Commit 9003d618 authored by Joerg Roedel's avatar Joerg Roedel

iommu/amd: Make use of iova queue flushing

Rip out the implementation in the AMD IOMMU driver and use
the one in the common iova code instead.
Signed-off-by: default avatarJoerg Roedel <jroedel@suse.de>
parent 9a005a80
......@@ -137,20 +137,7 @@ struct kmem_cache *amd_iommu_irq_cache;
static void update_domain(struct protection_domain *domain);
static int protection_domain_init(struct protection_domain *domain);
static void detach_device(struct device *dev);
#define FLUSH_QUEUE_SIZE 256
struct flush_queue_entry {
unsigned long iova_pfn;
unsigned long pages;
u64 counter; /* Flush counter when this entry was added to the queue */
};
struct flush_queue {
struct flush_queue_entry *entries;
unsigned head, tail;
spinlock_t lock;
};
static void iova_domain_flush_tlb(struct iova_domain *iovad);
/*
* Data container for a dma_ops specific protection domain
......@@ -161,36 +148,6 @@ struct dma_ops_domain {
/* IOVA RB-Tree */
struct iova_domain iovad;
struct flush_queue __percpu *flush_queue;
/*
* We need two counter here to be race-free wrt. IOTLB flushing and
* adding entries to the flush queue.
*
* The flush_start_cnt is incremented _before_ the IOTLB flush starts.
* New entries added to the flush ring-buffer get their 'counter' value
* from here. This way we can make sure that entries added to the queue
* (or other per-cpu queues of the same domain) while the TLB is about
* to be flushed are not considered to be flushed already.
*/
atomic64_t flush_start_cnt;
/*
* The flush_finish_cnt is incremented when an IOTLB flush is complete.
* This value is always smaller than flush_start_cnt. The queue_add
* function frees all IOVAs that have a counter value smaller than
* flush_finish_cnt. This makes sure that we only free IOVAs that are
* flushed out of the IOTLB of the domain.
*/
atomic64_t flush_finish_cnt;
/*
* Timer to make sure we don't keep IOVAs around unflushed
* for too long
*/
struct timer_list flush_timer;
atomic_t flush_timer_on;
};
static struct iova_domain reserved_iova_ranges;
......@@ -1788,178 +1745,19 @@ static void free_gcr3_table(struct protection_domain *domain)
free_page((unsigned long)domain->gcr3_tbl);
}
static void dma_ops_domain_free_flush_queue(struct dma_ops_domain *dom)
{
int cpu;
for_each_possible_cpu(cpu) {
struct flush_queue *queue;
queue = per_cpu_ptr(dom->flush_queue, cpu);
kfree(queue->entries);
}
free_percpu(dom->flush_queue);
dom->flush_queue = NULL;
}
static int dma_ops_domain_alloc_flush_queue(struct dma_ops_domain *dom)
{
int cpu;
atomic64_set(&dom->flush_start_cnt, 0);
atomic64_set(&dom->flush_finish_cnt, 0);
dom->flush_queue = alloc_percpu(struct flush_queue);
if (!dom->flush_queue)
return -ENOMEM;
/* First make sure everything is cleared */
for_each_possible_cpu(cpu) {
struct flush_queue *queue;
queue = per_cpu_ptr(dom->flush_queue, cpu);
queue->head = 0;
queue->tail = 0;
queue->entries = NULL;
}
/* Now start doing the allocation */
for_each_possible_cpu(cpu) {
struct flush_queue *queue;
queue = per_cpu_ptr(dom->flush_queue, cpu);
queue->entries = kzalloc(FLUSH_QUEUE_SIZE * sizeof(*queue->entries),
GFP_KERNEL);
if (!queue->entries) {
dma_ops_domain_free_flush_queue(dom);
return -ENOMEM;
}
spin_lock_init(&queue->lock);
}
return 0;
}
static void dma_ops_domain_flush_tlb(struct dma_ops_domain *dom)
{
atomic64_inc(&dom->flush_start_cnt);
domain_flush_tlb(&dom->domain);
domain_flush_complete(&dom->domain);
atomic64_inc(&dom->flush_finish_cnt);
}
static inline bool queue_ring_full(struct flush_queue *queue)
static void iova_domain_flush_tlb(struct iova_domain *iovad)
{
assert_spin_locked(&queue->lock);
return (((queue->tail + 1) % FLUSH_QUEUE_SIZE) == queue->head);
}
struct dma_ops_domain *dom;
#define queue_ring_for_each(i, q) \
for (i = (q)->head; i != (q)->tail; i = (i + 1) % FLUSH_QUEUE_SIZE)
static inline unsigned queue_ring_add(struct flush_queue *queue)
{
unsigned idx = queue->tail;
assert_spin_locked(&queue->lock);
queue->tail = (idx + 1) % FLUSH_QUEUE_SIZE;
return idx;
}
static inline void queue_ring_remove_head(struct flush_queue *queue)
{
assert_spin_locked(&queue->lock);
queue->head = (queue->head + 1) % FLUSH_QUEUE_SIZE;
}
static void queue_ring_free_flushed(struct dma_ops_domain *dom,
struct flush_queue *queue)
{
u64 counter = atomic64_read(&dom->flush_finish_cnt);
int idx;
queue_ring_for_each(idx, queue) {
/*
* This assumes that counter values in the ring-buffer are
* monotonously rising.
