq_gt - compare two timestamps. 22ea25da48SPaolo Valente * @a: first ts. 23ea25da48SPaolo Valente * @b: second ts. 24ea25da48SPaolo Valente * 25ea25da48SPaolo Valente * Return @a > @b, dealing with wrapping correctly. 26ea25da48SPaolo Valente */ 27ea25da48SPaolo Valente static int bfq_gt(u64 a, u64 b) 28ea25da48SPaolo Valente { 29ea25da48SPaolo Valente return (s64)(a - b) > 0; 30ea25da48SPaolo Valente } 31ea25da48SPaolo Valente 32ea25da48SPaolo Valente static struct bfq_entity *bfq_root_active_entity(struct rb_root *tree) 33ea25da48SPaolo Valente { 34ea25da48SPaolo Valente struct rb_node *node = tree->rb_node; 35ea25da48SPaolo Valente 36ea25da48SPaolo Valente return rb_entry(node, struct bfq_entity, rb_node); 37ea25da48SPaolo Valente } 38ea25da48SPaolo Valente 39ea25da48SPaolo Valente static unsigned int bfq_class_idx(struct bfq_entity *entity) 40ea25da48SPaolo Valente { 41ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 42ea25da48SPaolo Valente 43ea25da48SPaolo Valente return bfqq ? bfqq->ioprio_class - 1 : 44ea25da48SPaolo Valente BFQ_DEFAULT_GRP_CLASS - 1; 45ea25da48SPaolo Valente } 46ea25da48SPaolo Valente 4780294c3bSPaolo Valente static struct bfq_entity *bfq_lookup_next_entity(struct bfq_sched_data *sd, 4880294c3bSPaolo Valente bool expiration); 49ea25da48SPaolo Valente 50ea25da48SPaolo Valente static bool bfq_update_parent_budget(struct bfq_entity *next_in_service); 51ea25da48SPaolo Valente 52ea25da48SPaolo Valente /** 53ea25da48SPaolo Valente * bfq_update_next_in_service - update sd->next_in_service 54ea25da48SPaolo Valente * @sd: sched_data for which to perform the update. 55ea25da48SPaolo Valente * @new_entity: if not NULL, pointer to the entity whose activation, 56ea25da48SPaolo Valente * requeueing or repositionig triggered the invocation of 57ea25da48SPaolo Valente * this function. 5880294c3bSPaolo Valente * @expiration: id true, this function is being invoked after the 5980294c3bSPaolo Valente * expiration of the in-service entity 60ea25da48SPaolo Valente * 61ea25da48SPaolo Valente * This function is called to update sd->next_in_service, which, in 62ea25da48SPaolo Valente * its turn, may change as a consequence of the insertion or 63ea25da48SPaolo Valente * extraction of an entity into/from one of the active trees of 64ea25da48SPaolo Valente * sd. These insertions/extractions occur as a consequence of 65ea25da48SPaolo Valente * activations/deactivations of entities, with some activations being 66ea25da48SPaolo Valente * 'true' activations, and other activations being requeueings (i.e., 67ea25da48SPaolo Valente * implementing the second, requeueing phase of the mechanism used to 68ea25da48SPaolo Valente * reposition an entity in its active tree; see comments on 69ea25da48SPaolo Valente * __bfq_activate_entity and __bfq_requeue_entity for details). In 70ea25da48SPaolo Valente * both the last two activation sub-cases, new_entity points to the 71ea25da48SPaolo Valente * just activated or requeued entity. 72ea25da48SPaolo Valente * 73ea25da48SPaolo Valente * Returns true if sd->next_in_service changes in such a way that 74ea25da48SPaolo Valente * entity->parent may become the next_in_service for its parent 75ea25da48SPaolo Valente * entity. 76ea25da48SPaolo Valente */ 77ea25da48SPaolo Valente static bool bfq_update_next_in_service(struct bfq_sched_data *sd, 7880294c3bSPaolo Valente struct bfq_entity *new_entity, 7980294c3bSPaolo Valente bool expiration) 80ea25da48SPaolo Valente { 81ea25da48SPaolo Valente struct bfq_entity *next_in_service = sd->next_in_service; 82ea25da48SPaolo Valente bool parent_sched_may_change = false; 8324d90bb2SPaolo Valente bool change_without_lookup = false; 84ea25da48SPaolo Valente 85ea25da48SPaolo Valente /* 86ea25da48SPaolo Valente * If this update is triggered by the activation, requeueing 87ea25da48SPaolo Valente * or repositiong of an entity that does not coincide with 88ea25da48SPaolo Valente * sd->next_in_service, then a full lookup in the active tree 89ea25da48SPaolo Valente * can be avoided. In fact, it is enough to check whether the 90a02195ceSPaolo Valente * just-modified entity has the same priority as 91a02195ceSPaolo Valente * sd->next_in_service, is eligible and has a lower virtual 92ea25da48SPaolo Valente * finish time than sd->next_in_service. If this compound 93ea25da48SPaolo Valente * condition holds, then the new entity becomes the new 94ea25da48SPaolo Valente * next_in_service. Otherwise no change is needed. 95ea25da48SPaolo Valente */ 96ea25da48SPaolo Valente if (new_entity && new_entity != sd->next_in_service) { 97ea25da48SPaolo Valente /* 98ea25da48SPaolo Valente * Flag used to decide whether to replace 99ea25da48SPaolo Valente * sd->next_in_service with new_entity. Tentatively 100ea25da48SPaolo Valente * set to true, and left as true if 101ea25da48SPaolo Valente * sd->next_in_service is NULL. 102ea25da48SPaolo Valente */ 10324d90bb2SPaolo Valente change_without_lookup = true; 104ea25da48SPaolo Valente 105ea25da48SPaolo Valente /* 106ea25da48SPaolo Valente * If there is already a next_in_service candidate 107a02195ceSPaolo Valente * entity, then compare timestamps to decide whether 108a02195ceSPaolo Valente * to replace sd->service_tree with new_entity. 109ea25da48SPaolo Valente */ 110ea25da48SPaolo Valente if (next_in_service) { 111ea25da48SPaolo Valente unsigned int new_entity_class_idx = 112ea25da48SPaolo Valente bfq_class_idx(new_entity); 113ea25da48SPaolo Valente struct bfq_service_tree *st = 114ea25da48SPaolo Valente sd->service_tree + new_entity_class_idx; 115ea25da48SPaolo Valente 11624d90bb2SPaolo Valente change_without_lookup = 117ea25da48SPaolo Valente (new_entity_class_idx == 118ea25da48SPaolo Valente bfq_class_idx(next_in_service) 119ea25da48SPaolo Valente && 120ea25da48SPaolo Valente !bfq_gt(new_entity->start, st->vtime) 121ea25da48SPaolo Valente && 122ea25da48SPaolo Valente bfq_gt(next_in_service->finish, 123a02195ceSPaolo Valente new_entity->finish)); 124ea25da48SPaolo Valente } 125ea25da48SPaolo Valente 12624d90bb2SPaolo Valente if (change_without_lookup) 127ea25da48SPaolo Valente next_in_service = new_entity; 12824d90bb2SPaolo Valente } 12924d90bb2SPaolo Valente 13024d90bb2SPaolo Valente if (!change_without_lookup) /* lookup needed */ 13180294c3bSPaolo Valente next_in_service = bfq_lookup_next_entity(sd, expiration); 132ea25da48SPaolo Valente 13324d90bb2SPaolo Valente if (next_in_service) 134ea25da48SPaolo Valente parent_sched_may_change = !sd->next_in_service || 135ea25da48SPaolo Valente bfq_update_parent_budget(next_in_service); 136ea25da48SPaolo Valente 137ea25da48SPaolo Valente sd->next_in_service = next_in_service; 138ea25da48SPaolo Valente 139ea25da48SPaolo Valente if (!next_in_service) 140ea25da48SPaolo Valente return parent_sched_may_change; 141ea25da48SPaolo Valente 142ea25da48SPaolo Valente return parent_sched_may_change; 143ea25da48SPaolo Valente } 144ea25da48SPaolo Valente 145ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 146ea25da48SPaolo Valente 147ea25da48SPaolo Valente struct bfq_group *bfq_bfqq_to_bfqg(struct bfq_queue *bfqq) 148ea25da48SPaolo Valente { 149ea25da48SPaolo Valente struct bfq_entity *group_entity = bfqq->entity.parent; 150ea25da48SPaolo Valente 151ea25da48SPaolo Valente if (!group_entity) 152ea25da48SPaolo Valente group_entity = &bfqq->bfqd->root_group->entity; 153ea25da48SPaolo Valente 154ea25da48SPaolo Valente return container_of(group_entity, struct bfq_group, entity); 155ea25da48SPaolo Valente } 156ea25da48SPaolo Valente 157ea25da48SPaolo Valente /* 158ea25da48SPaolo Valente * Returns true if this budget changes may let next_in_service->parent 159ea25da48SPaolo Valente * become the next_in_service entity for its parent entity. 160ea25da48SPaolo Valente */ 161ea25da48SPaolo Valente static bool bfq_update_parent_budget(struct bfq_entity *next_in_service) 162ea25da48SPaolo Valente { 163ea25da48SPaolo Valente struct bfq_entity *bfqg_entity; 164ea25da48SPaolo Valente struct bfq_group *bfqg; 165ea25da48SPaolo Valente struct bfq_sched_data *group_sd; 166ea25da48SPaolo Valente bool ret = false; 167ea25da48SPaolo Valente 168ea25da48SPaolo Valente group_sd = next_in_service->sched_data; 169ea25da48SPaolo Valente 170ea25da48SPaolo Valente bfqg = container_of(group_sd, struct bfq_group, sched_data); 171ea25da48SPaolo Valente /* 172ea25da48SPaolo Valente * bfq_group's my_entity field is not NULL only if the group 173ea25da48SPaolo Valente * is not the root group. We must not touch the root entity 174ea25da48SPaolo Valente * as it must never become an in-service entity. 175ea25da48SPaolo Valente */ 176ea25da48SPaolo Valente bfqg_entity = bfqg->my_entity; 177ea25da48SPaolo Valente if (bfqg_entity) { 178ea25da48SPaolo Valente if (bfqg_entity->budget > next_in_service->budget) 179ea25da48SPaolo Valente ret = true; 180ea25da48SPaolo Valente bfqg_entity->budget = next_in_service->budget; 181ea25da48SPaolo Valente } 182ea25da48SPaolo Valente 183ea25da48SPaolo Valente return ret; 184ea25da48SPaolo Valente } 185ea25da48SPaolo Valente 186ea25da48SPaolo Valente /* 187ea25da48SPaolo Valente * This function tells whether entity stops being a candidate for next 18846d556e6SPaolo Valente * service, according to the restrictive definition of the field 18946d556e6SPaolo Valente * next_in_service. In particular, this function is invoked for an 19046d556e6SPaolo Valente * entity that is about to be set in service. 191ea25da48SPaolo Valente * 19246d556e6SPaolo Valente * If entity is a queue, then the entity is no longer a candidate for 19346d556e6SPaolo Valente * next service according to the that definition, because entity is 19446d556e6SPaolo Valente * about to become the in-service queue. This function then returns 19546d556e6SPaolo Valente * true if entity is a queue. 196ea25da48SPaolo Valente * 19746d556e6SPaolo Valente * In contrast, entity could still be a candidate for next service if 19846d556e6SPaolo Valente * it is not a queue, and has more than one active child. In fact, 19946d556e6SPaolo Valente * even if one of its children is about to be set in service, other 20046d556e6SPaolo Valente * active children may still be the next to serve, for the parent 20146d556e6SPaolo Valente * entity, even according to the above definition. As a consequence, a 20246d556e6SPaolo Valente * non-queue entity is not a candidate for next-service only if it has 20346d556e6SPaolo Valente * only one active child. And only if this condition holds, then this 20446d556e6SPaolo Valente * function returns true for a non-queue entity. 205ea25da48SPaolo Valente */ 206ea25da48SPaolo Valente static bool bfq_no_longer_next_in_service(struct bfq_entity *entity) 207ea25da48SPaolo Valente { 208ea25da48SPaolo Valente struct bfq_group *bfqg; 209ea25da48SPaolo Valente 210ea25da48SPaolo Valente if (bfq_entity_to_bfqq(entity)) 211ea25da48SPaolo Valente return true; 212ea25da48SPaolo Valente 213ea25da48SPaolo Valente bfqg = container_of(entity, struct bfq_group, entity); 214ea25da48SPaolo Valente 21546d556e6SPaolo Valente /* 21646d556e6SPaolo Valente * The field active_entities does not always contain the 21746d556e6SPaolo Valente * actual number of active children entities: it happens to 21846d556e6SPaolo Valente * not account for the in-service entity in case the latter is 21946d556e6SPaolo Valente * removed from its active tree (which may get done after 22046d556e6SPaolo Valente * invoking the function bfq_no_longer_next_in_service in 22146d556e6SPaolo Valente * bfq_get_next_queue). Fortunately, here, i.e., while 22246d556e6SPaolo Valente * bfq_no_longer_next_in_service is not yet completed in 22346d556e6SPaolo Valente * bfq_get_next_queue, bfq_active_extract has not yet been 22446d556e6SPaolo Valente * invoked, and thus active_entities still coincides with the 22546d556e6SPaolo Valente * actual number of active entities. 