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#include <linux/device.h>
#include <linux/mm.h>
#include <asm/io.h>		/* Needed for i386 to build */
#include <linux/dma-mapping.h>
#include <linux/dmapool.h>
#include <linux/slab.h>
#include <linux/module.h>
#include <linux/poison.h>
#include <linux/sched.h>

/*
 * Pool allocator ... wraps the dma_alloc_coherent page allocator, so
 * small blocks are easily used by drivers for bus mastering controllers.
 * This should probably be sharing the guts of the slab allocator.
 */

struct dma_pool {		/* the pool */
	struct list_head page_list;
	spinlock_t lock;
	size_t blocks_per_page;
	size_t size;
	struct device *dev;
	size_t allocation;
	char name[32];
	wait_queue_head_t waitq;
	struct list_head pools;
};

struct dma_page {		/* cacheable header for 'allocation' bytes */
	struct list_head page_list;
	void *vaddr;
	dma_addr_t dma;
	unsigned in_use;
	unsigned long bitmap[0];
};

#define	POOL_TIMEOUT_JIFFIES	((100 /* msec */ * HZ) / 1000)

static DEFINE_MUTEX(pools_lock);

static ssize_t
show_pools(struct device *dev, struct device_attribute *attr, char *buf)
{
	unsigned temp;
	unsigned size;
	char *next;
	struct dma_page *page;
	struct dma_pool *pool;

	next = buf;
	size = PAGE_SIZE;

	temp = scnprintf(next, size, "poolinfo - 0.1\n");
	size -= temp;
	next += temp;

	mutex_lock(&pools_lock);
	list_for_each_entry(pool, &dev->dma_pools, pools) {
		unsigned pages = 0;
		unsigned blocks = 0;

		list_for_each_entry(page, &pool->page_list, page_list) {
			pages++;
			blocks += page->in_use;
		}

		/* per-pool info, no real statistics yet */
		temp = scnprintf(next, size, "%-16s %4u %4Zu %4Zu %2u\n",
				 pool->name,
				 blocks, pages * pool->blocks_per_page,
				 pool->size, pages);
		size -= temp;
		next += temp;
	}
	mutex_unlock(&pools_lock);

	return PAGE_SIZE - size;
}

static DEVICE_ATTR(pools, S_IRUGO, show_pools, NULL);

/**
 * dma_pool_create - Creates a pool of consistent memory blocks, for dma.
 * @name: name of pool, for diagnostics
 * @dev: device that will be doing the DMA
 * @size: size of the blocks in this pool.
 * @align: alignment requirement for blocks; must be a power of two
 * @allocation: returned blocks won't cross this boundary (or zero)
 * Context: !in_interrupt()
 *
 * Returns a dma allocation pool with the requested characteristics, or
 * null if one can't be created.  Given one of these pools, dma_pool_alloc()
 * may be used to allocate memory.  Such memory will all have "consistent"
 * DMA mappings, accessible by the device and its driver without using
 * cache flushing primitives.  The actual size of blocks allocated may be
 * larger than requested because of alignment.
 *
 * If allocation is nonzero, objects returned from dma_pool_alloc() won't
 * cross that size boundary.  This is useful for devices which have
 * addressing restrictions on individual DMA transfers, such as not crossing
 * boundaries of 4KBytes.
 */
struct dma_pool *dma_pool_create(const char *name, struct device *dev,
				 size_t size, size_t align, size_t allocation)
{
	struct dma_pool *retval;

	if (align == 0)
		align = 1;
	if (size == 0)
		return NULL;
	else if (size < align)
		size = align;
	else if ((size % align) != 0) {
		size += align + 1;
		size &= ~(align - 1);
	}

	if (allocation == 0) {
		if (PAGE_SIZE < size)
			allocation = size;
		else
			allocation = PAGE_SIZE;
		/* FIXME: round up for less fragmentation */
	} else if (allocation < size)
		return NULL;

	if (!
	    (retval =
	     kmalloc_node(sizeof *retval, GFP_KERNEL, dev_to_node(dev))))
		return retval;

	strlcpy(retval->name, name, sizeof retval->name);

	retval->dev = dev;

	INIT_LIST_HEAD(&retval->page_list);
	spin_lock_init(&retval->lock);
	retval->size = size;
	retval->allocation = allocation;
	retval->blocks_per_page = allocation / size;
	init_waitqueue_head(&retval->waitq);

	if (dev) {
		int ret;

		mutex_lock(&pools_lock);
		if (list_empty(&dev->dma_pools))
			ret = device_create_file(dev, &dev_attr_pools);
		else
			ret = 0;
		/* note:  not currently insisting "name" be unique */
		if (!ret)
			list_add(&retval->pools, &dev->dma_pools);
		else {
			kfree(retval);
			retval = NULL;
		}
		mutex_unlock(&pools_lock);
	} else
		INIT_LIST_HEAD(&retval->pools);

	return retval;
}
EXPORT_SYMBOL(dma_pool_create);

static struct dma_page *pool_alloc_page(struct dma_pool *pool, gfp_t mem_flags)
{
	struct dma_page *page;
	int mapsize;

