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blk-iocost: implement Andy's method for donation weight updates
iocost implements work conservation by reducing iocg->inuse and propagating the adjustment upwards proportionally. However, while I knew the target absolute hierarchical proportion - adjusted hweight_inuse, I couldn't figure out how to determine the iocg->inuse adjustment to achieve that and approximated the adjustment by scaling iocg->inuse using the proportion of the needed hweight_inuse changes. When nested, these scalings aren't accurate even when adjusting a single node as the donating node also receives the benefit of the donated portion. When multiple nodes are donating as they often do, they can be wildly wrong. iocost employed various safety nets to combat the inaccuracies. There are ample buffers in determining how much to donate, the adjustments are conservative and gradual. While it can achieve a reasonable level of work conservation in simple scenarios, the inaccuracies can easily add up leading to significant loss of total work. This in turn makes it difficult to closely cap vrate as vrate adjustment is needed to compensate for the loss of work. The combination of inaccurate donation calculations and vrate adjustments can lead to wide fluctuations and clunky overall behaviors. Andy Newell devised a method to calculate the needed ->inuse updates to achieve the target hweight_inuse's. The method is compatible with the proportional inuse adjustment propagation which allows all hot path operations to be local to each iocg. To roughly summarize, Andy's method divides the tree into donating and non-donating parts, calculates global donation rate which is used to determine the target hweight_inuse for each node, and then derives per-level proportions. There's non-trivial amount of math involved. Please refer to the following pdfs for detailed descriptions. https://drive.google.com/file/d/1PsJwxPFtjUnwOY1QJ5AeICCcsL7BM3bo https://drive.google.com/file/d/1vONz1-fzVO7oY5DXXsLjSxEtYYQbOvsE https://drive.google.com/file/d/1WcrltBOSPN0qXVdBgnKm4mdp9FhuEFQN This patch implements Andy's method in transfer_surpluses(). This makes the donation calculations accurate per cycle and enables further improvements in other parts of the donation logic. Signed-off-by: Tejun Heo <tj@kernel.org> Cc: Andy Newell <newella@fb.com> Signed-off-by: Jens Axboe <axboe@kernel.dk>
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@ -491,9 +491,11 @@ struct ioc_gq {
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/* see __propagate_weights() and current_hweight() for details */
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u64 child_active_sum;
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u64 child_inuse_sum;
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u64 child_adjusted_sum;
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int hweight_gen;
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u32 hweight_active;
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u32 hweight_inuse;
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u32 hweight_donating;
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u32 hweight_after_donation;
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struct list_head walk_list;
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@ -1551,20 +1553,252 @@ static u32 hweight_after_donation(struct ioc_gq *iocg, u32 hwm, u32 usage,
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return usage;
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}
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/*
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* For work-conservation, an iocg which isn't using all of its share should
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* donate the leftover to other iocgs. There are two ways to achieve this - 1.
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* bumping up vrate accordingly 2. lowering the donating iocg's inuse weight.
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*
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* #1 is mathematically simpler but has the drawback of requiring synchronous
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* global hweight_inuse updates when idle iocg's get activated or inuse weights
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* change due to donation snapbacks as it has the possibility of grossly
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* overshooting what's allowed by the model and vrate.
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*
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* #2 is inherently safe with local operations. The donating iocg can easily
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* snap back to higher weights when needed without worrying about impacts on
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* other nodes as the impacts will be inherently correct. This also makes idle
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* iocg activations safe. The only effect activations have is decreasing
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* hweight_inuse of others, the right solution to which is for those iocgs to
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* snap back to higher weights.
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*
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* So, we go with #2. The challenge is calculating how each donating iocg's
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* inuse should be adjusted to achieve the target donation amounts. This is done
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* using Andy's method described in the following pdf.
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*
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* https://drive.google.com/file/d/1PsJwxPFtjUnwOY1QJ5AeICCcsL7BM3bo
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*
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* Given the weights and target after-donation hweight_inuse values, Andy's
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* method determines how the proportional distribution should look like at each
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* sibling level to maintain the relative relationship between all non-donating
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* pairs. To roughly summarize, it divides the tree into donating and
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* non-donating parts, calculates global donation rate which is used to
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* determine the target hweight_inuse for each node, and then derives per-level
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* proportions.
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*
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* The following pdf shows that global distribution calculated this way can be
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* achieved by scaling inuse weights of donating leaves and propagating the
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* adjustments upwards proportionally.
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*
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* https://drive.google.com/file/d/1vONz1-fzVO7oY5DXXsLjSxEtYYQbOvsE
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*
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* Combining the above two, we can determine how each leaf iocg's inuse should
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* be adjusted to achieve the target donation.
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*
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* https://drive.google.com/file/d/1WcrltBOSPN0qXVdBgnKm4mdp9FhuEFQN
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*
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* The inline comments use symbols from the last pdf.