22646d556e6SPaolo Valente */ 227ea25da48SPaolo Valente if (bfqg->active_entities == 1) 228ea25da48SPaolo Valente return true; 229ea25da48SPaolo Valente 230ea25da48SPaolo Valente return false; 231ea25da48SPaolo Valente } 232ea25da48SPaolo Valente 233ea25da48SPaolo Valente #else /* CONFIG_BFQ_GROUP_IOSCHED */ 234ea25da48SPaolo Valente 235ea25da48SPaolo Valente struct bfq_group *bfq_bfqq_to_bfqg(struct bfq_queue *bfqq) 236ea25da48SPaolo Valente { 237ea25da48SPaolo Valente return bfqq->bfqd->root_group; 238ea25da48SPaolo Valente } 239ea25da48SPaolo Valente 240ea25da48SPaolo Valente static bool bfq_update_parent_budget(struct bfq_entity *next_in_service) 241ea25da48SPaolo Valente { 242ea25da48SPaolo Valente return false; 243ea25da48SPaolo Valente } 244ea25da48SPaolo Valente 245ea25da48SPaolo Valente static bool bfq_no_longer_next_in_service(struct bfq_entity *entity) 246ea25da48SPaolo Valente { 247ea25da48SPaolo Valente return true; 248ea25da48SPaolo Valente } 249ea25da48SPaolo Valente 250ea25da48SPaolo Valente #endif /* CONFIG_BFQ_GROUP_IOSCHED */ 251ea25da48SPaolo Valente 252ea25da48SPaolo Valente /* 253ea25da48SPaolo Valente * Shift for timestamp calculations. This actually limits the maximum 254ea25da48SPaolo Valente * service allowed in one timestamp delta (small shift values increase it), 255ea25da48SPaolo Valente * the maximum total weight that can be used for the queues in the system 256ea25da48SPaolo Valente * (big shift values increase it), and the period of virtual time 257ea25da48SPaolo Valente * wraparounds. 258ea25da48SPaolo Valente */ 259ea25da48SPaolo Valente #define WFQ_SERVICE_SHIFT 22 260ea25da48SPaolo Valente 261ea25da48SPaolo Valente struct bfq_queue *bfq_entity_to_bfqq(struct bfq_entity *entity) 262ea25da48SPaolo Valente { 263ea25da48SPaolo Valente struct bfq_queue *bfqq = NULL; 264ea25da48SPaolo Valente 265ea25da48SPaolo Valente if (!entity->my_sched_data) 266ea25da48SPaolo Valente bfqq = container_of(entity, struct bfq_queue, entity); 267ea25da48SPaolo Valente 268ea25da48SPaolo Valente return bfqq; 269ea25da48SPaolo Valente } 270ea25da48SPaolo Valente 271ea25da48SPaolo Valente 272ea25da48SPaolo Valente /** 273ea25da48SPaolo Valente * bfq_delta - map service into the virtual time domain. 274ea25da48SPaolo Valente * @service: amount of service. 275ea25da48SPaolo Valente * @weight: scale factor (weight of an entity or weight sum). 276ea25da48SPaolo Valente */ 277ea25da48SPaolo Valente static u64 bfq_delta(unsigned long service, unsigned long weight) 278ea25da48SPaolo Valente { 279ea25da48SPaolo Valente u64 d = (u64)service << WFQ_SERVICE_SHIFT; 280ea25da48SPaolo Valente 281ea25da48SPaolo Valente do_div(d, weight); 282ea25da48SPaolo Valente return d; 283ea25da48SPaolo Valente } 284ea25da48SPaolo Valente 285ea25da48SPaolo Valente /** 286ea25da48SPaolo Valente * bfq_calc_finish - assign the finish time to an entity. 287ea25da48SPaolo Valente * @entity: the entity to act upon. 288ea25da48SPaolo Valente * @service: the service to be charged to the entity. 289ea25da48SPaolo Valente */ 290ea25da48SPaolo Valente static void bfq_calc_finish(struct bfq_entity *entity, unsigned long service) 291ea25da48SPaolo Valente { 292ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 293ea25da48SPaolo Valente 294ea25da48SPaolo Valente entity->finish = entity->start + 295ea25da48SPaolo Valente bfq_delta(service, entity->weight); 296ea25da48SPaolo Valente 297ea25da48SPaolo Valente if (bfqq) { 298ea25da48SPaolo Valente bfq_log_bfqq(bfqq->bfqd, bfqq, 299ea25da48SPaolo Valente "calc_finish: serv %lu, w %d", 300ea25da48SPaolo Valente service, entity->weight); 301ea25da48SPaolo Valente bfq_log_bfqq(bfqq->bfqd, bfqq, 302ea25da48SPaolo Valente "calc_finish: start %llu, finish %llu, delta %llu", 303ea25da48SPaolo Valente entity->start, entity->finish, 304ea25da48SPaolo Valente bfq_delta(service, entity->weight)); 305ea25da48SPaolo Valente } 306ea25da48SPaolo Valente } 307ea25da48SPaolo Valente 308ea25da48SPaolo Valente /** 309ea25da48SPaolo Valente * bfq_entity_of - get an entity from a node. 310ea25da48SPaolo Valente * @node: the node field of the entity. 311ea25da48SPaolo Valente * 312ea25da48SPaolo Valente * Convert a node pointer to the relative entity. This is used only 313ea25da48SPaolo Valente * to simplify the logic of some functions and not as the generic 314ea25da48SPaolo Valente * conversion mechanism because, e.g., in the tree walking functions, 315ea25da48SPaolo Valente * the check for a %NULL value would be redundant. 316ea25da48SPaolo Valente */ 317ea25da48SPaolo Valente struct bfq_entity *bfq_entity_of(struct rb_node *node) 318ea25da48SPaolo Valente { 319ea25da48SPaolo Valente struct bfq_entity *entity = NULL; 320ea25da48SPaolo Valente 321ea25da48SPaolo Valente if (node) 322ea25da48SPaolo Valente entity = rb_entry(node, struct bfq_entity, rb_node); 323ea25da48SPaolo Valente 324ea25da48SPaolo Valente return entity; 325ea25da48SPaolo Valente } 326ea25da48SPaolo Valente 327ea25da48SPaolo Valente /** 328ea25da48SPaolo Valente * bfq_extract - remove an entity from a tree. 329ea25da48SPaolo Valente * @root: the tree root. 330ea25da48SPaolo Valente * @entity: the entity to remove. 331ea25da48SPaolo Valente */ 332ea25da48SPaolo Valente static void bfq_extract(struct rb_root *root, struct bfq_entity *entity) 333ea25da48SPaolo Valente { 334ea25da48SPaolo Valente entity->tree = NULL; 335ea25da48SPaolo Valente rb_erase(&entity->rb_node, root); 336ea25da48SPaolo Valente } 337ea25da48SPaolo Valente 338ea25da48SPaolo Valente /** 339ea25da48SPaolo Valente * bfq_idle_extract - extract an entity from the idle tree. 340ea25da48SPaolo Valente * @st: the service tree of the owning @entity. 341ea25da48SPaolo Valente * @entity: the entity being removed. 342ea25da48SPaolo Valente */ 343ea25da48SPaolo Valente static void bfq_idle_extract(struct bfq_service_tree *st, 344ea25da48SPaolo Valente struct bfq_entity *entity) 345ea25da48SPaolo Valente { 346ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 347ea25da48SPaolo Valente struct rb_node *next; 348ea25da48SPaolo Valente 349ea25da48SPaolo Valente if (entity == st->first_idle) { 350ea25da48SPaolo Valente next = rb_next(&entity->rb_node); 351ea25da48SPaolo Valente st->first_idle = bfq_entity_of(next); 352ea25da48SPaolo Valente } 353ea25da48SPaolo Valente 354ea25da48SPaolo Valente if (entity == st->last_idle) { 355ea25da48SPaolo Valente next = rb_prev(&entity->rb_node); 356ea25da48SPaolo Valente st->last_idle = bfq_entity_of(next); 357ea25da48SPaolo Valente } 358ea25da48SPaolo Valente 359ea25da48SPaolo Valente bfq_extract(&st->idle, entity); 360ea25da48SPaolo Valente 361ea25da48SPaolo Valente if (bfqq) 362ea25da48SPaolo Valente list_del(&bfqq->bfqq_list); 363ea25da48SPaolo Valente } 364ea25da48SPaolo Valente 365ea25da48SPaolo Valente /** 366ea25da48SPaolo Valente * bfq_insert - generic tree insertion. 367ea25da48SPaolo Valente * @root: tree root. 368ea25da48SPaolo Valente * @entity: entity to insert. 369ea25da48SPaolo Valente * 370ea25da48SPaolo Valente * This is used for the idle and the active tree, since they are both 371ea25da48SPaolo Valente * ordered by finish time. 372ea25da48SPaolo Valente */ 373ea25da48SPaolo Valente static void bfq_insert(struct rb_root *root, struct bfq_entity *entity) 374ea25da48SPaolo Valente { 375ea25da48SPaolo Valente struct bfq_entity *entry; 376ea25da48SPaolo Valente struct rb_node **node = &root->rb_node; 377ea25da48SPaolo Valente struct rb_node *parent = NULL; 378ea25da48SPaolo Valente 379ea25da48SPaolo Valente while (*node) { 380ea25da48SPaolo Valente parent = *node; 381ea25da48SPaolo Valente entry = rb_entry(parent, struct bfq_entity, rb_node); 382ea25da48SPaolo Valente 383ea25da48SPaolo Valente if (bfq_gt(entry->finish, entity->finish)) 384ea25da48SPaolo Valente node = &parent->rb_left; 385ea25da48SPaolo Valente else 386ea25da48SPaolo Valente node = &parent->rb_right; 387ea25da48SPaolo Valente } 388ea25da48SPaolo Valente 389ea25da48SPaolo Valente rb_link_node(&entity->rb_node, parent, node); 390ea25da48SPaolo Valente rb_insert_color(&entity->rb_node, root); 391ea25da48SPaolo Valente 392ea25da48SPaolo Valente entity->tree = root; 393ea25da48SPaolo Valente } 394ea25da48SPaolo Valente 395ea25da48SPaolo Valente /** 396ea25da48SPaolo Valente * bfq_update_min - update the min_start field of a entity. 397ea25da48SPaolo Valente * @entity: the entity to update. 398ea25da48SPaolo Valente * @node: one of its children. 399ea25da48SPaolo Valente * 400ea25da48SPaolo Valente * This function is called when @entity may store an invalid value for 401ea25da48SPaolo Valente * min_start due to updates to the active tree. The function assumes 402ea25da48SPaolo Valente * that the subtree rooted at @node (which may be its left or its right 403ea25da48SPaolo Valente * child) has a valid min_start value. 404ea25da48SPaolo Valente */ 405ea25da48SPaolo Valente static void bfq_update_min(struct bfq_entity *entity, struct rb_node *node) 406ea25da48SPaolo Valente { 407ea25da48SPaolo Valente struct bfq_entity *child; 408ea25da48SPaolo Valente 409ea25da48SPaolo Valente if (node) { 410ea25da48SPaolo Valente child = rb_entry(node, struct bfq_entity, rb_node); 411ea25da48SPaolo Valente if (bfq_gt(entity->min_start, child->min_start)) 412ea25da48SPaolo Valente entity->min_start = child->min_start; 413ea25da48SPaolo Valente } 414ea25da48SPaolo Valente } 415ea25da48SPaolo Valente 416ea25da48SPaolo Valente /** 417ea25da48SPaolo Valente * bfq_update_active_node - recalculate min_start. 418ea25da48SPaolo Valente * @node: the node to update. 419ea25da48SPaolo Valente * 420ea25da48SPaolo Valente * @node may have changed position or one of its children may have moved, 421ea25da48SPaolo Valente * this function updates its min_start value. The left and right subtrees 422ea25da48SPaolo Valente * are assumed to hold a correct min_start value. 423ea25da48SPaolo Valente */ 424ea25da48SPaolo Valente static void bfq_update_active_node(struct rb_node *node) 425ea25da48SPaolo Valente { 426ea25da48SPaolo Valente struct bfq_entity *entity = rb_entry(node, struct bfq_entity, rb_node); 427ea25da48SPaolo Valente 428ea25da48SPaolo Valente entity->min_start = entity->start; 429ea25da48SPaolo Valente bfq_update_min(entity, node->rb_right); 430ea25da48SPaolo Valente bfq_update_min(entity, node->rb_left); 431ea25da48SPaolo Valente } 432ea25da48SPaolo Valente 433ea25da48SPaolo Valente /** 434ea25da48SPaolo Valente * bfq_update_active_tree - update min_start for the whole active tree. 435ea25da48SPaolo Valente * @node: the starting node. 436ea25da48SPaolo Valente * 437ea25da48SPaolo Valente * @node must be the deepest modified node after an update. This function 438ea25da48SPaolo Valente * updates its min_start using the values held by its children, assuming 439ea25da48SPaolo Valente * that they did not change, and then updates all the nodes that may have 440ea25da48SPaolo Valente * changed in the path to the root. The only nodes that may have changed 441ea25da48SPaolo Valente * are the ones in the path or their siblings. 442ea25da48SPaolo Valente */ 443ea25da48SPaolo Valente static void bfq_update_active_tree(struct rb_node *node) 444ea25da48SPaolo Valente { 445ea25da48SPaolo Valente struct rb_node *parent; 446ea25da48SPaolo Valente 447ea25da48SPaolo Valente up: 448ea25da48SPaolo Valente bfq_update_active_node(node); 449ea25da48SPaolo Valente 450ea25da48SPaolo Valente parent = rb_parent(node); 451ea25da48SPaolo Valente if (!parent) 452ea25da48SPaolo Valente return; 453ea25da48SPaolo Valente 454ea25da48SPaolo Valente if (node == parent->rb_left && parent->rb_right) 455ea25da48SPaolo Valente bfq_update_active_node(parent->rb_right); 456ea25da48SPaolo Valente else if (parent->rb_left) 457ea25da48SPaolo Valente bfq_update_active_node(parent->rb_left); 458ea25da48SPaolo Valente 459ea25da48SPaolo Valente node = parent; 460ea25da48SPaolo Valente goto up; 461ea25da48SPaolo Valente } 462ea25da48SPaolo Valente 463ea25da48SPaolo Valente /** 464ea25da48SPaolo Valente * bfq_active_insert - insert an entity in the active tree of its 465ea25da48SPaolo Valente * group/device. 