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// SPDX-License-Identifier: GPL-2.0
#include <linux/slab.h>
#include <linux/lockdep.h>
#include <linux/sysfs.h>
#include <linux/kobject.h>
#include <linux/memory.h>
#include <linux/memory-tiers.h>

#include "internal.h"

struct memory_tier {
	/* hierarchy of memory tiers */
	struct list_head list;
	/* list of all memory types part of this tier */
	struct list_head memory_types;
	/*
	 * start value of abstract distance. memory tier maps
	 * an abstract distance  range,
	 * adistance_start .. adistance_start + MEMTIER_CHUNK_SIZE
	 */
	int adistance_start;
	struct device dev;
	/* All the nodes that are part of all the lower memory tiers. */
	nodemask_t lower_tier_mask;
};

struct demotion_nodes {
	nodemask_t preferred;
};

struct node_memory_type_map {
	struct memory_dev_type *memtype;
	int map_count;
};

static DEFINE_MUTEX(memory_tier_lock);
static LIST_HEAD(memory_tiers);
static struct node_memory_type_map node_memory_types[MAX_NUMNODES];
static struct memory_dev_type *default_dram_type;

static struct bus_type memory_tier_subsys = {
	.name = "memory_tiering",
	.dev_name = "memory_tier",
};

#ifdef CONFIG_MIGRATION
static int top_tier_adistance;
/*
 * node_demotion[] examples:
 *
 * Example 1:
 *
 * Node 0 & 1 are CPU + DRAM nodes, node 2 & 3 are PMEM nodes.
 *
 * node distances:
 * node   0    1    2    3
 *    0  10   20   30   40
 *    1  20   10   40   30
 *    2  30   40   10   40
 *    3  40   30   40   10
 *
 * memory_tiers0 = 0-1
 * memory_tiers1 = 2-3
 *
 * node_demotion[0].preferred = 2
 * node_demotion[1].preferred = 3
 * node_demotion[2].preferred = <empty>
 * node_demotion[3].preferred = <empty>
 *
 * Example 2:
 *
 * Node 0 & 1 are CPU + DRAM nodes, node 2 is memory-only DRAM node.
 *
 * node distances:
 * node   0    1    2
 *    0  10   20   30
 *    1  20   10   30
 *    2  30   30   10
 *
 * memory_tiers0 = 0-2
 *
 * node_demotion[0].preferred = <empty>
 * node_demotion[1].preferred = <empty>
 * node_demotion[2].preferred = <empty>
 *
 * Example 3:
 *
 * Node 0 is CPU + DRAM nodes, Node 1 is HBM node, node 2 is PMEM node.
 *
 * node distances:
 * node   0    1    2
 *    0  10   20   30
 *    1  20   10   40
 *    2  30   40   10
 *
 * memory_tiers0 = 1
 * memory_tiers1 = 0
 * memory_tiers2 = 2
 *
 * node_demotion[0].preferred = 2
 * node_demotion[1].preferred = 0
 * node_demotion[2].preferred = <empty>
 *
 */
static struct demotion_nodes *node_demotion __read_mostly;
#endif /* CONFIG_MIGRATION */

static inline struct memory_tier *to_memory_tier(struct device *device)
{
	return container_of(device, struct memory_tier, dev);
}

static __always_inline nodemask_t get_memtier_nodemask(struct memory_tier *memtier)
{
	nodemask_t nodes = NODE_MASK_NONE;
	struct memory_dev_type *memtype;

	list_for_each_entry(memtype, &memtier->memory_types, tier_sibiling)
		nodes_or(nodes, nodes, memtype->nodes);

	return nodes;
}

static void memory_tier_device_release(struct device *dev)
{
	struct memory_tier *tier = to_memory_tier(dev);
	/*
	 * synchronize_rcu in clear_node_memory_tier makes sure
	 * we don't have rcu access to this memory tier.
	 */
	kfree(tier);
}

static ssize_t nodelist_show(struct device *dev,
			     struct device_attribute *attr, char *buf)
{
	int ret;
	nodemask_t nmask;

	mutex_lock(&memory_tier_lock);
	nmask = get_memtier_nodemask(to_memory_tier(dev));
	ret = sysfs_emit(buf, "%*pbl\n", nodemask_pr_args(&nmask));
	mutex_unlock(&memory_tier_lock);
	return ret;
}
static DEVICE_ATTR_RO(nodelist);

static struct attribute *memtier_dev_attrs[] = {
	&dev_attr_nodelist.attr,
	NULL
};