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*
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* b is the sum of the absolute budgets in the subtree. 1 for the root node.
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* f is the sum of the absolute budgets of non-donating nodes in the subtree.
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* t is the sum of the absolute budgets of donating nodes in the subtree.
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* w is the weight of the node. w = w_f + w_t
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* w_f is the non-donating portion of w. w_f = w * f / b
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* w_b is the donating portion of w. w_t = w * t / b
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* s is the sum of all sibling weights. s = Sum(w) for siblings
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* s_f and s_t are the non-donating and donating portions of s.
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*
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* Subscript p denotes the parent's counterpart and ' the adjusted value - e.g.
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* w_pt is the donating portion of the parent's weight and w'_pt the same value
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* after adjustments. Subscript r denotes the root node's values.
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*/
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static void transfer_surpluses(struct list_head *surpluses, struct ioc_now *now)
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{
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struct ioc_gq *iocg;
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LIST_HEAD(over_hwa);
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LIST_HEAD(inner_walk);
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struct ioc_gq *iocg, *tiocg, *root_iocg;
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u32 after_sum, over_sum, over_target, gamma;
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/*
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* It's pretty unlikely but possible for the total sum of
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* hweight_after_donation's to be higher than WEIGHT_ONE, which will
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* confuse the following calculations. If such condition is detected,
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* scale down everyone over its full share equally to keep the sum below
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* WEIGHT_ONE.
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*/
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after_sum = 0;
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over_sum = 0;
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list_for_each_entry(iocg, surpluses, surplus_list) {
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u32 old_hwi, new_hwi, new_inuse;
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u32 hwa;
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current_hweight(iocg, NULL, &old_hwi);
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new_hwi = iocg->hweight_after_donation;
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current_hweight(iocg, &hwa, NULL);
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after_sum += iocg->hweight_after_donation;
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new_inuse = DIV64_U64_ROUND_UP((u64)iocg->inuse * new_hwi,
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old_hwi);
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__propagate_weights(iocg, iocg->weight, new_inuse);
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if (iocg->hweight_after_donation > hwa) {
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over_sum += iocg->hweight_after_donation;
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list_add(&iocg->walk_list, &over_hwa);
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}
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}
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if (after_sum >= WEIGHT_ONE) {
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/*
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* The delta should be deducted from the over_sum, calculate
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* target over_sum value.
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*/
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u32 over_delta = after_sum - (WEIGHT_ONE - 1);
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WARN_ON_ONCE(over_sum <= over_delta);
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over_target = over_sum - over_delta;
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} else {
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over_target = 0;
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}
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list_for_each_entry_safe(iocg, tiocg, &over_hwa, walk_list) {
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if (over_target)
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iocg->hweight_after_donation =
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div_u64((u64)iocg->hweight_after_donation *
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over_target, over_sum);
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list_del_init(&iocg->walk_list);
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}
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/*
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* Build pre-order inner node walk list and prepare for donation
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* adjustment calculations.
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*/
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list_for_each_entry(iocg, surpluses, surplus_list) {
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iocg_build_inner_walk(iocg, &inner_walk);
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}
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root_iocg = list_first_entry(&inner_walk, struct ioc_gq, walk_list);
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WARN_ON_ONCE(root_iocg->level > 0);
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list_for_each_entry(iocg, &inner_walk, walk_list) {
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iocg->child_adjusted_sum = 0;
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iocg->hweight_donating = 0;
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iocg->hweight_after_donation = 0;
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}
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/*
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* Propagate the donating budget (b_t) and after donation budget (b'_t)
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* up the hierarchy.
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*/
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list_for_each_entry(iocg, surpluses, surplus_list) {
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struct ioc_gq *parent = iocg->ancestors[iocg->level - 1];
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parent->hweight_donating += iocg->hweight_donating;
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parent->hweight_after_donation += iocg->hweight_after_donation;
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}
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list_for_each_entry_reverse(iocg, &inner_walk, walk_list) {
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if (iocg->level > 0) {
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struct ioc_gq *parent = iocg->ancestors[iocg->level - 1];
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parent->hweight_donating += iocg->hweight_donating;
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parent->hweight_after_donation += iocg->hweight_after_donation;
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}
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}
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/*
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* Calculate inner hwa's (b) and make sure the donation values are
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* within the accepted ranges as we're doing low res calculations with
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* roundups.