466ea25da48SPaolo Valente * @st: the service tree of the entity. 467ea25da48SPaolo Valente * @entity: the entity being inserted. 468ea25da48SPaolo Valente * 469ea25da48SPaolo Valente * The active tree is ordered by finish time, but an extra key is kept 470ea25da48SPaolo Valente * per each node, containing the minimum value for the start times of 471ea25da48SPaolo Valente * its children (and the node itself), so it's possible to search for 472ea25da48SPaolo Valente * the eligible node with the lowest finish time in logarithmic time. 473ea25da48SPaolo Valente */ 474ea25da48SPaolo Valente static void bfq_active_insert(struct bfq_service_tree *st, 475ea25da48SPaolo Valente struct bfq_entity *entity) 476ea25da48SPaolo Valente { 477ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 478ea25da48SPaolo Valente struct rb_node *node = &entity->rb_node; 479ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 480ea25da48SPaolo Valente struct bfq_sched_data *sd = NULL; 481ea25da48SPaolo Valente struct bfq_group *bfqg = NULL; 482ea25da48SPaolo Valente struct bfq_data *bfqd = NULL; 483ea25da48SPaolo Valente #endif 484ea25da48SPaolo Valente 485ea25da48SPaolo Valente bfq_insert(&st->active, entity); 486ea25da48SPaolo Valente 487ea25da48SPaolo Valente if (node->rb_left) 488ea25da48SPaolo Valente node = node->rb_left; 489ea25da48SPaolo Valente else if (node->rb_right) 490ea25da48SPaolo Valente node = node->rb_right; 491ea25da48SPaolo Valente 492ea25da48SPaolo Valente bfq_update_active_tree(node); 493ea25da48SPaolo Valente 494ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 495ea25da48SPaolo Valente sd = entity->sched_data; 496ea25da48SPaolo Valente bfqg = container_of(sd, struct bfq_group, sched_data); 497ea25da48SPaolo Valente bfqd = (struct bfq_data *)bfqg->bfqd; 498ea25da48SPaolo Valente #endif 499ea25da48SPaolo Valente if (bfqq) 500ea25da48SPaolo Valente list_add(&bfqq->bfqq_list, &bfqq->bfqd->active_list); 501ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 502ea25da48SPaolo Valente else /* bfq_group */ 503ea25da48SPaolo Valente bfq_weights_tree_add(bfqd, entity, &bfqd->group_weights_tree); 504ea25da48SPaolo Valente 505ea25da48SPaolo Valente if (bfqg != bfqd->root_group) 506ea25da48SPaolo Valente bfqg->active_entities++; 507ea25da48SPaolo Valente #endif 508ea25da48SPaolo Valente } 509ea25da48SPaolo Valente 510ea25da48SPaolo Valente /** 511ea25da48SPaolo Valente * bfq_ioprio_to_weight - calc a weight from an ioprio. 512ea25da48SPaolo Valente * @ioprio: the ioprio value to convert. 513ea25da48SPaolo Valente */ 514ea25da48SPaolo Valente unsigned short bfq_ioprio_to_weight(int ioprio) 515ea25da48SPaolo Valente { 516ea25da48SPaolo Valente return (IOPRIO_BE_NR - ioprio) * BFQ_WEIGHT_CONVERSION_COEFF; 517ea25da48SPaolo Valente } 518ea25da48SPaolo Valente 519ea25da48SPaolo Valente /** 520ea25da48SPaolo Valente * bfq_weight_to_ioprio - calc an ioprio from a weight. 521ea25da48SPaolo Valente * @weight: the weight value to convert. 522ea25da48SPaolo Valente * 523ea25da48SPaolo Valente * To preserve as much as possible the old only-ioprio user interface, 524ea25da48SPaolo Valente * 0 is used as an escape ioprio value for weights (numerically) equal or 525ea25da48SPaolo Valente * larger than IOPRIO_BE_NR * BFQ_WEIGHT_CONVERSION_COEFF. 526ea25da48SPaolo Valente */ 527ea25da48SPaolo Valente static unsigned short bfq_weight_to_ioprio(int weight) 528ea25da48SPaolo Valente { 529ea25da48SPaolo Valente return max_t(int, 0, 530ea25da48SPaolo Valente IOPRIO_BE_NR * BFQ_WEIGHT_CONVERSION_COEFF - weight); 531ea25da48SPaolo Valente } 532ea25da48SPaolo Valente 533ea25da48SPaolo Valente static void bfq_get_entity(struct bfq_entity *entity) 534ea25da48SPaolo Valente { 535ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 536ea25da48SPaolo Valente 537ea25da48SPaolo Valente if (bfqq) { 538ea25da48SPaolo Valente bfqq->ref++; 539ea25da48SPaolo Valente bfq_log_bfqq(bfqq->bfqd, bfqq, "get_entity: %p %d", 540ea25da48SPaolo Valente bfqq, bfqq->ref); 541ea25da48SPaolo Valente } 542ea25da48SPaolo Valente } 543ea25da48SPaolo Valente 544ea25da48SPaolo Valente /** 545ea25da48SPaolo Valente * bfq_find_deepest - find the deepest node that an extraction can modify. 546ea25da48SPaolo Valente * @node: the node being removed. 547ea25da48SPaolo Valente * 548ea25da48SPaolo Valente * Do the first step of an extraction in an rb tree, looking for the 549ea25da48SPaolo Valente * node that will replace @node, and returning the deepest node that 550ea25da48SPaolo Valente * the following modifications to the tree can touch. If @node is the 551ea25da48SPaolo Valente * last node in the tree return %NULL. 552ea25da48SPaolo Valente */ 553ea25da48SPaolo Valente static struct rb_node *bfq_find_deepest(struct rb_node *node) 554ea25da48SPaolo Valente { 555ea25da48SPaolo Valente struct rb_node *deepest; 556ea25da48SPaolo Valente 557ea25da48SPaolo Valente if (!node->rb_right && !node->rb_left) 558ea25da48SPaolo Valente deepest = rb_parent(node); 559ea25da48SPaolo Valente else if (!node->rb_right) 560ea25da48SPaolo Valente deepest = node->rb_left; 561ea25da48SPaolo Valente else if (!node->rb_left) 562ea25da48SPaolo Valente deepest = node->rb_right; 563ea25da48SPaolo Valente else { 564ea25da48SPaolo Valente deepest = rb_next(node); 565ea25da48SPaolo Valente if (deepest->rb_right) 566ea25da48SPaolo Valente deepest = deepest->rb_right; 567ea25da48SPaolo Valente else if (rb_parent(deepest) != node) 568ea25da48SPaolo Valente deepest = rb_parent(deepest); 569ea25da48SPaolo Valente } 570ea25da48SPaolo Valente 571ea25da48SPaolo Valente return deepest; 572ea25da48SPaolo Valente } 573ea25da48SPaolo Valente 574ea25da48SPaolo Valente /** 575ea25da48SPaolo Valente * bfq_active_extract - remove an entity from the active tree. 576ea25da48SPaolo Valente * @st: the service_tree containing the tree. 577ea25da48SPaolo Valente * @entity: the entity being removed. 578ea25da48SPaolo Valente */ 579ea25da48SPaolo Valente static void bfq_active_extract(struct bfq_service_tree *st, 580ea25da48SPaolo Valente struct bfq_entity *entity) 581ea25da48SPaolo Valente { 582ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 583ea25da48SPaolo Valente struct rb_node *node; 584ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 585ea25da48SPaolo Valente struct bfq_sched_data *sd = NULL; 586ea25da48SPaolo Valente struct bfq_group *bfqg = NULL; 587ea25da48SPaolo Valente struct bfq_data *bfqd = NULL; 588ea25da48SPaolo Valente #endif 589ea25da48SPaolo Valente 590ea25da48SPaolo Valente node = bfq_find_deepest(&entity->rb_node); 591ea25da48SPaolo Valente bfq_extract(&st->active, entity); 592ea25da48SPaolo Valente 593ea25da48SPaolo Valente if (node) 594ea25da48SPaolo Valente bfq_update_active_tree(node); 595ea25da48SPaolo Valente 596ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 597ea25da48SPaolo Valente sd = entity->sched_data; 598ea25da48SPaolo Valente bfqg = container_of(sd, struct bfq_group, sched_data); 599ea25da48SPaolo Valente bfqd = (struct bfq_data *)bfqg->bfqd; 600ea25da48SPaolo Valente #endif 601ea25da48SPaolo Valente if (bfqq) 602ea25da48SPaolo Valente list_del(&bfqq->bfqq_list); 603ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 604ea25da48SPaolo Valente else /* bfq_group */ 605ea25da48SPaolo Valente bfq_weights_tree_remove(bfqd, entity, 606ea25da48SPaolo Valente &bfqd->group_weights_tree); 607ea25da48SPaolo Valente 608ea25da48SPaolo Valente if (bfqg != bfqd->root_group) 609ea25da48SPaolo Valente bfqg->active_entities--; 610ea25da48SPaolo Valente #endif 611ea25da48SPaolo Valente } 612ea25da48SPaolo Valente 613ea25da48SPaolo Valente /** 614ea25da48SPaolo Valente * bfq_idle_insert - insert an entity into the idle tree. 615ea25da48SPaolo Valente * @st: the service tree containing the tree. 616ea25da48SPaolo Valente * @entity: the entity to insert. 617ea25da48SPaolo Valente */ 618ea25da48SPaolo Valente static void bfq_idle_insert(struct bfq_service_tree *st, 619ea25da48SPaolo Valente struct bfq_entity *entity) 620ea25da48SPaolo Valente { 621ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 622ea25da48SPaolo Valente struct bfq_entity *first_idle = st->first_idle; 623ea25da48SPaolo Valente struct bfq_entity *last_idle = st->last_idle; 624ea25da48SPaolo Valente 625ea25da48SPaolo Valente if (!first_idle || bfq_gt(first_idle->finish, entity->finish)) 626ea25da48SPaolo Valente st->first_idle = entity; 627ea25da48SPaolo Valente if (!last_idle || bfq_gt(entity->finish, last_idle->finish)) 628ea25da48SPaolo Valente st->last_idle = entity; 629ea25da48SPaolo Valente 630ea25da48SPaolo Valente bfq_insert(&st->idle, entity); 631ea25da48SPaolo Valente 632ea25da48SPaolo Valente if (bfqq) 633ea25da48SPaolo Valente list_add(&bfqq->bfqq_list, &bfqq->bfqd->idle_list); 634ea25da48SPaolo Valente } 635ea25da48SPaolo Valente 636ea25da48SPaolo Valente /** 637ea25da48SPaolo Valente * bfq_forget_entity - do not consider entity any longer for scheduling 638ea25da48SPaolo Valente * @st: the service tree. 639ea25da48SPaolo Valente * @entity: the entity being removed. 640ea25da48SPaolo Valente * @is_in_service: true if entity is currently the in-service entity. 641ea25da48SPaolo Valente * 642ea25da48SPaolo Valente * Forget everything about @entity. In addition, if entity represents 643ea25da48SPaolo Valente * a queue, and the latter is not in service, then release the service 644ea25da48SPaolo Valente * reference to the queue (the one taken through bfq_get_entity). In 645ea25da48SPaolo Valente * fact, in this case, there is really no more service reference to 646ea25da48SPaolo Valente * the queue, as the latter is also outside any service tree. If, 647ea25da48SPaolo Valente * instead, the queue is in service, then __bfq_bfqd_reset_in_service 648ea25da48SPaolo Valente * will take care of putting the reference when the queue finally 649ea25da48SPaolo Valente * stops being served. 650ea25da48SPaolo Valente */ 651ea25da48SPaolo Valente static void bfq_forget_entity(struct bfq_service_tree *st, 652ea25da48SPaolo Valente struct bfq_entity *entity, 653ea25da48SPaolo Valente bool is_in_service) 654ea25da48SPaolo Valente { 655ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 656ea25da48SPaolo Valente 657ea25da48SPaolo Valente entity->on_st = false; 658ea25da48SPaolo Valente st->wsum -= entity->weight; 659ea25da48SPaolo Valente if (bfqq && !is_in_service) 660ea25da48SPaolo Valente bfq_put_queue(bfqq); 661ea25da48SPaolo Valente } 662ea25da48SPaolo Valente 663ea25da48SPaolo Valente /** 664ea25da48SPaolo Valente * bfq_put_idle_entity - release the idle tree ref of an entity. 665ea25da48SPaolo Valente * @st: service tree for the entity. 666ea25da48SPaolo Valente * @entity: the entity being released. 667ea25da48SPaolo Valente */ 668ea25da48SPaolo Valente void bfq_put_idle_entity(struct bfq_service_tree *st, struct bfq_entity *entity) 669ea25da48SPaolo Valente { 670ea25da48SPaolo Valente bfq_idle_extract(st, entity); 671ea25da48SPaolo Valente bfq_forget_entity(st, entity, 672ea25da48SPaolo Valente entity == entity->sched_data->in_service_entity); 673ea25da48SPaolo Valente } 674ea25da48SPaolo Valente 675ea25da48SPaolo Valente /** 676ea25da48SPaolo Valente * bfq_forget_idle - update the idle tree if necessary. 