*/
if (queue->entries[idx].counter >= counter)
break;
free_iova_fast(&dom->iovad,
queue->entries[idx].iova_pfn,
queue->entries[idx].pages);
queue_ring_remove_head(queue);
}
}
static void queue_add(struct dma_ops_domain *dom,
unsigned long address, unsigned long pages)
{
struct flush_queue *queue;
unsigned long flags;
int idx;
pages = __roundup_pow_of_two(pages);
address >>= PAGE_SHIFT;
queue = get_cpu_ptr(dom->flush_queue);
spin_lock_irqsave(&queue->lock, flags);
/*
* First remove the enries from the ring-buffer that are already
* flushed to make the below queue_ring_full() check less likely
*/
queue_ring_free_flushed(dom, queue);
/*
* When ring-queue is full, flush the entries from the IOTLB so
* that we can free all entries with queue_ring_free_flushed()
* below.
*/
if (queue_ring_full(queue)) {
dma_ops_domain_flush_tlb(dom);
queue_ring_free_flushed(dom, queue);
}
idx = queue_ring_add(queue);
queue->entries[idx].iova_pfn = address;
queue->entries[idx].pages = pages;
queue->entries[idx].counter = atomic64_read(&dom->flush_start_cnt);
spin_unlock_irqrestore(&queue->lock, flags);
if (atomic_cmpxchg(&dom->flush_timer_on, 0, 1) == 0)
mod_timer(&dom->flush_timer, jiffies + msecs_to_jiffies(10));
put_cpu_ptr(dom->flush_queue);
}
static void queue_flush_timeout(unsigned long data)
{
struct dma_ops_domain *dom = (struct dma_ops_domain *)data;
int cpu;
atomic_set(&dom->flush_timer_on, 0);
dom = container_of(iovad, struct dma_ops_domain, iovad);
dma_ops_domain_flush_tlb(dom);
for_each_possible_cpu(cpu) {
struct flush_queue *queue;
unsigned long flags;
queue = per_cpu_ptr(dom->flush_queue, cpu);
spin_lock_irqsave(&queue->lock, flags);
queue_ring_free_flushed(dom, queue);
spin_unlock_irqrestore(&queue->lock, flags);
}
}
/*
......@@ -1973,11 +1771,6 @@ static void dma_ops_domain_free(struct dma_ops_domain *dom)
del_domain_from_list(&dom->domain);
if (timer_pending(&dom->flush_timer))
del_timer(&dom->flush_timer);
dma_ops_domain_free_flush_queue(dom);
put_iova_domain(&dom->iovad);
free_pagetable(&dom->domain);
......@@ -2013,16 +1806,11 @@ static struct dma_ops_domain *dma_ops_domain_alloc(void)
init_iova_domain(&dma_dom->iovad, PAGE_SIZE,
IOVA_START_PFN, DMA_32BIT_PFN);
/* Initialize reserved ranges */
copy_reserved_iova(&reserved_iova_ranges, &dma_dom->iovad);
if (dma_ops_domain_alloc_flush_queue(dma_dom))
if (init_iova_flush_queue(&dma_dom->iovad, iova_domain_flush_tlb, NULL))
goto free_dma_dom;
setup_timer(&dma_dom->flush_timer, queue_flush_timeout,
(unsigned long)dma_dom);
atomic_set(&dma_dom->flush_timer_on, 0);
/* Initialize reserved ranges */
copy_reserved_iova(&reserved_iova_ranges, &dma_dom->iovad);
add_domain_to_list(&dma_dom->domain);
......@@ -2619,7 +2407,8 @@ static void __unmap_single(struct dma_ops_domain *dma_dom,
domain_flush_tlb(&dma_dom->domain);
domain_flush_complete(&dma_dom->domain);
} else {
queue_add(dma_dom, dma_addr, pages);
pages = __roundup_pow_of_two(pages);
queue_iova(&dma_dom->iovad, dma_addr >> PAGE_SHIFT, pages, 0);
}
}
......
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