static const struct attribute_group memtier_dev_group = {
	.attrs = memtier_dev_attrs,
};

static const struct attribute_group *memtier_dev_groups[] = {
	&memtier_dev_group,
	NULL
};

static struct memory_tier *find_create_memory_tier(struct memory_dev_type *memtype)
{
	int ret;
	bool found_slot = false;
	struct memory_tier *memtier, *new_memtier;
	int adistance = memtype->adistance;
	unsigned int memtier_adistance_chunk_size = MEMTIER_CHUNK_SIZE;

	lockdep_assert_held_once(&memory_tier_lock);

	adistance = round_down(adistance, memtier_adistance_chunk_size);
	/*
	 * If the memtype is already part of a memory tier,
	 * just return that.
	 */
	if (!list_empty(&memtype->tier_sibiling)) {
		list_for_each_entry(memtier, &memory_tiers, list) {
			if (adistance == memtier->adistance_start)
				return memtier;
		}
		WARN_ON(1);
		return ERR_PTR(-EINVAL);
	}

	list_for_each_entry(memtier, &memory_tiers, list) {
		if (adistance == memtier->adistance_start) {
			goto link_memtype;
		} else if (adistance < memtier->adistance_start) {
			found_slot = true;
			break;
		}
	}

	new_memtier = kzalloc(sizeof(struct memory_tier), GFP_KERNEL);
	if (!new_memtier)
		return ERR_PTR(-ENOMEM);

	new_memtier->adistance_start = adistance;
	INIT_LIST_HEAD(&new_memtier->list);
	INIT_LIST_HEAD(&new_memtier->memory_types);
	if (found_slot)
		list_add_tail(&new_memtier->list, &memtier->list);
	else
		list_add_tail(&new_memtier->list, &memory_tiers);

	new_memtier->dev.id = adistance >> MEMTIER_CHUNK_BITS;
	new_memtier->dev.bus = &memory_tier_subsys;
	new_memtier->dev.release = memory_tier_device_release;
	new_memtier->dev.groups = memtier_dev_groups;

	ret = device_register(&new_memtier->dev);
	if (ret) {
		list_del(&memtier->list);
		put_device(&memtier->dev);
		return ERR_PTR(ret);
	}
	memtier = new_memtier;

link_memtype:
	list_add(&memtype->tier_sibiling, &memtier->memory_types);
	return memtier;
}

static struct memory_tier *__node_get_memory_tier(int node)
{
	pg_data_t *pgdat;

	pgdat = NODE_DATA(node);
	if (!pgdat)
		return NULL;
	/*
	 * Since we hold memory_tier_lock, we can avoid
	 * RCU read locks when accessing the details. No
	 * parallel updates are possible here.
	 */
	return rcu_dereference_check(pgdat->memtier,
				     lockdep_is_held(&memory_tier_lock));
}

#ifdef CONFIG_MIGRATION
bool node_is_toptier(int node)
{
	bool toptier;
	pg_data_t *pgdat;
	struct memory_tier *memtier;

	pgdat = NODE_DATA(node);
	if (!pgdat)
		return false;

	rcu_read_lock();
	memtier = rcu_dereference(pgdat->memtier);
	if (!memtier) {
		toptier = true;
		goto out;
	}
	if (memtier->adistance_start <= top_tier_adistance)
		toptier = true;
	else
		toptier = false;
out:
	rcu_read_unlock();
	return toptier;
}

void node_get_allowed_targets(pg_data_t *pgdat, nodemask_t *targets)
{
	struct memory_tier *memtier;

	/*
	 * pg_data_t.memtier updates includes a synchronize_rcu()
	 * which ensures that we either find NULL or a valid memtier
	 * in NODE_DATA. protect the access via rcu_read_lock();
	 */
	rcu_read_lock();
	memtier = rcu_dereference(pgdat->memtier);
	if (memtier)
		*targets = memtier->lower_tier_mask;
	else
		*targets = NODE_MASK_NONE;
	rcu_read_unlock();
}

/**
 * next_demotion_node() - Get the next node in the demotion path
 * @node: The starting node to lookup the next node
 *
 * Return: node id for next memory node in the demotion path hierarchy
 * from @node; NUMA_NO_NODE if @node is terminal.  This does not keep
 * @node online or guarantee that it *continues* to be the next demotion
 * target.
 */
int next_demotion_node(int node)
{
	struct demotion_nodes *nd;
	int target;

	if (!node_demotion)
		return NUMA_NO_NODE;

	nd = &node_demotion[node];