677ea25da48SPaolo Valente * @st: the service tree to act upon. 678ea25da48SPaolo Valente * 679ea25da48SPaolo Valente * To preserve the global O(log N) complexity we only remove one entry here; 680ea25da48SPaolo Valente * as the idle tree will not grow indefinitely this can be done safely. 681ea25da48SPaolo Valente */ 682ea25da48SPaolo Valente static void bfq_forget_idle(struct bfq_service_tree *st) 683ea25da48SPaolo Valente { 684ea25da48SPaolo Valente struct bfq_entity *first_idle = st->first_idle; 685ea25da48SPaolo Valente struct bfq_entity *last_idle = st->last_idle; 686ea25da48SPaolo Valente 687ea25da48SPaolo Valente if (RB_EMPTY_ROOT(&st->active) && last_idle && 688ea25da48SPaolo Valente !bfq_gt(last_idle->finish, st->vtime)) { 689ea25da48SPaolo Valente /* 690ea25da48SPaolo Valente * Forget the whole idle tree, increasing the vtime past 691ea25da48SPaolo Valente * the last finish time of idle entities. 692ea25da48SPaolo Valente */ 693ea25da48SPaolo Valente st->vtime = last_idle->finish; 694ea25da48SPaolo Valente } 695ea25da48SPaolo Valente 696ea25da48SPaolo Valente if (first_idle && !bfq_gt(first_idle->finish, st->vtime)) 697ea25da48SPaolo Valente bfq_put_idle_entity(st, first_idle); 698ea25da48SPaolo Valente } 699ea25da48SPaolo Valente 700ea25da48SPaolo Valente struct bfq_service_tree *bfq_entity_service_tree(struct bfq_entity *entity) 701ea25da48SPaolo Valente { 702ea25da48SPaolo Valente struct bfq_sched_data *sched_data = entity->sched_data; 703ea25da48SPaolo Valente unsigned int idx = bfq_class_idx(entity); 704ea25da48SPaolo Valente 705ea25da48SPaolo Valente return sched_data->service_tree + idx; 706ea25da48SPaolo Valente } 707ea25da48SPaolo Valente 708431b17f9SPaolo Valente /* 709431b17f9SPaolo Valente * Update weight and priority of entity. If update_class_too is true, 710431b17f9SPaolo Valente * then update the ioprio_class of entity too. 711431b17f9SPaolo Valente * 712431b17f9SPaolo Valente * The reason why the update of ioprio_class is controlled through the 713431b17f9SPaolo Valente * last parameter is as follows. Changing the ioprio class of an 714431b17f9SPaolo Valente * entity implies changing the destination service trees for that 715431b17f9SPaolo Valente * entity. If such a change occurred when the entity is already on one 716431b17f9SPaolo Valente * of the service trees for its previous class, then the state of the 717431b17f9SPaolo Valente * entity would become more complex: none of the new possible service 718431b17f9SPaolo Valente * trees for the entity, according to bfq_entity_service_tree(), would 719431b17f9SPaolo Valente * match any of the possible service trees on which the entity 720431b17f9SPaolo Valente * is. Complex operations involving these trees, such as entity 721431b17f9SPaolo Valente * activations and deactivations, should take into account this 722431b17f9SPaolo Valente * additional complexity. To avoid this issue, this function is 723431b17f9SPaolo Valente * invoked with update_class_too unset in the points in the code where 724431b17f9SPaolo Valente * entity may happen to be on some tree. 725431b17f9SPaolo Valente */ 726ea25da48SPaolo Valente struct bfq_service_tree * 727ea25da48SPaolo Valente __bfq_entity_update_weight_prio(struct bfq_service_tree *old_st, 728431b17f9SPaolo Valente struct bfq_entity *entity, 729431b17f9SPaolo Valente bool update_class_too) 730ea25da48SPaolo Valente { 731ea25da48SPaolo Valente struct bfq_service_tree *new_st = old_st; 732ea25da48SPaolo Valente 733ea25da48SPaolo Valente if (entity->prio_changed) { 734ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 735ea25da48SPaolo Valente unsigned int prev_weight, new_weight; 736ea25da48SPaolo Valente struct bfq_data *bfqd = NULL; 737ea25da48SPaolo Valente struct rb_root *root; 738ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 739ea25da48SPaolo Valente struct bfq_sched_data *sd; 740ea25da48SPaolo Valente struct bfq_group *bfqg; 741ea25da48SPaolo Valente #endif 742ea25da48SPaolo Valente 743ea25da48SPaolo Valente if (bfqq) 744ea25da48SPaolo Valente bfqd = bfqq->bfqd; 745ea25da48SPaolo Valente #ifdef CONFIG_BFQ_GROUP_IOSCHED 746ea25da48SPaolo Valente else { 747ea25da48SPaolo Valente sd = entity->my_sched_data; 748ea25da48SPaolo Valente bfqg = container_of(sd, struct bfq_group, sched_data); 749ea25da48SPaolo Valente bfqd = (struct bfq_data *)bfqg->bfqd; 750ea25da48SPaolo Valente } 751ea25da48SPaolo Valente #endif 752ea25da48SPaolo Valente 753ea25da48SPaolo Valente old_st->wsum -= entity->weight; 754ea25da48SPaolo Valente 755ea25da48SPaolo Valente if (entity->new_weight != entity->orig_weight) { 756ea25da48SPaolo Valente if (entity->new_weight < BFQ_MIN_WEIGHT || 757ea25da48SPaolo Valente entity->new_weight > BFQ_MAX_WEIGHT) { 758ea25da48SPaolo Valente pr_crit("update_weight_prio: new_weight %d\n", 759ea25da48SPaolo Valente entity->new_weight); 760ea25da48SPaolo Valente if (entity->new_weight < BFQ_MIN_WEIGHT) 761ea25da48SPaolo Valente entity->new_weight = BFQ_MIN_WEIGHT; 762ea25da48SPaolo Valente else 763ea25da48SPaolo Valente entity->new_weight = BFQ_MAX_WEIGHT; 764ea25da48SPaolo Valente } 765ea25da48SPaolo Valente entity->orig_weight = entity->new_weight; 766ea25da48SPaolo Valente if (bfqq) 767ea25da48SPaolo Valente bfqq->ioprio = 768ea25da48SPaolo Valente bfq_weight_to_ioprio(entity->orig_weight); 769ea25da48SPaolo Valente } 770ea25da48SPaolo Valente 771431b17f9SPaolo Valente if (bfqq && update_class_too) 772ea25da48SPaolo Valente bfqq->ioprio_class = bfqq->new_ioprio_class; 773431b17f9SPaolo Valente 774431b17f9SPaolo Valente /* 775431b17f9SPaolo Valente * Reset prio_changed only if the ioprio_class change 776431b17f9SPaolo Valente * is not pending any longer. 777431b17f9SPaolo Valente */ 778431b17f9SPaolo Valente if (!bfqq || bfqq->ioprio_class == bfqq->new_ioprio_class) 779ea25da48SPaolo Valente entity->prio_changed = 0; 780ea25da48SPaolo Valente 781ea25da48SPaolo Valente /* 782ea25da48SPaolo Valente * NOTE: here we may be changing the weight too early, 783ea25da48SPaolo Valente * this will cause unfairness. The correct approach 784ea25da48SPaolo Valente * would have required additional complexity to defer 785ea25da48SPaolo Valente * weight changes to the proper time instants (i.e., 786ea25da48SPaolo Valente * when entity->finish <= old_st->vtime). 787ea25da48SPaolo Valente */ 788ea25da48SPaolo Valente new_st = bfq_entity_service_tree(entity); 789ea25da48SPaolo Valente 790ea25da48SPaolo Valente prev_weight = entity->weight; 791ea25da48SPaolo Valente new_weight = entity->orig_weight * 792ea25da48SPaolo Valente (bfqq ? bfqq->wr_coeff : 1); 793ea25da48SPaolo Valente /* 794ea25da48SPaolo Valente * If the weight of the entity changes, remove the entity 795ea25da48SPaolo Valente * from its old weight counter (if there is a counter 796ea25da48SPaolo Valente * associated with the entity), and add it to the counter 797ea25da48SPaolo Valente * associated with its new weight. 798ea25da48SPaolo Valente */ 799ea25da48SPaolo Valente if (prev_weight != new_weight) { 800ea25da48SPaolo Valente root = bfqq ? &bfqd->queue_weights_tree : 801ea25da48SPaolo Valente &bfqd->group_weights_tree; 802ea25da48SPaolo Valente bfq_weights_tree_remove(bfqd, entity, root); 803ea25da48SPaolo Valente } 804ea25da48SPaolo Valente entity->weight = new_weight; 805ea25da48SPaolo Valente /* 806ea25da48SPaolo Valente * Add the entity to its weights tree only if it is 807ea25da48SPaolo Valente * not associated with a weight-raised queue. 808ea25da48SPaolo Valente */ 809ea25da48SPaolo Valente if (prev_weight != new_weight && 810ea25da48SPaolo Valente (bfqq ? bfqq->wr_coeff == 1 : 1)) 811ea25da48SPaolo Valente /* If we get here, root has been initialized. */ 812ea25da48SPaolo Valente bfq_weights_tree_add(bfqd, entity, root); 813ea25da48SPaolo Valente 814ea25da48SPaolo Valente new_st->wsum += entity->weight; 815ea25da48SPaolo Valente 816ea25da48SPaolo Valente if (new_st != old_st) 817ea25da48SPaolo Valente entity->start = new_st->vtime; 818ea25da48SPaolo Valente } 819ea25da48SPaolo Valente 820ea25da48SPaolo Valente return new_st; 821ea25da48SPaolo Valente } 822ea25da48SPaolo Valente 823ea25da48SPaolo Valente /** 824ea25da48SPaolo Valente * bfq_bfqq_served - update the scheduler status after selection for 825ea25da48SPaolo Valente * service. 826ea25da48SPaolo Valente * @bfqq: the queue being served. 827ea25da48SPaolo Valente * @served: bytes to transfer. 828ea25da48SPaolo Valente * 829ea25da48SPaolo Valente * NOTE: this can be optimized, as the timestamps of upper level entities 830ea25da48SPaolo Valente * are synchronized every time a new bfqq is selected for service. By now, 831ea25da48SPaolo Valente * we keep it to better check consistency. 832ea25da48SPaolo Valente */ 833ea25da48SPaolo Valente void bfq_bfqq_served(struct bfq_queue *bfqq, int served) 834ea25da48SPaolo Valente { 835ea25da48SPaolo Valente struct bfq_entity *entity = &bfqq->entity; 836ea25da48SPaolo Valente struct bfq_service_tree *st; 837ea25da48SPaolo Valente 8387b8fa3b9SPaolo Valente if (!bfqq->service_from_backlogged) 8397b8fa3b9SPaolo Valente bfqq->first_IO_time = jiffies; 8407b8fa3b9SPaolo Valente 841*8a8747dcSPaolo Valente if (bfqq->wr_coeff > 1) 842*8a8747dcSPaolo Valente bfqq->service_from_wr += served; 843*8a8747dcSPaolo Valente 8447b8fa3b9SPaolo Valente bfqq->service_from_backlogged += served; 845ea25da48SPaolo Valente for_each_entity(entity) { 846ea25da48SPaolo Valente st = bfq_entity_service_tree(entity); 847ea25da48SPaolo Valente 848ea25da48SPaolo Valente entity->service += served; 849ea25da48SPaolo Valente 850ea25da48SPaolo Valente st->vtime += bfq_delta(served, st->wsum); 851ea25da48SPaolo Valente bfq_forget_idle(st); 852ea25da48SPaolo Valente } 853ea25da48SPaolo Valente bfq_log_bfqq(bfqq->bfqd, bfqq, "bfqq_served %d secs", served); 854ea25da48SPaolo Valente } 855ea25da48SPaolo Valente 856ea25da48SPaolo Valente /** 857ea25da48SPaolo Valente * bfq_bfqq_charge_time - charge an amount of service equivalent to the length 858ea25da48SPaolo Valente * of the time interval during which bfqq has been in 859ea25da48SPaolo Valente * service. 860ea25da48SPaolo Valente * @bfqd: the device 861ea25da48SPaolo Valente * @bfqq: the queue that needs a service update. 862ea25da48SPaolo Valente * @time_ms: the amount of time during which the queue has received service 863ea25da48SPaolo Valente * 864ea25da48SPaolo Valente * If a queue does not consume its budget fast enough, then providing 865ea25da48SPaolo Valente * the queue with service fairness may impair throughput, more or less 866ea25da48SPaolo Valente * severely. For this reason, queues that consume their budget slowly 867ea25da48SPaolo Valente * are provided with time fairness instead of service fairness. This 868ea25da48SPaolo Valente * goal is achieved through the BFQ scheduling engine, even if such an 869ea25da48SPaolo Valente * engine works in the service, and not in the time domain. The trick 870ea25da48SPaolo Valente * is charging these queues with an inflated amount of service, equal 871ea25da48SPaolo Valente * to the amount of service that they would have received during their 872ea25da48SPaolo Valente * service slot if they had been fast, i.e., if their requests had 873ea25da48SPaolo Valente * been dispatched at a rate equal to the estimated peak rate. 874ea25da48SPaolo Valente * 875ea25da48SPaolo Valente * It is worth noting that time fairness can cause important 876ea25da48SPaolo Valente * distortions in terms of bandwidth distribution, on devices with 877ea25da48SPaolo Valente * internal queueing. The reason is that I/O requests dispatched 878ea25da48SPaolo Valente * during the service slot of a queue may be served after that service 879ea25da48SPaolo Valente * slot is finished, and may have a total processing time loosely 880ea25da48SPaolo Valente * correlated with the duration of the service slot. This is 881ea25da48SPaolo Valente * especially true for short service slots. 