	mapsize = pool->blocks_per_page;
	mapsize = (mapsize + BITS_PER_LONG - 1) / BITS_PER_LONG;
	mapsize *= sizeof(long);

	page = kmalloc(mapsize + sizeof *page, mem_flags);
	if (!page)
		return NULL;
	page->vaddr = dma_alloc_coherent(pool->dev,
					 pool->allocation,
					 &page->dma, mem_flags);
	if (page->vaddr) {
		memset(page->bitmap, 0xff, mapsize);	/* bit set == free */
#ifdef	CONFIG_DEBUG_SLAB
		memset(page->vaddr, POOL_POISON_FREED, pool->allocation);
#endif
		list_add(&page->page_list, &pool->page_list);
		page->in_use = 0;
	} else {
		kfree(page);
		page = NULL;
	}
	return page;
}

static inline int is_page_busy(int blocks, unsigned long *bitmap)
{
	while (blocks > 0) {
		if (*bitmap++ != ~0UL)
			return 1;
		blocks -= BITS_PER_LONG;
	}
	return 0;
}

static void pool_free_page(struct dma_pool *pool, struct dma_page *page)
{
	dma_addr_t dma = page->dma;

#ifdef	CONFIG_DEBUG_SLAB
	memset(page->vaddr, POOL_POISON_FREED, pool->allocation);
#endif
	dma_free_coherent(pool->dev, pool->allocation, page->vaddr, dma);
	list_del(&page->page_list);
	kfree(page);
}

/**
 * dma_pool_destroy - destroys a pool of dma memory blocks.
 * @pool: dma pool that will be destroyed
 * Context: !in_interrupt()
 *
 * Caller guarantees that no more memory from the pool is in use,
 * and that nothing will try to use the pool after this call.
 */
void dma_pool_destroy(struct dma_pool *pool)
{
	mutex_lock(&pools_lock);
	list_del(&pool->pools);
	if (pool->dev && list_empty(&pool->dev->dma_pools))
		device_remove_file(pool->dev, &dev_attr_pools);
	mutex_unlock(&pools_lock);

	while (!list_empty(&pool->page_list)) {
		struct dma_page *page;
		page = list_entry(pool->page_list.next,
				  struct dma_page, page_list);
		if (is_page_busy(pool->blocks_per_page, page->bitmap)) {
			if (pool->dev)
				dev_err(pool->dev,
					"dma_pool_destroy %s, %p busy\n",
					pool->name, page->vaddr);
			else
				printk(KERN_ERR
				       "dma_pool_destroy %s, %p busy\n",
				       pool->name, page->vaddr);
			/* leak the still-in-use consistent memory */
			list_del(&page->page_list);
			kfree(page);
		} else
			pool_free_page(pool, page);
	}

	kfree(pool);
}
EXPORT_SYMBOL(dma_pool_destroy);

/**
 * dma_pool_alloc - get a block of consistent memory
 * @pool: dma pool that will produce the block
 * @mem_flags: GFP_* bitmask
 * @handle: pointer to dma address of block
 *
 * This returns the kernel virtual address of a currently unused block,
 * and reports its dma address through the handle.
 * If such a memory block can't be allocated, null is returned.
 */
void *dma_pool_alloc(struct dma_pool *pool, gfp_t mem_flags,
		     dma_addr_t *handle)
{
	unsigned long flags;
	struct dma_page *page;
	int map, block;
	size_t offset;
	void *retval;

	spin_lock_irqsave(&pool->lock, flags);
 restart:
	list_for_each_entry(page, &pool->page_list, page_list) {
		int i;
		/* only cachable accesses here ... */
		for (map = 0, i = 0;
		     i < pool->blocks_per_page; i += BITS_PER_LONG, map++) {
			if (page->bitmap[map] == 0)
				continue;
			block = ffz(~page->bitmap[map]);
			if ((i + block) < pool->blocks_per_page) {
				clear_bit(block, &page->bitmap[map]);
				offset = (BITS_PER_LONG * map) + block;
				offset *= pool->size;
				goto ready;
			}
		}
	}
	page = pool_alloc_page(pool, GFP_ATOMIC);
	if (!page) {
		if (mem_flags & __GFP_WAIT) {
			DECLARE_WAITQUEUE(wait, current);

			__set_current_state(TASK_INTERRUPTIBLE);
			__add_wait_queue(&pool->waitq, &wait);
			spin_unlock_irqrestore(&pool->lock, flags);

			schedule_timeout(POOL_TIMEOUT_JIFFIES);

			spin_lock_irqsave(&pool->lock, flags);
			__remove_wait_queue(&pool->waitq, &wait);
			goto restart;
		}
		retval = NULL;
		goto done;
	}

	clear_bit(0, &page->bitmap[0]);
	offset = 0;
 ready:
	page->in_use++;
	retval = offset + page->vaddr;
	*handle = offset + page->dma;
#ifdef	CONFIG_DEBUG_SLAB
	memset(retval, POOL_POISON_ALLOCATED, pool->size);
#endif
 done:
	spin_unlock_irqrestore(&pool->lock, flags);
	return retval;
}
EXPORT_SYMBOL(dma_pool_alloc);

static struct dma_page *pool_find_page(struct dma_pool *pool, dma_addr_t dma)
{
	unsigned long flags;
	struct dma_page *page;

	spin_lock_irqsave(&pool->lock, flags);
	list_for_each_entry(page, &pool->page_list, page_list) {
		if (dma < page->dma)
			continue;
		if (dma < (page->dma + pool->allocation))
			goto done;
	}
	page = NULL;
 done:
	spin_unlock_irqrestore(&pool->lock, flags);
	return page;
}