	/*
	 * node_demotion[] is updated without excluding this
	 * function from running.
	 *
	 * Make sure to use RCU over entire code blocks if
	 * node_demotion[] reads need to be consistent.
	 */
	rcu_read_lock();
	/*
	 * If there are multiple target nodes, just select one
	 * target node randomly.
	 *
	 * In addition, we can also use round-robin to select
	 * target node, but we should introduce another variable
	 * for node_demotion[] to record last selected target node,
	 * that may cause cache ping-pong due to the changing of
	 * last target node. Or introducing per-cpu data to avoid
	 * caching issue, which seems more complicated. So selecting
	 * target node randomly seems better until now.
	 */
	target = node_random(&nd->preferred);
	rcu_read_unlock();

	return target;
}

static void disable_all_demotion_targets(void)
{
	struct memory_tier *memtier;
	int node;

	for_each_node_state(node, N_MEMORY) {
		node_demotion[node].preferred = NODE_MASK_NONE;
		/*
		 * We are holding memory_tier_lock, it is safe
		 * to access pgda->memtier.
		 */
		memtier = __node_get_memory_tier(node);
		if (memtier)
			memtier->lower_tier_mask = NODE_MASK_NONE;
	}
	/*
	 * Ensure that the "disable" is visible across the system.
	 * Readers will see either a combination of before+disable
	 * state or disable+after.  They will never see before and
	 * after state together.
	 */
	synchronize_rcu();
}

/*
 * Find an automatic demotion target for all memory
 * nodes. Failing here is OK.  It might just indicate
 * being at the end of a chain.
 */
static void establish_demotion_targets(void)
{
	struct memory_tier *memtier;
	struct demotion_nodes *nd;
	int target = NUMA_NO_NODE, node;
	int distance, best_distance;
	nodemask_t tier_nodes, lower_tier;

	lockdep_assert_held_once(&memory_tier_lock);

	if (!node_demotion || !IS_ENABLED(CONFIG_MIGRATION))
		return;

	disable_all_demotion_targets();

	for_each_node_state(node, N_MEMORY) {
		best_distance = -1;
		nd = &node_demotion[node];

		memtier = __node_get_memory_tier(node);
		if (!memtier || list_is_last(&memtier->list, &memory_tiers))
			continue;
		/*
		 * Get the lower memtier to find the  demotion node list.
		 */
		memtier = list_next_entry(memtier, list);
		tier_nodes = get_memtier_nodemask(memtier);
		/*
		 * find_next_best_node, use 'used' nodemask as a skip list.
		 * Add all memory nodes except the selected memory tier
		 * nodelist to skip list so that we find the best node from the
		 * memtier nodelist.
		 */
		nodes_andnot(tier_nodes, node_states[N_MEMORY], tier_nodes);

		/*
		 * Find all the nodes in the memory tier node list of same best distance.
		 * add them to the preferred mask. We randomly select between nodes
		 * in the preferred mask when allocating pages during demotion.
		 */
		do {
			target = find_next_best_node(node, &tier_nodes);
			if (target == NUMA_NO_NODE)
				break;

			distance = node_distance(node, target);
			if (distance == best_distance || best_distance == -1) {
				best_distance = distance;
				node_set(target, nd->preferred);
			} else {
				break;
			}
		} while (1);
	}
	/*
	 * Promotion is allowed from a memory tier to higher
	 * memory tier only if the memory tier doesn't include
	 * compute. We want to skip promotion from a memory tier,
	 * if any node that is part of the memory tier have CPUs.
	 * Once we detect such a memory tier, we consider that tier
	 * as top tiper from which promotion is not allowed.
	 */
	list_for_each_entry_reverse(memtier, &memory_tiers, list) {
		tier_nodes = get_memtier_nodemask(memtier);
		nodes_and(tier_nodes, node_states[N_CPU], tier_nodes);
		if (!nodes_empty(tier_nodes)) {
			/*
			 * abstract distance below the max value of this memtier
			 * is considered toptier.
			 */
			top_tier_adistance = memtier->adistance_start +
						MEMTIER_CHUNK_SIZE - 1;
			break;
		}
	}
	/*
	 * Now build the lower_tier mask for each node collecting node mask from
	 * all memory tier below it. This allows us to fallback demotion page
	 * allocation to a set of nodes that is closer the above selected
	 * perferred node.
	 */
	lower_tier = node_states[N_MEMORY];
	list_for_each_entry(memtier, &memory_tiers, list) {
		/*
		 * Keep removing current tier from lower_tier nodes,
		 * This will remove all nodes in current and above
		 * memory tier from the lower_tier mask.
		 */
		tier_nodes = get_memtier_nodemask(memtier);
		nodes_andnot(lower_tier, lower_tier, tier_nodes);
		memtier->lower_tier_mask = lower_tier;
	}
}