882ea25da48SPaolo Valente */ 883ea25da48SPaolo Valente void bfq_bfqq_charge_time(struct bfq_data *bfqd, struct bfq_queue *bfqq, 884ea25da48SPaolo Valente unsigned long time_ms) 885ea25da48SPaolo Valente { 886ea25da48SPaolo Valente struct bfq_entity *entity = &bfqq->entity; 887ea25da48SPaolo Valente int tot_serv_to_charge = entity->service; 888ea25da48SPaolo Valente unsigned int timeout_ms = jiffies_to_msecs(bfq_timeout); 889ea25da48SPaolo Valente 890ea25da48SPaolo Valente if (time_ms > 0 && time_ms < timeout_ms) 891ea25da48SPaolo Valente tot_serv_to_charge = 892ea25da48SPaolo Valente (bfqd->bfq_max_budget * time_ms) / timeout_ms; 893ea25da48SPaolo Valente 894ea25da48SPaolo Valente if (tot_serv_to_charge < entity->service) 895ea25da48SPaolo Valente tot_serv_to_charge = entity->service; 896ea25da48SPaolo Valente 897ea25da48SPaolo Valente /* Increase budget to avoid inconsistencies */ 898ea25da48SPaolo Valente if (tot_serv_to_charge > entity->budget) 899ea25da48SPaolo Valente entity->budget = tot_serv_to_charge; 900ea25da48SPaolo Valente 901ea25da48SPaolo Valente bfq_bfqq_served(bfqq, 902ea25da48SPaolo Valente max_t(int, 0, tot_serv_to_charge - entity->service)); 903ea25da48SPaolo Valente } 904ea25da48SPaolo Valente 905ea25da48SPaolo Valente static void bfq_update_fin_time_enqueue(struct bfq_entity *entity, 906ea25da48SPaolo Valente struct bfq_service_tree *st, 907ea25da48SPaolo Valente bool backshifted) 908ea25da48SPaolo Valente { 909ea25da48SPaolo Valente struct bfq_queue *bfqq = bfq_entity_to_bfqq(entity); 910ea25da48SPaolo Valente 911431b17f9SPaolo Valente /* 912431b17f9SPaolo Valente * When this function is invoked, entity is not in any service 913431b17f9SPaolo Valente * tree, then it is safe to invoke next function with the last 914431b17f9SPaolo Valente * parameter set (see the comments on the function). 915431b17f9SPaolo Valente */ 916431b17f9SPaolo Valente st = __bfq_entity_update_weight_prio(st, entity, true); 917ea25da48SPaolo Valente bfq_calc_finish(entity, entity->budget); 918ea25da48SPaolo Valente 919ea25da48SPaolo Valente /* 920ea25da48SPaolo Valente * If some queues enjoy backshifting for a while, then their 921ea25da48SPaolo Valente * (virtual) finish timestamps may happen to become lower and 922ea25da48SPaolo Valente * lower than the system virtual time. In particular, if 923ea25da48SPaolo Valente * these queues often happen to be idle for short time 924ea25da48SPaolo Valente * periods, and during such time periods other queues with 925ea25da48SPaolo Valente * higher timestamps happen to be busy, then the backshifted 926ea25da48SPaolo Valente * timestamps of the former queues can become much lower than 927ea25da48SPaolo Valente * the system virtual time. In fact, to serve the queues with 928ea25da48SPaolo Valente * higher timestamps while the ones with lower timestamps are 929ea25da48SPaolo Valente * idle, the system virtual time may be pushed-up to much 930ea25da48SPaolo Valente * higher values than the finish timestamps of the idle 931ea25da48SPaolo Valente * queues. As a consequence, the finish timestamps of all new 932ea25da48SPaolo Valente * or newly activated queues may end up being much larger than 933ea25da48SPaolo Valente * those of lucky queues with backshifted timestamps. The 934ea25da48SPaolo Valente * latter queues may then monopolize the device for a lot of 935ea25da48SPaolo Valente * time. This would simply break service guarantees. 936ea25da48SPaolo Valente * 937ea25da48SPaolo Valente * To reduce this problem, push up a little bit the 938ea25da48SPaolo Valente * backshifted timestamps of the queue associated with this 939ea25da48SPaolo Valente * entity (only a queue can happen to have the backshifted 940ea25da48SPaolo Valente * flag set): just enough to let the finish timestamp of the 941ea25da48SPaolo Valente * queue be equal to the current value of the system virtual 942ea25da48SPaolo Valente * time. This may introduce a little unfairness among queues 943ea25da48SPaolo Valente * with backshifted timestamps, but it does not break 944ea25da48SPaolo Valente * worst-case fairness guarantees. 945ea25da48SPaolo Valente * 946ea25da48SPaolo Valente * As a special case, if bfqq is weight-raised, push up 947ea25da48SPaolo Valente * timestamps much less, to keep very low the probability that 948ea25da48SPaolo Valente * this push up causes the backshifted finish timestamps of 949ea25da48SPaolo Valente * weight-raised queues to become higher than the backshifted 950ea25da48SPaolo Valente * finish timestamps of non weight-raised queues. 951ea25da48SPaolo Valente */ 952ea25da48SPaolo Valente if (backshifted && bfq_gt(st->vtime, entity->finish)) { 953ea25da48SPaolo Valente unsigned long delta = st->vtime - entity->finish; 954ea25da48SPaolo Valente 955ea25da48SPaolo Valente if (bfqq) 956ea25da48SPaolo Valente delta /= bfqq->wr_coeff; 957ea25da48SPaolo Valente 958ea25da48SPaolo Valente entity->start += delta; 959ea25da48SPaolo Valente entity->finish += delta; 960ea25da48SPaolo Valente } 961ea25da48SPaolo Valente 962ea25da48SPaolo Valente bfq_active_insert(st, entity); 963ea25da48SPaolo Valente } 964ea25da48SPaolo Valente 965ea25da48SPaolo Valente /** 966ea25da48SPaolo Valente * __bfq_activate_entity - handle activation of entity. 967ea25da48SPaolo Valente * @entity: the entity being activated. 968ea25da48SPaolo Valente * @non_blocking_wait_rq: true if entity was waiting for a request 969ea25da48SPaolo Valente * 970ea25da48SPaolo Valente * Called for a 'true' activation, i.e., if entity is not active and 971ea25da48SPaolo Valente * one of its children receives a new request. 972ea25da48SPaolo Valente * 973ea25da48SPaolo Valente * Basically, this function updates the timestamps of entity and 97446d556e6SPaolo Valente * inserts entity into its active tree, ater possibly extracting it 975ea25da48SPaolo Valente * from its idle tree. 976ea25da48SPaolo Valente */ 977ea25da48SPaolo Valente static void __bfq_activate_entity(struct bfq_entity *entity, 978ea25da48SPaolo Valente bool non_blocking_wait_rq) 979ea25da48SPaolo Valente { 980ea25da48SPaolo Valente struct bfq_service_tree *st = bfq_entity_service_tree(entity); 981ea25da48SPaolo Valente bool backshifted = false; 982ea25da48SPaolo Valente unsigned long long min_vstart; 983ea25da48SPaolo Valente 984ea25da48SPaolo Valente /* See comments on bfq_fqq_update_budg_for_activation */ 985ea25da48SPaolo Valente if (non_blocking_wait_rq && bfq_gt(st->vtime, entity->finish)) { 986ea25da48SPaolo Valente backshifted = true; 987ea25da48SPaolo Valente min_vstart = entity->finish; 988ea25da48SPaolo Valente } else 989ea25da48SPaolo Valente min_vstart = st->vtime; 990ea25da48SPaolo Valente 991ea25da48SPaolo Valente if (entity->tree == &st->idle) { 992ea25da48SPaolo Valente /* 993ea25da48SPaolo Valente * Must be on the idle tree, bfq_idle_extract() will 994ea25da48SPaolo Valente * check for that. 995ea25da48SPaolo Valente */ 996ea25da48SPaolo Valente bfq_idle_extract(st, entity); 997ea25da48SPaolo Valente entity->start = bfq_gt(min_vstart, entity->finish) ? 998ea25da48SPaolo Valente min_vstart : entity->finish; 999ea25da48SPaolo Valente } else { 1000ea25da48SPaolo Valente /* 1001ea25da48SPaolo Valente * The finish time of the entity may be invalid, and 1002ea25da48SPaolo Valente * it is in the past for sure, otherwise the queue 1003ea25da48SPaolo Valente * would have been on the idle tree. 1004ea25da48SPaolo Valente */ 1005ea25da48SPaolo Valente entity->start = min_vstart; 1006ea25da48SPaolo Valente st->wsum += entity->weight; 1007ea25da48SPaolo Valente /* 1008ea25da48SPaolo Valente * entity is about to be inserted into a service tree, 1009ea25da48SPaolo Valente * and then set in service: get a reference to make 1010ea25da48SPaolo Valente * sure entity does not disappear until it is no 1011ea25da48SPaolo Valente * longer in service or scheduled for service. 1012ea25da48SPaolo Valente */ 1013ea25da48SPaolo Valente bfq_get_entity(entity); 1014ea25da48SPaolo Valente 1015ea25da48SPaolo Valente entity->on_st = true; 1016ea25da48SPaolo Valente } 1017ea25da48SPaolo Valente 1018ea25da48SPaolo Valente bfq_update_fin_time_enqueue(entity, st, backshifted); 1019ea25da48SPaolo Valente } 1020ea25da48SPaolo Valente 1021ea25da48SPaolo Valente /** 1022ea25da48SPaolo Valente * __bfq_requeue_entity - handle requeueing or repositioning of an entity. 1023ea25da48SPaolo Valente * @entity: the entity being requeued or repositioned. 1024ea25da48SPaolo Valente * 1025ea25da48SPaolo Valente * Requeueing is needed if this entity stops being served, which 1026ea25da48SPaolo Valente * happens if a leaf descendant entity has expired. On the other hand, 1027ea25da48SPaolo Valente * repositioning is needed if the next_inservice_entity for the child 1028ea25da48SPaolo Valente * entity has changed. See the comments inside the function for 1029ea25da48SPaolo Valente * details. 1030ea25da48SPaolo Valente * 1031ea25da48SPaolo Valente * Basically, this function: 1) removes entity from its active tree if 1032ea25da48SPaolo Valente * present there, 2) updates the timestamps of entity and 3) inserts 1033ea25da48SPaolo Valente * entity back into its active tree (in the new, right position for 1034ea25da48SPaolo Valente * the new values of the timestamps). 1035ea25da48SPaolo Valente */ 1036ea25da48SPaolo Valente static void __bfq_requeue_entity(struct bfq_entity *entity) 1037ea25da48SPaolo Valente { 1038ea25da48SPaolo Valente struct bfq_sched_data *sd = entity->sched_data; 1039ea25da48SPaolo Valente struct bfq_service_tree *st = bfq_entity_service_tree(entity); 1040ea25da48SPaolo Valente 1041ea25da48SPaolo Valente if (entity == sd->in_service_entity) { 1042ea25da48SPaolo Valente /* 1043ea25da48SPaolo Valente * We are requeueing the current in-service entity, 1044ea25da48SPaolo Valente * which may have to be done for one of the following 1045ea25da48SPaolo Valente * reasons: 1046ea25da48SPaolo Valente * - entity represents the in-service queue, and the 1047ea25da48SPaolo Valente * in-service queue is being requeued after an 1048ea25da48SPaolo Valente * expiration; 1049ea25da48SPaolo Valente * - entity represents a group, and its budget has 1050ea25da48SPaolo Valente * changed because one of its child entities has 1051ea25da48SPaolo Valente * just been either activated or requeued for some 1052ea25da48SPaolo Valente * reason; the timestamps of the entity need then to 1053ea25da48SPaolo Valente * be updated, and the entity needs to be enqueued 1054ea25da48SPaolo Valente * or repositioned accordingly. 1055ea25da48SPaolo Valente * 1056ea25da48SPaolo Valente * In particular, before requeueing, the start time of 1057ea25da48SPaolo Valente * the entity must be moved forward to account for the 1058ea25da48SPaolo Valente * service that the entity has received while in 1059ea25da48SPaolo Valente * service. This is done by the next instructions. The 1060ea25da48SPaolo Valente * finish time will then be updated according to this 1061ea25da48SPaolo Valente * new value of the start time, and to the budget of 1062ea25da48SPaolo Valente * the entity. 1063ea25da48SPaolo Valente */ 1064ea25da48SPaolo Valente bfq_calc_finish(entity, entity->service); 1065ea25da48SPaolo Valente entity->start = entity->finish; 1066ea25da48SPaolo Valente /* 1067ea25da48SPaolo Valente * In addition, if the entity had more than one child 106846d556e6SPaolo Valente * when set in service, then it was not extracted from 1069ea25da48SPaolo Valente * the active tree. This implies that the position of 1070ea25da48SPaolo Valente * the entity in the active tree may need to be 1071ea25da48SPaolo Valente * changed now, because we have just updated the start 1072ea25da48SPaolo Valente * time of the entity, and we will update its finish 1073ea25da48SPaolo Valente * time in a moment (the requeueing is then, more 1074ea25da48SPaolo Valente * precisely, a repositioning in this case). To 1075ea25da48SPaolo Valente * implement this repositioning, we: 1) dequeue the 107646d556e6SPaolo Valente * entity here, 2) update the finish time and requeue 107746d556e6SPaolo Valente * the entity according to the new timestamps below. 