/**
 * dma_pool_free - put block back into dma pool
 * @pool: the dma pool holding the block
 * @vaddr: virtual address of block
 * @dma: dma address of block
 *
 * Caller promises neither device nor driver will again touch this block
 * unless it is first re-allocated.
 */
void dma_pool_free(struct dma_pool *pool, void *vaddr, dma_addr_t dma)
{
	struct dma_page *page;
	unsigned long flags;
	int map, block;

	page = pool_find_page(pool, dma);
	if (!page) {
		if (pool->dev)
			dev_err(pool->dev,
				"dma_pool_free %s, %p/%lx (bad dma)\n",
				pool->name, vaddr, (unsigned long)dma);
		else
			printk(KERN_ERR "dma_pool_free %s, %p/%lx (bad dma)\n",
			       pool->name, vaddr, (unsigned long)dma);
		return;
	}

	block = dma - page->dma;
	block /= pool->size;
	map = block / BITS_PER_LONG;
	block %= BITS_PER_LONG;

#ifdef	CONFIG_DEBUG_SLAB
	if (((dma - page->dma) + (void *)page->vaddr) != vaddr) {
		if (pool->dev)
			dev_err(pool->dev,
				"dma_pool_free %s, %p (bad vaddr)/%Lx\n",
				pool->name, vaddr, (unsigned long long)dma);
		else
			printk(KERN_ERR
			       "dma_pool_free %s, %p (bad vaddr)/%Lx\n",
			       pool->name, vaddr, (unsigned long long)dma);
		return;
	}
	if (page->bitmap[map] & (1UL << block)) {
		if (pool->dev)
			dev_err(pool->dev,
				"dma_pool_free %s, dma %Lx already free\n",
				pool->name, (unsigned long long)dma);
		else
			printk(KERN_ERR
			       "dma_pool_free %s, dma %Lx already free\n",
			       pool->name, (unsigned long long)dma);
		return;
	}
	memset(vaddr, POOL_POISON_FREED, pool->size);
#endif

	spin_lock_irqsave(&pool->lock, flags);
	page->in_use--;
	set_bit(block, &page->bitmap[map]);
	if (waitqueue_active(&pool->waitq))
		wake_up_locked(&pool->waitq);
	/*
	 * Resist a temptation to do
	 *    if (!is_page_busy(bpp, page->bitmap)) pool_free_page(pool, page);
	 * Better have a few empty pages hang around.
	 */
	spin_unlock_irqrestore(&pool->lock, flags);
}
EXPORT_SYMBOL(dma_pool_free);

/*
 * Managed DMA pool
 */
static void dmam_pool_release(struct device *dev, void *res)
{
	struct dma_pool *pool = *(struct dma_pool **)res;

	dma_pool_destroy(pool);
}

static int dmam_pool_match(struct device *dev, void *res, void *match_data)
{
	return *(struct dma_pool **)res == match_data;
}

/**
 * dmam_pool_create - Managed dma_pool_create()
 * @name: name of pool, for diagnostics
 * @dev: device that will be doing the DMA
 * @size: size of the blocks in this pool.
 * @align: alignment requirement for blocks; must be a power of two
 * @allocation: returned blocks won't cross this boundary (or zero)
 *
 * Managed dma_pool_create().  DMA pool created with this function is
 * automatically destroyed on driver detach.
 */
struct dma_pool *dmam_pool_create(const char *name, struct device *dev,
				  size_t size, size_t align, size_t allocation)
{
	struct dma_pool **ptr, *pool;

	ptr = devres_alloc(dmam_pool_release, sizeof(*ptr), GFP_KERNEL);
	if (!ptr)
		return NULL;

	pool = *ptr = dma_pool_create(name, dev, size, align, allocation);
	if (pool)
		devres_add(dev, ptr);
	else
		devres_free(ptr);

	return pool;
}
EXPORT_SYMBOL(dmam_pool_create);

/**
 * dmam_pool_destroy - Managed dma_pool_destroy()
 * @pool: dma pool that will be destroyed
 *
 * Managed dma_pool_destroy().
 */
void dmam_pool_destroy(struct dma_pool *pool)
{
	struct device *dev = pool->dev;

	dma_pool_destroy(pool);
	WARN_ON(devres_destroy(dev, dmam_pool_release, dmam_pool_match, pool));
}
EXPORT_SYMBOL(dmam_pool_destroy);