#else
static inline void disable_all_demotion_targets(void) {}
static inline void establish_demotion_targets(void) {}
#endif /* CONFIG_MIGRATION */

static inline void __init_node_memory_type(int node, struct memory_dev_type *memtype)
{
	if (!node_memory_types[node].memtype)
		node_memory_types[node].memtype = memtype;
	/*
	 * for each device getting added in the same NUMA node
	 * with this specific memtype, bump the map count. We
	 * Only take memtype device reference once, so that
	 * changing a node memtype can be done by droping the
	 * only reference count taken here.
	 */

	if (node_memory_types[node].memtype == memtype) {
		if (!node_memory_types[node].map_count++)
			kref_get(&memtype->kref);
	}
}

static struct memory_tier *set_node_memory_tier(int node)
{
	struct memory_tier *memtier;
	struct memory_dev_type *memtype;
	pg_data_t *pgdat = NODE_DATA(node);


	lockdep_assert_held_once(&memory_tier_lock);

	if (!node_state(node, N_MEMORY))
		return ERR_PTR(-EINVAL);

	__init_node_memory_type(node, default_dram_type);

	memtype = node_memory_types[node].memtype;
	node_set(node, memtype->nodes);
	memtier = find_create_memory_tier(memtype);
	if (!IS_ERR(memtier))
		rcu_assign_pointer(pgdat->memtier, memtier);
	return memtier;
}

static void destroy_memory_tier(struct memory_tier *memtier)
{
	list_del(&memtier->list);
	device_unregister(&memtier->dev);
}

static bool clear_node_memory_tier(int node)
{
	bool cleared = false;
	pg_data_t *pgdat;
	struct memory_tier *memtier;

	pgdat = NODE_DATA(node);
	if (!pgdat)
		return false;

	/*
	 * Make sure that anybody looking at NODE_DATA who finds
	 * a valid memtier finds memory_dev_types with nodes still
	 * linked to the memtier. We achieve this by waiting for
	 * rcu read section to finish using synchronize_rcu.
	 * This also enables us to free the destroyed memory tier
	 * with kfree instead of kfree_rcu
	 */
	memtier = __node_get_memory_tier(node);
	if (memtier) {
		struct memory_dev_type *memtype;

		rcu_assign_pointer(pgdat->memtier, NULL);
		synchronize_rcu();
		memtype = node_memory_types[node].memtype;
		node_clear(node, memtype->nodes);
		if (nodes_empty(memtype->nodes)) {
			list_del_init(&memtype->tier_sibiling);
			if (list_empty(&memtier->memory_types))
				destroy_memory_tier(memtier);
		}
		cleared = true;
	}
	return cleared;
}

static void release_memtype(struct kref *kref)
{
	struct memory_dev_type *memtype;

	memtype = container_of(kref, struct memory_dev_type, kref);
	kfree(memtype);
}

struct memory_dev_type *alloc_memory_type(int adistance)
{
	struct memory_dev_type *memtype;

	memtype = kmalloc(sizeof(*memtype), GFP_KERNEL);
	if (!memtype)
		return ERR_PTR(-ENOMEM);

	memtype->adistance = adistance;
	INIT_LIST_HEAD(&memtype->tier_sibiling);
	memtype->nodes  = NODE_MASK_NONE;
	kref_init(&memtype->kref);
	return memtype;
}
EXPORT_SYMBOL_GPL(alloc_memory_type);

void destroy_memory_type(struct memory_dev_type *memtype)
{
	kref_put(&memtype->kref, release_memtype);
}
EXPORT_SYMBOL_GPL(destroy_memory_type);

void init_node_memory_type(int node, struct memory_dev_type *memtype)
{

	mutex_lock(&memory_tier_lock);
	__init_node_memory_type(node, memtype);
	mutex_unlock(&memory_tier_lock);
}
EXPORT_SYMBOL_GPL(init_node_memory_type);

void clear_node_memory_type(int node, struct memory_dev_type *memtype)
{
	mutex_lock(&memory_tier_lock);
	if (node_memory_types[node].memtype == memtype)
		node_memory_types[node].map_count--;
	/*
	 * If we umapped all the attached devices to this node,
	 * clear the node memory type.
	 */
	if (!node_memory_types[node].map_count) {
		node_memory_types[node].memtype = NULL;
		kref_put(&memtype->kref, release_memtype);
	}
	mutex_unlock(&memory_tier_lock);
}
EXPORT_SYMBOL_GPL(clear_node_memory_type);

static int __meminit memtier_hotplug_callback(struct notifier_block *self,
					      unsigned long action, void *_arg)
{
	struct memory_tier *memtier;
	struct memory_notify *arg = _arg;