1078ea25da48SPaolo Valente */ 1079ea25da48SPaolo Valente if (entity->tree) 1080ea25da48SPaolo Valente bfq_active_extract(st, entity); 1081ea25da48SPaolo Valente } else { /* The entity is already active, and not in service */ 1082ea25da48SPaolo Valente /* 1083ea25da48SPaolo Valente * In this case, this function gets called only if the 1084ea25da48SPaolo Valente * next_in_service entity below this entity has 1085ea25da48SPaolo Valente * changed, and this change has caused the budget of 1086ea25da48SPaolo Valente * this entity to change, which, finally implies that 1087ea25da48SPaolo Valente * the finish time of this entity must be 1088ea25da48SPaolo Valente * updated. Such an update may cause the scheduling, 1089ea25da48SPaolo Valente * i.e., the position in the active tree, of this 1090ea25da48SPaolo Valente * entity to change. We handle this change by: 1) 1091ea25da48SPaolo Valente * dequeueing the entity here, 2) updating the finish 1092ea25da48SPaolo Valente * time and requeueing the entity according to the new 1093ea25da48SPaolo Valente * timestamps below. This is the same approach as the 1094ea25da48SPaolo Valente * non-extracted-entity sub-case above. 1095ea25da48SPaolo Valente */ 1096ea25da48SPaolo Valente bfq_active_extract(st, entity); 1097ea25da48SPaolo Valente } 1098ea25da48SPaolo Valente 1099ea25da48SPaolo Valente bfq_update_fin_time_enqueue(entity, st, false); 1100ea25da48SPaolo Valente } 1101ea25da48SPaolo Valente 1102ea25da48SPaolo Valente static void __bfq_activate_requeue_entity(struct bfq_entity *entity, 1103ea25da48SPaolo Valente struct bfq_sched_data *sd, 1104ea25da48SPaolo Valente bool non_blocking_wait_rq) 1105ea25da48SPaolo Valente { 1106ea25da48SPaolo Valente struct bfq_service_tree *st = bfq_entity_service_tree(entity); 1107ea25da48SPaolo Valente 1108ea25da48SPaolo Valente if (sd->in_service_entity == entity || entity->tree == &st->active) 1109ea25da48SPaolo Valente /* 1110ea25da48SPaolo Valente * in service or already queued on the active tree, 1111ea25da48SPaolo Valente * requeue or reposition 1112ea25da48SPaolo Valente */ 1113ea25da48SPaolo Valente __bfq_requeue_entity(entity); 1114ea25da48SPaolo Valente else 1115ea25da48SPaolo Valente /* 1116ea25da48SPaolo Valente * Not in service and not queued on its active tree: 1117ea25da48SPaolo Valente * the activity is idle and this is a true activation. 1118ea25da48SPaolo Valente */ 1119ea25da48SPaolo Valente __bfq_activate_entity(entity, non_blocking_wait_rq); 1120ea25da48SPaolo Valente } 1121ea25da48SPaolo Valente 1122ea25da48SPaolo Valente 1123ea25da48SPaolo Valente /** 112446d556e6SPaolo Valente * bfq_activate_requeue_entity - activate or requeue an entity representing a 112546d556e6SPaolo Valente * bfq_queue, and activate, requeue or reposition 112646d556e6SPaolo Valente * all ancestors for which such an update becomes 112746d556e6SPaolo Valente * necessary. 1128ea25da48SPaolo Valente * @entity: the entity to activate. 1129ea25da48SPaolo Valente * @non_blocking_wait_rq: true if this entity was waiting for a request 1130ea25da48SPaolo Valente * @requeue: true if this is a requeue, which implies that bfqq is 1131ea25da48SPaolo Valente * being expired; thus ALL its ancestors stop being served and must 1132ea25da48SPaolo Valente * therefore be requeued 113380294c3bSPaolo Valente * @expiration: true if this function is being invoked in the expiration path 113480294c3bSPaolo Valente * of the in-service queue 1135ea25da48SPaolo Valente */ 1136ea25da48SPaolo Valente static void bfq_activate_requeue_entity(struct bfq_entity *entity, 1137ea25da48SPaolo Valente bool non_blocking_wait_rq, 113880294c3bSPaolo Valente bool requeue, bool expiration) 1139ea25da48SPaolo Valente { 1140ea25da48SPaolo Valente struct bfq_sched_data *sd; 1141ea25da48SPaolo Valente 1142ea25da48SPaolo Valente for_each_entity(entity) { 1143ea25da48SPaolo Valente sd = entity->sched_data; 1144ea25da48SPaolo Valente __bfq_activate_requeue_entity(entity, sd, non_blocking_wait_rq); 1145ea25da48SPaolo Valente 114680294c3bSPaolo Valente if (!bfq_update_next_in_service(sd, entity, expiration) && 114780294c3bSPaolo Valente !requeue) 1148ea25da48SPaolo Valente break; 1149ea25da48SPaolo Valente } 1150ea25da48SPaolo Valente } 1151ea25da48SPaolo Valente 1152ea25da48SPaolo Valente /** 1153ea25da48SPaolo Valente * __bfq_deactivate_entity - deactivate an entity from its service tree. 1154ea25da48SPaolo Valente * @entity: the entity to deactivate. 1155ea25da48SPaolo Valente * @ins_into_idle_tree: if false, the entity will not be put into the 1156ea25da48SPaolo Valente * idle tree. 1157ea25da48SPaolo Valente * 115846d556e6SPaolo Valente * Deactivates an entity, independently of its previous state. Must 1159ea25da48SPaolo Valente * be invoked only if entity is on a service tree. Extracts the entity 116046d556e6SPaolo Valente * from that tree, and if necessary and allowed, puts it into the idle 1161ea25da48SPaolo Valente * tree. 1162ea25da48SPaolo Valente */ 1163ea25da48SPaolo Valente bool __bfq_deactivate_entity(struct bfq_entity *entity, bool ins_into_idle_tree) 1164ea25da48SPaolo Valente { 1165ea25da48SPaolo Valente struct bfq_sched_data *sd = entity->sched_data; 1166a66c38a1SPaolo Valente struct bfq_service_tree *st; 1167a66c38a1SPaolo Valente bool is_in_service; 1168ea25da48SPaolo Valente 1169ea25da48SPaolo Valente if (!entity->on_st) /* entity never activated, or already inactive */ 1170ea25da48SPaolo Valente return false; 1171ea25da48SPaolo Valente 1172a66c38a1SPaolo Valente /* 1173a66c38a1SPaolo Valente * If we get here, then entity is active, which implies that 1174a66c38a1SPaolo Valente * bfq_group_set_parent has already been invoked for the group 1175a66c38a1SPaolo Valente * represented by entity. Therefore, the field 1176a66c38a1SPaolo Valente * entity->sched_data has been set, and we can safely use it. 1177a66c38a1SPaolo Valente */ 1178a66c38a1SPaolo Valente st = bfq_entity_service_tree(entity); 1179a66c38a1SPaolo Valente is_in_service = entity == sd->in_service_entity; 1180a66c38a1SPaolo Valente 11816ab1d8daSPaolo Valente if (is_in_service) { 1182ea25da48SPaolo Valente bfq_calc_finish(entity, entity->service); 11836ab1d8daSPaolo Valente sd->in_service_entity = NULL; 11846ab1d8daSPaolo Valente } 1185ea25da48SPaolo Valente 1186ea25da48SPaolo Valente if (entity->tree == &st->active) 1187ea25da48SPaolo Valente bfq_active_extract(st, entity); 1188ea25da48SPaolo Valente else if (!is_in_service && entity->tree == &st->idle) 1189ea25da48SPaolo Valente bfq_idle_extract(st, entity); 1190ea25da48SPaolo Valente 1191ea25da48SPaolo Valente if (!ins_into_idle_tree || !bfq_gt(entity->finish, st->vtime)) 1192ea25da48SPaolo Valente bfq_forget_entity(st, entity, is_in_service); 1193ea25da48SPaolo Valente else 1194ea25da48SPaolo Valente bfq_idle_insert(st, entity); 1195ea25da48SPaolo Valente 1196ea25da48SPaolo Valente return true; 1197ea25da48SPaolo Valente } 1198ea25da48SPaolo Valente 1199ea25da48SPaolo Valente /** 1200ea25da48SPaolo Valente * bfq_deactivate_entity - deactivate an entity representing a bfq_queue. 1201ea25da48SPaolo Valente * @entity: the entity to deactivate. 120246d556e6SPaolo Valente * @ins_into_idle_tree: true if the entity can be put into the idle tree 120380294c3bSPaolo Valente * @expiration: true if this function is being invoked in the expiration path 120480294c3bSPaolo Valente * of the in-service queue 1205ea25da48SPaolo Valente */ 1206ea25da48SPaolo Valente static void bfq_deactivate_entity(struct bfq_entity *entity, 1207ea25da48SPaolo Valente bool ins_into_idle_tree, 1208ea25da48SPaolo Valente bool expiration) 1209ea25da48SPaolo Valente { 1210ea25da48SPaolo Valente struct bfq_sched_data *sd; 1211ea25da48SPaolo Valente struct bfq_entity *parent = NULL; 1212ea25da48SPaolo Valente 1213ea25da48SPaolo Valente for_each_entity_safe(entity, parent) { 1214ea25da48SPaolo Valente sd = entity->sched_data; 1215ea25da48SPaolo Valente 1216ea25da48SPaolo Valente if (!__bfq_deactivate_entity(entity, ins_into_idle_tree)) { 1217ea25da48SPaolo Valente /* 1218ea25da48SPaolo Valente * entity is not in any tree any more, so 1219ea25da48SPaolo Valente * this deactivation is a no-op, and there is 1220ea25da48SPaolo Valente * nothing to change for upper-level entities 1221ea25da48SPaolo Valente * (in case of expiration, this can never 1222ea25da48SPaolo Valente * happen). 1223ea25da48SPaolo Valente */ 1224ea25da48SPaolo Valente return; 1225ea25da48SPaolo Valente } 1226ea25da48SPaolo Valente 1227ea25da48SPaolo Valente if (sd->next_in_service == entity) 1228ea25da48SPaolo Valente /* 1229ea25da48SPaolo Valente * entity was the next_in_service entity, 1230ea25da48SPaolo Valente * then, since entity has just been 1231ea25da48SPaolo Valente * deactivated, a new one must be found. 1232ea25da48SPaolo Valente */ 123380294c3bSPaolo Valente bfq_update_next_in_service(sd, NULL, expiration); 1234ea25da48SPaolo Valente 123546d556e6SPaolo Valente if (sd->next_in_service || sd->in_service_entity) { 1236ea25da48SPaolo Valente /* 123746d556e6SPaolo Valente * The parent entity is still active, because 123846d556e6SPaolo Valente * either next_in_service or in_service_entity 123946d556e6SPaolo Valente * is not NULL. So, no further upwards 124046d556e6SPaolo Valente * deactivation must be performed. Yet, 124146d556e6SPaolo Valente * next_in_service has changed. Then the 124246d556e6SPaolo Valente * schedule does need to be updated upwards. 124346d556e6SPaolo Valente * 124446d556e6SPaolo Valente * NOTE If in_service_entity is not NULL, then 124546d556e6SPaolo Valente * next_in_service may happen to be NULL, 124646d556e6SPaolo Valente * although the parent entity is evidently 124746d556e6SPaolo Valente * active. This happens if 1) the entity 124846d556e6SPaolo Valente * pointed by in_service_entity is the only 124946d556e6SPaolo Valente * active entity in the parent entity, and 2) 125046d556e6SPaolo Valente * according to the definition of 125146d556e6SPaolo Valente * next_in_service, the in_service_entity 125246d556e6SPaolo Valente * cannot be considered as 125346d556e6SPaolo Valente * next_in_service. See the comments on the 125446d556e6SPaolo Valente * definition of next_in_service for details. 1255ea25da48SPaolo Valente */ 1256ea25da48SPaolo Valente break; 125746d556e6SPaolo Valente } 1258ea25da48SPaolo Valente 1259ea25da48SPaolo Valente /* 1260ea25da48SPaolo Valente * If we get here, then the parent is no more 1261ea25da48SPaolo Valente * backlogged and we need to propagate the 1262ea25da48SPaolo Valente * deactivation upwards. Thus let the loop go on. 1263ea25da48SPaolo Valente */ 1264ea25da48SPaolo Valente 1265ea25da48SPaolo Valente /* 1266ea25da48SPaolo Valente * Also let parent be queued into the idle tree on 1267ea25da48SPaolo Valente * deactivation, to preserve service guarantees, and 1268ea25da48SPaolo Valente * assuming that who invoked this function does not 1269ea25da48SPaolo Valente * need parent entities too to be removed completely. 