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rcu/kvfree: Switch to a generic linked list API

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This commit improves the readability and maintainability of the
kvfree_rcu() code by switching from an open-coded linked list to
the standard Linux-kernel circular doubly linked list.  This patch
does not introduce any functional change.

Signed-off-by: Uladzislau Rezki (Sony) <urezki@gmail.com>
Signed-off-by: Paul E. McKenney <paulmck@kernel.org>
This commit is contained in:
Uladzislau Rezki (Sony) 2022-11-29 16:58:19 +01:00 committed by Paul E. McKenney
parent 04a522b7da
commit 27538e18b6
1 changed files with 43 additions and 46 deletions
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89
kernel/rcu/tree.c
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@ -2876,13 +2876,13 @@ EXPORT_SYMBOL_GPL(call_rcu);
/**
* struct kvfree_rcu_bulk_data - single block to store kvfree_rcu() pointers
* @list: List node. All blocks are linked between each other
* @nr_records: Number of active pointers in the array
* @next: Next bulk object in the block chain
* @records: Array of the kvfree_rcu() pointers
*/
struct kvfree_rcu_bulk_data {
struct list_head list;
unsigned long nr_records;
struct kvfree_rcu_bulk_data *next;
void *records[];
};
@ -2898,21 +2898,21 @@ struct kvfree_rcu_bulk_data {
* struct kfree_rcu_cpu_work - single batch of kfree_rcu() requests
* @rcu_work: Let queue_rcu_work() invoke workqueue handler after grace period
* @head_free: List of kfree_rcu() objects waiting for a grace period
* @bkvhead_free: Bulk-List of kvfree_rcu() objects waiting for a grace period
* @bulk_head_free: Bulk-List of kvfree_rcu() objects waiting for a grace period
* @krcp: Pointer to @kfree_rcu_cpu structure
*/
struct kfree_rcu_cpu_work {
struct rcu_work rcu_work;
struct rcu_head *head_free;
struct kvfree_rcu_bulk_data *bkvhead_free[FREE_N_CHANNELS];
struct list_head bulk_head_free[FREE_N_CHANNELS];
struct kfree_rcu_cpu *krcp;
};
/**
* struct kfree_rcu_cpu - batch up kfree_rcu() requests for RCU grace period
* @head: List of kfree_rcu() objects not yet waiting for a grace period
* @bkvhead: Bulk-List of kvfree_rcu() objects not yet waiting for a grace period
* @bulk_head: Bulk-List of kvfree_rcu() objects not yet waiting for a grace period
* @krw_arr: Array of batches of kfree_rcu() objects waiting for a grace period
* @lock: Synchronize access to this structure
* @monitor_work: Promote @head to @head_free after KFREE_DRAIN_JIFFIES
@ -2936,7 +2936,7 @@ struct kfree_rcu_cpu_work {
*/
struct kfree_rcu_cpu {
struct rcu_head *head;
struct kvfree_rcu_bulk_data *bkvhead[FREE_N_CHANNELS];
struct list_head bulk_head[FREE_N_CHANNELS];
struct kfree_rcu_cpu_work krw_arr[KFREE_N_BATCHES];
raw_spinlock_t lock;
struct delayed_work monitor_work;
@ -3031,12 +3031,13 @@ drain_page_cache(struct kfree_rcu_cpu *krcp)
/*
* This function is invoked in workqueue context after a grace period.
* It frees all the objects queued on ->bkvhead_free or ->head_free.
* It frees all the objects queued on ->bulk_head_free or ->head_free.
*/
static void kfree_rcu_work(struct work_struct *work)
{
unsigned long flags;
struct kvfree_rcu_bulk_data *bkvhead[FREE_N_CHANNELS], *bnext;
struct kvfree_rcu_bulk_data *bnode, *n;
struct list_head bulk_head[FREE_N_CHANNELS];
struct rcu_head *head, *next;
struct kfree_rcu_cpu *krcp;
struct kfree_rcu_cpu_work *krwp;
@ -3048,10 +3049,8 @@ static void kfree_rcu_work(struct work_struct *work)
raw_spin_lock_irqsave(&krcp->lock, flags);
// Channels 1 and 2.
for (i = 0; i < FREE_N_CHANNELS; i++) {
bkvhead[i] = krwp->bkvhead_free[i];
krwp->bkvhead_free[i] = NULL;
}
for (i = 0; i < FREE_N_CHANNELS; i++)
list_replace_init(&krwp->bulk_head_free[i], &bulk_head[i]);
// Channel 3.
head = krwp->head_free;
@ -3060,36 +3059,33 @@ static void kfree_rcu_work(struct work_struct *work)
// Handle the first two channels.
for (i = 0; i < FREE_N_CHANNELS; i++) {
for (; bkvhead[i]; bkvhead[i] = bnext) {
bnext = bkvhead[i]->next;
debug_rcu_bhead_unqueue(bkvhead[i]);
list_for_each_entry_safe(bnode, n, &bulk_head[i], list) {
debug_rcu_bhead_unqueue(bnode);
rcu_lock_acquire(&rcu_callback_map);
if (i == 0) { // kmalloc() / kfree().
trace_rcu_invoke_kfree_bulk_callback(
rcu_state.name, bkvhead[i]->nr_records,
bkvhead[i]->records);
rcu_state.name, bnode->nr_records,
bnode->records);
kfree_bulk(bkvhead[i]->nr_records,
bkvhead[i]->records);
kfree_bulk(bnode->nr_records, bnode->records);
} else { // vmalloc() / vfree().