	/*
	 * Only update the node migration order when a node is
	 * changing status, like online->offline.
	 */
	if (arg->status_change_nid < 0)
		return notifier_from_errno(0);

	switch (action) {
	case MEM_OFFLINE:
		mutex_lock(&memory_tier_lock);
		if (clear_node_memory_tier(arg->status_change_nid))
			establish_demotion_targets();
		mutex_unlock(&memory_tier_lock);
		break;
	case MEM_ONLINE:
		mutex_lock(&memory_tier_lock);
		memtier = set_node_memory_tier(arg->status_change_nid);
		if (!IS_ERR(memtier))
			establish_demotion_targets();
		mutex_unlock(&memory_tier_lock);
		break;
	}

	return notifier_from_errno(0);
}

static int __init memory_tier_init(void)
{
	int ret, node;
	struct memory_tier *memtier;

	ret = subsys_virtual_register(&memory_tier_subsys, NULL);
	if (ret)
		panic("%s() failed to register memory tier subsystem\n", __func__);

#ifdef CONFIG_MIGRATION
	node_demotion = kcalloc(nr_node_ids, sizeof(struct demotion_nodes),
				GFP_KERNEL);
	WARN_ON(!node_demotion);
#endif
	mutex_lock(&memory_tier_lock);
	/*
	 * For now we can have 4 faster memory tiers with smaller adistance
	 * than default DRAM tier.
	 */
	default_dram_type = alloc_memory_type(MEMTIER_ADISTANCE_DRAM);
	if (IS_ERR(default_dram_type))
		panic("%s() failed to allocate default DRAM tier\n", __func__);

	/*
	 * Look at all the existing N_MEMORY nodes and add them to
	 * default memory tier or to a tier if we already have memory
	 * types assigned.
	 */
	for_each_node_state(node, N_MEMORY) {
		memtier = set_node_memory_tier(node);
		if (IS_ERR(memtier))
			/*
			 * Continue with memtiers we are able to setup
			 */
			break;
	}
	establish_demotion_targets();
	mutex_unlock(&memory_tier_lock);

	hotplug_memory_notifier(memtier_hotplug_callback, MEMTIER_HOTPLUG_PRI);
	return 0;
}
subsys_initcall(memory_tier_init);

bool numa_demotion_enabled = false;

#ifdef CONFIG_MIGRATION
#ifdef CONFIG_SYSFS
static ssize_t numa_demotion_enabled_show(struct kobject *kobj,
					  struct kobj_attribute *attr, char *buf)
{
	return sysfs_emit(buf, "%s\n",
			  numa_demotion_enabled ? "true" : "false");
}

static ssize_t numa_demotion_enabled_store(struct kobject *kobj,
					   struct kobj_attribute *attr,
					   const char *buf, size_t count)
{
	ssize_t ret;

	ret = kstrtobool(buf, &numa_demotion_enabled);
	if (ret)
		return ret;

	return count;
}

static struct kobj_attribute numa_demotion_enabled_attr =
	__ATTR(demotion_enabled, 0644, numa_demotion_enabled_show,
	       numa_demotion_enabled_store);

static struct attribute *numa_attrs[] = {
	&numa_demotion_enabled_attr.attr,
	NULL,
};

static const struct attribute_group numa_attr_group = {
	.attrs = numa_attrs,
};

static int __init numa_init_sysfs(void)
{
	int err;
	struct kobject *numa_kobj;

	numa_kobj = kobject_create_and_add("numa", mm_kobj);
	if (!numa_kobj) {
		pr_err("failed to create numa kobject\n");
		return -ENOMEM;
	}
	err = sysfs_create_group(numa_kobj, &numa_attr_group);
	if (err) {
		pr_err("failed to register numa group\n");
		goto delete_obj;
	}
	return 0;

delete_obj:
	kobject_put(numa_kobj);
	return err;
}
subsys_initcall(numa_init_sysfs);
#endif /* CONFIG_SYSFS */
#endif