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*/
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list_for_each_entry(iocg, &inner_walk, walk_list) {
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if (iocg->level) {
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struct ioc_gq *parent = iocg->ancestors[iocg->level - 1];
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iocg->hweight_active = DIV64_U64_ROUND_UP(
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(u64)parent->hweight_active * iocg->active,
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parent->child_active_sum);
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}
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iocg->hweight_donating = min(iocg->hweight_donating,
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iocg->hweight_active);
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iocg->hweight_after_donation = min(iocg->hweight_after_donation,
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iocg->hweight_donating - 1);
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if (WARN_ON_ONCE(iocg->hweight_active <= 1 ||
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iocg->hweight_donating <= 1 ||
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iocg->hweight_after_donation == 0)) {
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pr_warn("iocg: invalid donation weights in ");
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pr_cont_cgroup_path(iocg_to_blkg(iocg)->blkcg->css.cgroup);
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pr_cont(": active=%u donating=%u after=%u\n",
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iocg->hweight_active, iocg->hweight_donating,
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iocg->hweight_after_donation);
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}
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}
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/*
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* Calculate the global donation rate (gamma) - the rate to adjust
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* non-donating budgets by. No need to use 64bit multiplication here as
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* the first operand is guaranteed to be smaller than WEIGHT_ONE
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* (1<<16).
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*
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* gamma = (1 - t_r') / (1 - t_r)
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*/
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gamma = DIV_ROUND_UP(
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(WEIGHT_ONE - root_iocg->hweight_after_donation) * WEIGHT_ONE,
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WEIGHT_ONE - root_iocg->hweight_donating);
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/*
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* Calculate adjusted hwi, child_adjusted_sum and inuse for the inner
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* nodes.
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*/
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list_for_each_entry(iocg, &inner_walk, walk_list) {
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struct ioc_gq *parent;
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u32 inuse, wpt, wptp;
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u64 st, sf;
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if (iocg->level == 0) {
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/* adjusted weight sum for 1st level: s' = s * b_pf / b'_pf */
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iocg->child_adjusted_sum = DIV64_U64_ROUND_UP(
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iocg->child_active_sum * (WEIGHT_ONE - iocg->hweight_donating),
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WEIGHT_ONE - iocg->hweight_after_donation);
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continue;
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}
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parent = iocg->ancestors[iocg->level - 1];
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/* b' = gamma * b_f + b_t' */
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iocg->hweight_inuse = DIV64_U64_ROUND_UP(
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(u64)gamma * (iocg->hweight_active - iocg->hweight_donating),
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WEIGHT_ONE) + iocg->hweight_after_donation;
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/* w' = s' * b' / b'_p */
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inuse = DIV64_U64_ROUND_UP(
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(u64)parent->child_adjusted_sum * iocg->hweight_inuse,
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parent->hweight_inuse);
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/* adjusted weight sum for children: s' = s_f + s_t * w'_pt / w_pt */
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st = DIV64_U64_ROUND_UP(
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iocg->child_active_sum * iocg->hweight_donating,
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iocg->hweight_active);
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sf = iocg->child_active_sum - st;
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wpt = DIV64_U64_ROUND_UP(
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(u64)iocg->active * iocg->hweight_donating,
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iocg->hweight_active);
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wptp = DIV64_U64_ROUND_UP(
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(u64)inuse * iocg->hweight_after_donation,
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iocg->hweight_inuse);
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iocg->child_adjusted_sum = sf + DIV64_U64_ROUND_UP(st * wptp, wpt);
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}
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/*
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* All inner nodes now have ->hweight_inuse and ->child_adjusted_sum and
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* we can finally determine leaf adjustments.
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*/
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list_for_each_entry(iocg, surpluses, surplus_list) {
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struct ioc_gq *parent = iocg->ancestors[iocg->level - 1];
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u32 inuse;
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/* w' = s' * b' / b'_p, note that b' == b'_t for donating leaves */
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inuse = DIV64_U64_ROUND_UP(
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parent->child_adjusted_sum * iocg->hweight_after_donation,
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parent->hweight_inuse);
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__propagate_weights(iocg, iocg->active, inuse);
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}
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/* walk list should be dissolved after use */
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list_for_each_entry_safe(iocg, tiocg, &inner_walk, walk_list)
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list_del_init(&iocg->walk_list);
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}
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static void ioc_timer_fn(struct timer_list *timer)
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@ -1705,16 +1939,18 @@ static void ioc_timer_fn(struct timer_list *timer)
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if (hw_inuse < hw_active ||
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(!waitqueue_active(&iocg->waitq) &&
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time_before64(vtime, now.vnow - ioc->margins.max))) {
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u32 hwm, new_hwi;
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u32 hwa, hwm, new_hwi;
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/*
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* Already donating or accumulated enough to start.
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* Determine the donation amount.
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*/
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current_hweight(iocg, &hwa, NULL);
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hwm = current_hweight_max(iocg);
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new_hwi = hweight_after_donation(iocg, hwm, usage,
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&now);
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if (new_hwi < hwm) {
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iocg->hweight_donating = hwa;
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iocg->hweight_after_donation = new_hwi;
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list_add(&iocg->surplus_list, &surpluses);
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} else {
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