for (j = 0; j < bkvhead[i]->nr_records; j++) {
for (j = 0; j < bnode->nr_records; j++) {
trace_rcu_invoke_kvfree_callback(
rcu_state.name,
bkvhead[i]->records[j], 0);
rcu_state.name, bnode->records[j], 0);
vfree(bkvhead[i]->records[j]);
vfree(bnode->records[j]);
}
}
rcu_lock_release(&rcu_callback_map);
raw_spin_lock_irqsave(&krcp->lock, flags);
if (put_cached_bnode(krcp, bkvhead[i]))
bkvhead[i] = NULL;
if (put_cached_bnode(krcp, bnode))
bnode = NULL;
raw_spin_unlock_irqrestore(&krcp->lock, flags);
if (bkvhead[i])
free_page((unsigned long) bkvhead[i]);
if (bnode)
free_page((unsigned long) bnode);
cond_resched_tasks_rcu_qs();
}
@ -3125,7 +3121,7 @@ need_offload_krc(struct kfree_rcu_cpu *krcp)
int i;
for (i = 0; i < FREE_N_CHANNELS; i++)
if (krcp->bkvhead[i])
if (!list_empty(&krcp->bulk_head[i]))
return true;
return !!krcp->head;
@ -3162,21 +3158,20 @@ static void kfree_rcu_monitor(struct work_struct *work)
for (i = 0; i < KFREE_N_BATCHES; i++) {
struct kfree_rcu_cpu_work *krwp = &(krcp->krw_arr[i]);
// Try to detach bkvhead or head and attach it over any
// Try to detach bulk_head or head and attach it over any
// available corresponding free channel. It can be that
// a previous RCU batch is in progress, it means that
// immediately to queue another one is not possible so
// in that case the monitor work is rearmed.
if ((krcp->bkvhead[0] && !krwp->bkvhead_free[0]) ||
(krcp->bkvhead[1] && !krwp->bkvhead_free[1]) ||
if ((!list_empty(&krcp->bulk_head[0]) && list_empty(&krwp->bulk_head_free[0])) ||
(!list_empty(&krcp->bulk_head[1]) && list_empty(&krwp->bulk_head_free[1])) ||
(krcp->head && !krwp->head_free)) {
// Channel 1 corresponds to the SLAB-pointer bulk path.
// Channel 2 corresponds to vmalloc-pointer bulk path.
for (j = 0; j < FREE_N_CHANNELS; j++) {
if (!krwp->bkvhead_free[j]) {
krwp->bkvhead_free[j] = krcp->bkvhead[j];
krcp->bkvhead[j] = NULL;
}
if (list_empty(&krwp->bulk_head_free[j]))
list_replace_init(&krcp->bulk_head[j], &krwp->bulk_head_free[j]);
}
// Channel 3 corresponds to both SLAB and vmalloc
@ -3288,10 +3283,11 @@ add_ptr_to_bulk_krc_lock(struct kfree_rcu_cpu **krcp,
return false;
idx = !!is_vmalloc_addr(ptr);
bnode = list_first_entry_or_null(&(*krcp)->bulk_head[idx],
struct kvfree_rcu_bulk_data, list);
/* Check if a new block is required. */
if (!(*krcp)->bkvhead[idx] ||
(*krcp)->bkvhead[idx]->nr_records == KVFREE_BULK_MAX_ENTR) {
if (!bnode || bnode->nr_records == KVFREE_BULK_MAX_ENTR) {
bnode = get_cached_bnode(*krcp);
if (!bnode && can_alloc) {
krc_this_cpu_unlock(*krcp, *flags);
@ -3315,18 +3311,13 @@ add_ptr_to_bulk_krc_lock(struct kfree_rcu_cpu **krcp,
if (!bnode)
return false;
/* Initialize the new block. */
// Initialize the new block and attach it.
bnode->nr_records = 0;
bnode->next = (*krcp)->bkvhead[idx];
/* Attach it to the head. */
(*krcp)->bkvhead[idx] = bnode;
list_add(&bnode->list, &(*krcp)->bulk_head[idx]);
}
/* Finally insert. */
(*krcp)->bkvhead[idx]->records
[(*krcp)->bkvhead[idx]->nr_records++] = ptr;
bnode->records[bnode->nr_records++] = ptr;
return true;
}
@ -4761,7 +4752,7 @@ struct workqueue_struct *rcu_gp_wq;
static void __init kfree_rcu_batch_init(void)
{
int cpu;
int i;
int i, j;
/* Clamp it to [0:100] seconds interval. */
if (rcu_delay_page_cache_fill_msec < 0 ||
@ -4781,8 +4772,14 @@ static void __init kfree_rcu_batch_init(void)
for (i = 0; i < KFREE_N_BATCHES; i++) {
INIT_RCU_WORK(&krcp->krw_arr[i].rcu_work, kfree_rcu_work);
krcp->krw_arr[i].krcp = krcp;
for (j = 0; j < FREE_N_CHANNELS; j++)
INIT_LIST_HEAD(&krcp->krw_arr[i].bulk_head_free[j]);
}
for (i = 0; i < FREE_N_CHANNELS; i++)
INIT_LIST_HEAD(&krcp->bulk_head[i]);
INIT_DELAYED_WORK(&krcp->monitor_work, kfree_rcu_monitor);
INIT_DELAYED_WORK(&krcp->page_cache_work, fill_page_cache_func);
krcp->initialized = true;