1270ea25da48SPaolo Valente */ 1271ea25da48SPaolo Valente ins_into_idle_tree = true; 1272ea25da48SPaolo Valente } 1273ea25da48SPaolo Valente 1274ea25da48SPaolo Valente /* 1275ea25da48SPaolo Valente * If the deactivation loop is fully executed, then there are 1276ea25da48SPaolo Valente * no more entities to touch and next loop is not executed at 1277ea25da48SPaolo Valente * all. Otherwise, requeue remaining entities if they are 1278ea25da48SPaolo Valente * about to stop receiving service, or reposition them if this 1279ea25da48SPaolo Valente * is not the case. 1280ea25da48SPaolo Valente */ 1281ea25da48SPaolo Valente entity = parent; 1282ea25da48SPaolo Valente for_each_entity(entity) { 1283ea25da48SPaolo Valente /* 1284ea25da48SPaolo Valente * Invoke __bfq_requeue_entity on entity, even if 1285ea25da48SPaolo Valente * already active, to requeue/reposition it in the 1286ea25da48SPaolo Valente * active tree (because sd->next_in_service has 1287ea25da48SPaolo Valente * changed) 1288ea25da48SPaolo Valente */ 1289ea25da48SPaolo Valente __bfq_requeue_entity(entity); 1290ea25da48SPaolo Valente 1291ea25da48SPaolo Valente sd = entity->sched_data; 129280294c3bSPaolo Valente if (!bfq_update_next_in_service(sd, entity, expiration) && 1293ea25da48SPaolo Valente !expiration) 1294ea25da48SPaolo Valente /* 1295ea25da48SPaolo Valente * next_in_service unchanged or not causing 1296ea25da48SPaolo Valente * any change in entity->parent->sd, and no 1297ea25da48SPaolo Valente * requeueing needed for expiration: stop 1298ea25da48SPaolo Valente * here. 1299ea25da48SPaolo Valente */ 1300ea25da48SPaolo Valente break; 1301ea25da48SPaolo Valente } 1302ea25da48SPaolo Valente } 1303ea25da48SPaolo Valente 1304ea25da48SPaolo Valente /** 1305ea25da48SPaolo Valente * bfq_calc_vtime_jump - compute the value to which the vtime should jump, 1306ea25da48SPaolo Valente * if needed, to have at least one entity eligible. 1307ea25da48SPaolo Valente * @st: the service tree to act upon. 1308ea25da48SPaolo Valente * 1309ea25da48SPaolo Valente * Assumes that st is not empty. 1310ea25da48SPaolo Valente */ 1311ea25da48SPaolo Valente static u64 bfq_calc_vtime_jump(struct bfq_service_tree *st) 1312ea25da48SPaolo Valente { 1313ea25da48SPaolo Valente struct bfq_entity *root_entity = bfq_root_active_entity(&st->active); 1314ea25da48SPaolo Valente 1315ea25da48SPaolo Valente if (bfq_gt(root_entity->min_start, st->vtime)) 1316ea25da48SPaolo Valente return root_entity->min_start; 1317ea25da48SPaolo Valente 1318ea25da48SPaolo Valente return st->vtime; 1319ea25da48SPaolo Valente } 1320ea25da48SPaolo Valente 1321ea25da48SPaolo Valente static void bfq_update_vtime(struct bfq_service_tree *st, u64 new_value) 1322ea25da48SPaolo Valente { 1323ea25da48SPaolo Valente if (new_value > st->vtime) { 1324ea25da48SPaolo Valente st->vtime = new_value; 1325ea25da48SPaolo Valente bfq_forget_idle(st); 1326ea25da48SPaolo Valente } 1327ea25da48SPaolo Valente } 1328ea25da48SPaolo Valente 1329ea25da48SPaolo Valente /** 1330ea25da48SPaolo Valente * bfq_first_active_entity - find the eligible entity with 1331ea25da48SPaolo Valente * the smallest finish time 1332ea25da48SPaolo Valente * @st: the service tree to select from. 1333ea25da48SPaolo Valente * @vtime: the system virtual to use as a reference for eligibility 1334ea25da48SPaolo Valente * 1335ea25da48SPaolo Valente * This function searches the first schedulable entity, starting from the 1336ea25da48SPaolo Valente * root of the tree and going on the left every time on this side there is 133738c91407SHou Tao * a subtree with at least one eligible (start <= vtime) entity. The path on 1338ea25da48SPaolo Valente * the right is followed only if a) the left subtree contains no eligible 1339ea25da48SPaolo Valente * entities and b) no eligible entity has been found yet. 1340ea25da48SPaolo Valente */ 1341ea25da48SPaolo Valente static struct bfq_entity *bfq_first_active_entity(struct bfq_service_tree *st, 1342ea25da48SPaolo Valente u64 vtime) 1343ea25da48SPaolo Valente { 1344ea25da48SPaolo Valente struct bfq_entity *entry, *first = NULL; 1345ea25da48SPaolo Valente struct rb_node *node = st->active.rb_node; 1346ea25da48SPaolo Valente 1347ea25da48SPaolo Valente while (node) { 1348ea25da48SPaolo Valente entry = rb_entry(node, struct bfq_entity, rb_node); 1349ea25da48SPaolo Valente left: 1350ea25da48SPaolo Valente if (!bfq_gt(entry->start, vtime)) 1351ea25da48SPaolo Valente first = entry; 1352ea25da48SPaolo Valente 1353ea25da48SPaolo Valente if (node->rb_left) { 1354ea25da48SPaolo Valente entry = rb_entry(node->rb_left, 1355ea25da48SPaolo Valente struct bfq_entity, rb_node); 1356ea25da48SPaolo Valente if (!bfq_gt(entry->min_start, vtime)) { 1357ea25da48SPaolo Valente node = node->rb_left; 1358ea25da48SPaolo Valente goto left; 1359ea25da48SPaolo Valente } 1360ea25da48SPaolo Valente } 1361ea25da48SPaolo Valente if (first) 1362ea25da48SPaolo Valente break; 1363ea25da48SPaolo Valente node = node->rb_right; 1364ea25da48SPaolo Valente } 1365ea25da48SPaolo Valente 1366ea25da48SPaolo Valente return first; 1367ea25da48SPaolo Valente } 1368ea25da48SPaolo Valente 1369ea25da48SPaolo Valente /** 1370ea25da48SPaolo Valente * __bfq_lookup_next_entity - return the first eligible entity in @st. 1371ea25da48SPaolo Valente * @st: the service tree. 1372ea25da48SPaolo Valente * 1373ea25da48SPaolo Valente * If there is no in-service entity for the sched_data st belongs to, 1374ea25da48SPaolo Valente * then return the entity that will be set in service if: 1375ea25da48SPaolo Valente * 1) the parent entity this st belongs to is set in service; 1376ea25da48SPaolo Valente * 2) no entity belonging to such parent entity undergoes a state change 1377ea25da48SPaolo Valente * that would influence the timestamps of the entity (e.g., becomes idle, 1378ea25da48SPaolo Valente * becomes backlogged, changes its budget, ...). 1379ea25da48SPaolo Valente * 1380ea25da48SPaolo Valente * In this first case, update the virtual time in @st too (see the 1381ea25da48SPaolo Valente * comments on this update inside the function). 1382ea25da48SPaolo Valente * 1383ea25da48SPaolo Valente * In constrast, if there is an in-service entity, then return the 1384ea25da48SPaolo Valente * entity that would be set in service if not only the above 1385ea25da48SPaolo Valente * conditions, but also the next one held true: the currently 1386ea25da48SPaolo Valente * in-service entity, on expiration, 1387ea25da48SPaolo Valente * 1) gets a finish time equal to the current one, or 1388ea25da48SPaolo Valente * 2) is not eligible any more, or 1389ea25da48SPaolo Valente * 3) is idle. 1390ea25da48SPaolo Valente */ 1391ea25da48SPaolo Valente static struct bfq_entity * 1392ea25da48SPaolo Valente __bfq_lookup_next_entity(struct bfq_service_tree *st, bool in_service) 1393ea25da48SPaolo Valente { 1394ea25da48SPaolo Valente struct bfq_entity *entity; 1395ea25da48SPaolo Valente u64 new_vtime; 1396ea25da48SPaolo Valente 1397ea25da48SPaolo Valente if (RB_EMPTY_ROOT(&st->active)) 1398ea25da48SPaolo Valente return NULL; 1399ea25da48SPaolo Valente 1400ea25da48SPaolo Valente /* 1401ea25da48SPaolo Valente * Get the value of the system virtual time for which at 1402ea25da48SPaolo Valente * least one entity is eligible. 1403ea25da48SPaolo Valente */ 1404ea25da48SPaolo Valente new_vtime = bfq_calc_vtime_jump(st); 1405ea25da48SPaolo Valente 1406ea25da48SPaolo Valente /* 1407ea25da48SPaolo Valente * If there is no in-service entity for the sched_data this 1408ea25da48SPaolo Valente * active tree belongs to, then push the system virtual time 1409ea25da48SPaolo Valente * up to the value that guarantees that at least one entity is 1410ea25da48SPaolo Valente * eligible. If, instead, there is an in-service entity, then 1411ea25da48SPaolo Valente * do not make any such update, because there is already an 1412ea25da48SPaolo Valente * eligible entity, namely the in-service one (even if the 1413ea25da48SPaolo Valente * entity is not on st, because it was extracted when set in 1414ea25da48SPaolo Valente * service). 1415ea25da48SPaolo Valente */ 1416ea25da48SPaolo Valente if (!in_service) 1417ea25da48SPaolo Valente bfq_update_vtime(st, new_vtime); 1418ea25da48SPaolo Valente 1419ea25da48SPaolo Valente entity = bfq_first_active_entity(st, new_vtime); 1420ea25da48SPaolo Valente 1421ea25da48SPaolo Valente return entity; 1422ea25da48SPaolo Valente } 1423ea25da48SPaolo Valente 1424ea25da48SPaolo Valente /** 1425ea25da48SPaolo Valente * bfq_lookup_next_entity - return the first eligible entity in @sd. 1426ea25da48SPaolo Valente * @sd: the sched_data. 142780294c3bSPaolo Valente * @expiration: true if we are on the expiration path of the in-service queue 1428ea25da48SPaolo Valente * 1429ea25da48SPaolo Valente * This function is invoked when there has been a change in the trees 143080294c3bSPaolo Valente * for sd, and we need to know what is the new next entity to serve 143180294c3bSPaolo Valente * after this change. 1432ea25da48SPaolo Valente */ 143380294c3bSPaolo Valente static struct bfq_entity *bfq_lookup_next_entity(struct bfq_sched_data *sd, 143480294c3bSPaolo Valente bool expiration) 1435ea25da48SPaolo Valente { 1436ea25da48SPaolo Valente struct bfq_service_tree *st = sd->service_tree; 1437ea25da48SPaolo Valente struct bfq_service_tree *idle_class_st = st + (BFQ_IOPRIO_CLASSES - 1); 1438ea25da48SPaolo Valente struct bfq_entity *entity = NULL; 1439ea25da48SPaolo Valente int class_idx = 0; 1440ea25da48SPaolo Valente 1441ea25da48SPaolo Valente /* 1442ea25da48SPaolo Valente * Choose from idle class, if needed to guarantee a minimum 1443ea25da48SPaolo Valente * bandwidth to this class (and if there is some active entity 1444ea25da48SPaolo Valente * in idle class). This should also mitigate 1445ea25da48SPaolo Valente * priority-inversion problems in case a low priority task is 1446ea25da48SPaolo Valente * holding file system resources. 1447ea25da48SPaolo Valente */ 1448ea25da48SPaolo Valente if (time_is_before_jiffies(sd->bfq_class_idle_last_service + 1449ea25da48SPaolo Valente BFQ_CL_IDLE_TIMEOUT)) { 1450ea25da48SPaolo Valente if (!RB_EMPTY_ROOT(&idle_class_st->active)) 1451ea25da48SPaolo Valente class_idx = BFQ_IOPRIO_CLASSES - 1; 1452ea25da48SPaolo Valente /* About to be served if backlogged, or not yet backlogged */ 1453ea25da48SPaolo Valente sd->bfq_class_idle_last_service = jiffies; 1454ea25da48SPaolo Valente } 1455ea25da48SPaolo Valente 1456ea25da48SPaolo Valente /* 1457ea25da48SPaolo Valente * Find the next entity to serve for the highest-priority 1458ea25da48SPaolo Valente * class, unless the idle class needs to be served. 1459ea25da48SPaolo Valente */ 1460ea25da48SPaolo Valente for (; class_idx < BFQ_IOPRIO_CLASSES; class_idx++) { 146180294c3bSPaolo Valente /* 146280294c3bSPaolo Valente * If expiration is true, then bfq_lookup_next_entity 146380294c3bSPaolo Valente * is being invoked as a part of the expiration path 146480294c3bSPaolo Valente * of the in-service queue. In this case, even if 146580294c3bSPaolo Valente * sd->in_service_entity is not NULL, 146680294c3bSPaolo Valente * sd->in_service_entiy at this point is actually not 146780294c3bSPaolo Valente * in service any more, and, if needed, has already 146880294c3bSPaolo Valente * been properly queued or requeued into the right 146980294c3bSPaolo Valente * tree. The reason why sd->in_service_entity is still 147080294c3bSPaolo Valente * not NULL here, even if expiration is true, is that 147180294c3bSPaolo Valente * sd->in_service_entiy is reset as a last step in the 147280294c3bSPaolo Valente * expiration path. So, if expiration is true, tell 147380294c3bSPaolo Valente * __bfq_lookup_next_entity that there is no 147480294c3bSPaolo Valente * sd->in_service_entity. 147580294c3bSPaolo Valente */ 1476ea25da48SPaolo Valente entity = __bfq_lookup_next_entity(st + class_idx, 147780294c3bSPaolo Valente sd->in_service_entity && 147880294c3bSPaolo Valente !expiration); 1479ea25da48SPaolo Valente 1480ea25da48SPaolo Valente if (entity) 1481ea25da48SPaolo Valente break; 1482ea25da48SPaolo Valente } 1483ea25da48SPaolo Valente 1484ea25da48SPaolo Valente if (!entity) 1485ea25da48SPaolo Valente return NULL; 1486ea25da48SPaolo Valente 1487ea25da48SPaolo Valente return entity; 1488ea25da48SPaolo Valente } 1489ea25da48SPaolo Valente 1490ea25da48SPaolo Valente bool next_queue_may_preempt(struct bfq_data *bfqd) 1491ea25da48SPaolo Valente { 1492ea25da48SPaolo Valente struct bfq_sched_data *sd = &bfqd->root_group->sched_data; 1493ea25da48SPaolo Valente 1494ea25da48SPaolo Valente return sd->next_in_service != sd->in_service_entity; 1495ea25da48SPaolo Valente } 1496ea25da48SPaolo Valente 1497ea25da48SPaolo Valente /* 1498ea25da48SPaolo Valente * Get next queue for service. 1499ea25da48SPaolo Valente */ 1500ea25da48SPaolo Valente struct bfq_queue *bfq_get_next_queue(struct bfq_data *bfqd) 1501ea25da48SPaolo Valente { 1502ea25da48SPaolo Valente struct bfq_entity *entity = NULL; 1503ea25da48SPaolo Valente struct bfq_sched_data *sd; 1504ea25da48SPaolo Valente struct bfq_queue *bfqq; 1505ea25da48SPaolo Valente 1506ea25da48SPaolo Valente if (bfqd->busy_queues == 0) 1507ea25da48SPaolo Valente return NULL; 1508ea25da48SPaolo Valente 1509ea25da48SPaolo Valente /* 1510ea25da48SPaolo Valente * Traverse the path from the root to the leaf entity to 1511ea25da48SPaolo Valente * serve. Set in service all the entities visited along the 1512ea25da48SPaolo Valente * way. 1513ea25da48SPaolo Valente */ 1514ea25da48SPaolo Valente sd = &bfqd->root_group->sched_data; 1515ea25da48SPaolo Valente for (; sd ; sd = entity->my_sched_data) { 1516ea25da48SPaolo Valente /* 1517ea25da48SPaolo Valente * WARNING. We are about to set the in-service entity 1518ea25da48SPaolo Valente * to sd->next_in_service, i.e., to the (cached) value 1519ea25da48SPaolo Valente * returned by bfq_lookup_next_entity(sd) the last 1520ea25da48SPaolo Valente * time it was invoked, i.e., the last time when the 1521ea25da48SPaolo Valente * service order in sd changed as a consequence of the 1522ea25da48SPaolo Valente * activation or deactivation of an entity. In this 1523ea25da48SPaolo Valente * respect, if we execute bfq_lookup_next_entity(sd) 1524ea25da48SPaolo Valente * in this very moment, it may, although with low 1525ea25da48SPaolo Valente * probability, yield a different entity than that 1526ea25da48SPaolo Valente * pointed to by sd->next_in_service. This rare event 1527ea25da48SPaolo Valente * happens in case there was no CLASS_IDLE entity to 1528ea25da48SPaolo Valente * serve for sd when bfq_lookup_next_entity(sd) was 1529ea25da48SPaolo Valente * invoked for the last time, while there is now one 1530ea25da48SPaolo Valente * such entity. 1531ea25da48SPaolo Valente * 1532ea25da48SPaolo Valente * If the above event happens, then the scheduling of 1533ea25da48SPaolo Valente * such entity in CLASS_IDLE is postponed until the 1534ea25da48SPaolo Valente * service of the sd->next_in_service entity 1535ea25da48SPaolo Valente * finishes. In fact, when the latter is expired, 1536ea25da48SPaolo Valente * bfq_lookup_next_entity(sd) gets called again, 1537ea25da48SPaolo Valente * exactly to update sd->next_in_service. 1538ea25da48SPaolo Valente */ 1539ea25da48SPaolo Valente 1540ea25da48SPaolo Valente /* Make next_in_service entity become in_service_entity */ 1541ea25da48SPaolo Valente entity = sd->next_in_service; 1542ea25da48SPaolo Valente sd->in_service_entity = entity; 1543ea25da48SPaolo Valente 1544ea25da48SPaolo Valente /* 1545ea25da48SPaolo Valente * Reset the accumulator of the amount of service that 1546ea25da48SPaolo Valente * the entity is about to receive. 1547ea25da48SPaolo Valente */ 1548ea25da48SPaolo Valente entity->service = 0; 1549ea25da48SPaolo Valente 1550ea25da48SPaolo Valente /* 1551ea25da48SPaolo Valente * If entity is no longer a candidate for next 155246d556e6SPaolo Valente * service, then it must be extracted from its active 155346d556e6SPaolo Valente * tree, so as to make sure that it won't be 155446d556e6SPaolo Valente * considered when computing next_in_service. See the 155546d556e6SPaolo Valente * comments on the function 155646d556e6SPaolo Valente * bfq_no_longer_next_in_service() for details. 1557ea25da48SPaolo Valente */ 1558ea25da48SPaolo Valente if (bfq_no_longer_next_in_service(entity)) 1559ea25da48SPaolo Valente bfq_active_extract(bfq_entity_service_tree(entity), 1560ea25da48SPaolo Valente entity); 1561ea25da48SPaolo Valente 1562ea25da48SPaolo Valente /* 156346d556e6SPaolo Valente * Even if entity is not to be extracted according to 156446d556e6SPaolo Valente * the above check, a descendant entity may get 156546d556e6SPaolo Valente * extracted in one of the next iterations of this 156646d556e6SPaolo Valente * loop. Such an event could cause a change in 156746d556e6SPaolo Valente * next_in_service for the level of the descendant 156846d556e6SPaolo Valente * entity, and thus possibly back to this level. 1569ea25da48SPaolo Valente * 157046d556e6SPaolo Valente * However, we cannot perform the resulting needed 157146d556e6SPaolo Valente * update of next_in_service for this level before the 157246d556e6SPaolo Valente * end of the whole loop, because, to know which is 157346d556e6SPaolo Valente * the correct next-to-serve candidate entity for each 157446d556e6SPaolo Valente * level, we need first to find the leaf entity to set 157546d556e6SPaolo Valente * in service. In fact, only after we know which is 157646d556e6SPaolo Valente * the next-to-serve leaf entity, we can discover 157746d556e6SPaolo Valente * whether the parent entity of the leaf entity 157846d556e6SPaolo Valente * becomes the next-to-serve, and so on. 1579ea25da48SPaolo Valente */ 1580ea25da48SPaolo Valente } 1581ea25da48SPaolo Valente 1582ea25da48SPaolo Valente bfqq = bfq_entity_to_bfqq(entity); 1583ea25da48SPaolo Valente 1584ea25da48SPaolo Valente /* 1585ea25da48SPaolo Valente * We can finally update all next-to-serve entities along the 1586ea25da48SPaolo Valente * path from the leaf entity just set in service to the root. 1587ea25da48SPaolo Valente */ 1588ea25da48SPaolo Valente for_each_entity(entity) { 1589ea25da48SPaolo Valente struct bfq_sched_data *sd = entity->sched_data; 1590ea25da48SPaolo Valente 159180294c3bSPaolo Valente if (!bfq_update_next_in_service(sd, NULL, false)) 1592ea25da48SPaolo Valente break; 1593ea25da48SPaolo Valente } 1594ea25da48SPaolo Valente 1595ea25da48SPaolo Valente return bfqq; 1596ea25da48SPaolo Valente } 1597ea25da48SPaolo Valente 1598ea25da48SPaolo Valente void __bfq_bfqd_reset_in_service(struct bfq_data *bfqd) 1599ea25da48SPaolo Valente { 1600ea25da48SPaolo Valente struct bfq_queue *in_serv_bfqq = bfqd->in_service_queue; 1601ea25da48SPaolo Valente struct bfq_entity *in_serv_entity = &in_serv_bfqq->entity; 1602ea25da48SPaolo Valente struct bfq_entity *entity = in_serv_entity; 1603ea25da48SPaolo Valente 1604ea25da48SPaolo Valente bfq_clear_bfqq_wait_request(in_serv_bfqq); 1605ea25da48SPaolo Valente hrtimer_try_to_cancel(&bfqd->idle_slice_timer); 1606ea25da48SPaolo Valente bfqd->in_service_queue = NULL; 1607ea25da48SPaolo Valente 1608ea25da48SPaolo Valente /* 1609ea25da48SPaolo Valente * When this function is called, all in-service entities have 1610ea25da48SPaolo Valente * been properly deactivated or requeued, so we can safely 1611ea25da48SPaolo Valente * execute the final step: reset in_service_entity along the 1612ea25da48SPaolo Valente * path from entity to the root. 1613ea25da48SPaolo Valente */ 1614ea25da48SPaolo Valente for_each_entity(entity) 1615ea25da48SPaolo Valente entity->sched_data->in_service_entity = NULL; 1616ea25da48SPaolo Valente 1617ea25da48SPaolo Valente /* 1618ea25da48SPaolo Valente * in_serv_entity is no longer in service, so, if it is in no 1619ea25da48SPaolo Valente * service tree either, then release the service reference to 1620ea25da48SPaolo Valente * the queue it represents (taken with bfq_get_entity). 1621ea25da48SPaolo Valente */ 1622ea25da48SPaolo Valente if (!in_serv_entity->on_st) 1623ea25da48SPaolo Valente bfq_put_queue(in_serv_bfqq); 1624ea25da48SPaolo Valente } 1625ea25da48SPaolo Valente 1626ea25da48SPaolo Valente void bfq_deactivate_bfqq(struct bfq_data *bfqd, struct bfq_queue *bfqq, 1627ea25da48SPaolo Valente bool ins_into_idle_tree, bool expiration) 1628ea25da48SPaolo Valente { 1629ea25da48SPaolo Valente struct bfq_entity *entity = &bfqq->entity; 1630ea25da48SPaolo Valente 1631ea25da48SPaolo Valente bfq_deactivate_entity(entity, ins_into_idle_tree, expiration); 1632ea25da48SPaolo Valente } 1633ea25da48SPaolo Valente 1634ea25da48SPaolo Valente void bfq_activate_bfqq(struct bfq_data *bfqd, struct bfq_queue *bfqq) 1635ea25da48SPaolo Valente { 1636ea25da48SPaolo Valente struct bfq_entity *entity = &bfqq->entity; 1637ea25da48SPaolo Valente 1638ea25da48SPaolo Valente bfq_activate_requeue_entity(entity, bfq_bfqq_non_blocking_wait_rq(bfqq), 163980294c3bSPaolo Valente false, false); 1640ea25da48SPaolo Valente bfq_clear_bfqq_non_blocking_wait_rq(bfqq); 1641ea25da48SPaolo Valente } 1642ea25da48SPaolo Valente 164380294c3bSPaolo Valente void bfq_requeue_bfqq(struct bfq_data *bfqd, struct bfq_queue *bfqq, 164480294c3bSPaolo Valente bool expiration) 1645ea25da48SPaolo Valente { 1646ea25da48SPaolo Valente struct bfq_entity *entity = &bfqq->entity; 1647ea25da48SPaolo Valente 1648ea25da48SPaolo Valente bfq_activate_requeue_entity(entity, false, 164980294c3bSPaolo Valente bfqq == bfqd->in_service_queue, expiration); 1650ea25da48SPaolo Valente } 1651ea25da48SPaolo Valente 1652ea25da48SPaolo Valente /* 1653ea25da48SPaolo Valente * Called when the bfqq no longer has requests pending, remove it from 1654ea25da48SPaolo Valente * the service tree. As a special case, it can be invoked during an 1655ea25da48SPaolo Valente * expiration. 1656ea25da48SPaolo Valente */ 1657ea25da48SPaolo Valente void bfq_del_bfqq_busy(struct bfq_data *bfqd, struct bfq_queue *bfqq, 1658ea25da48SPaolo Valente bool expiration) 1659ea25da48SPaolo Valente { 1660ea25da48SPaolo Valente bfq_log_bfqq(bfqd, bfqq, "del from busy"); 1661ea25da48SPaolo Valente 1662ea25da48SPaolo Valente bfq_clear_bfqq_busy(bfqq); 1663ea25da48SPaolo Valente 1664ea25da48SPaolo Valente bfqd->busy_queues--; 1665ea25da48SPaolo Valente 1666ea25da48SPaolo Valente if (!bfqq->dispatched) 1667ea25da48SPaolo Valente bfq_weights_tree_remove(bfqd, &bfqq->entity, 1668ea25da48SPaolo Valente &bfqd->queue_weights_tree); 1669ea25da48SPaolo Valente 1670ea25da48SPaolo Valente if (bfqq->wr_coeff > 1) 1671ea25da48SPaolo Valente bfqd->wr_busy_queues--; 1672ea25da48SPaolo Valente 1673ea25da48SPaolo Valente bfqg_stats_update_dequeue(bfqq_group(bfqq)); 1674ea25da48SPaolo Valente 1675ea25da48SPaolo Valente bfq_deactivate_bfqq(bfqd, bfqq, true, expiration); 1676ea25da48SPaolo Valente } 1677ea25da48SPaolo Valente 1678ea25da48SPaolo Valente /* 1679ea25da48SPaolo Valente * Called when an inactive queue receives a new request. 1680ea25da48SPaolo Valente */ 1681ea25da48SPaolo Valente void bfq_add_bfqq_busy(struct bfq_data *bfqd, struct bfq_queue *bfqq) 1682ea25da48SPaolo Valente { 1683ea25da48SPaolo Valente bfq_log_bfqq(bfqd, bfqq, "add to busy"); 1684ea25da48SPaolo Valente 1685ea25da48SPaolo Valente bfq_activate_bfqq(bfqd, bfqq); 1686ea25da48SPaolo Valente 1687ea25da48SPaolo Valente bfq_mark_bfqq_busy(bfqq); 1688ea25da48SPaolo Valente bfqd->busy_queues++; 1689ea25da48SPaolo Valente 1690ea25da48SPaolo Valente if (!bfqq->dispatched) 1691ea25da48SPaolo Valente if (bfqq->wr_coeff == 1) 1692ea25da48SPaolo Valente bfq_weights_tree_add(bfqd, &bfqq->entity, 1693ea25da48SPaolo Valente &bfqd->queue_weights_tree); 1694ea25da48SPaolo Valente 1695ea25da48SPaolo Valente if (bfqq->wr_coeff > 1) 1696ea25da48SPaolo Valente bfqd->wr_busy_queues++; 1697ea25da48SPaolo Valente } 1698