include/linux/ion.h - SHIFTPHONES/kernel/common - Gitiles

 /* SPDX-License-Identifier: GPL-2.0-only */
 /*
  * Copyright (c) 2019, The Linux Foundation. All rights reserved.
  */

 #ifndef _ION_KERNEL_H
 #define _ION_KERNEL_H

 #include <linux/dma-buf.h>
 #include <linux/err.h>
 #include <linux/device.h>
 #include <linux/dma-direction.h>
 #include <linux/kref.h>
 #include <linux/mm_types.h>
 #include <linux/module.h>
 #include <linux/mutex.h>
 #include <linux/rbtree.h>
 #include <linux/sched.h>
 #include <linux/shrinker.h>
 #include <linux/types.h>
 #include <uapi/linux/ion.h>

 /**
  * struct ion_buffer - metadata for a particular buffer
  * @list:		element in list of deferred freeable buffers
  * @heap:		back pointer to the heap the buffer came from
  * @flags:		buffer specific flags
  * @private_flags:	internal buffer specific flags
  * @size:		size of the buffer
  * @priv_virt:		private data to the buffer representable as
  *			a void *
  * @lock:		protects the buffers cnt fields
  * @kmap_cnt:		number of times the buffer is mapped to the kernel
  * @vaddr:		the kernel mapping if kmap_cnt is not zero
  * @sg_table:		the sg table for the buffer
  * @attachments:	list of devices attached to this buffer
  */
 struct ion_buffer {
 	struct list_head list;
 	struct ion_heap *heap;
 	unsigned long flags;
 	unsigned long private_flags;
 	size_t size;
 	void *priv_virt;
 	struct mutex lock;
 	int kmap_cnt;
 	void *vaddr;
 	struct sg_table *sg_table;
 	struct list_head attachments;
 };

 /**
  * struct ion_heap_ops - ops to operate on a given heap
  * @allocate:		allocate memory
  * @free:		free memory
  * @get_pool_size:	get pool size in pages
  *
  * allocate returns 0 on success, -errno on error.
  * map_dma and map_kernel return pointer on success, ERR_PTR on
  * error. @free will be called with ION_PRIV_FLAG_SHRINKER_FREE set in
  * the buffer's private_flags when called from a shrinker. In that
  * case, the pages being free'd must be truly free'd back to the
  * system, not put in a page pool or otherwise cached.
  */
 struct ion_heap_ops {
 	int (*allocate)(struct ion_heap *heap,
 			struct ion_buffer *buffer, unsigned long len,
 			unsigned long flags);
 	void (*free)(struct ion_buffer *buffer);
 	int (*shrink)(struct ion_heap *heap, gfp_t gfp_mask, int nr_to_scan);
 	long (*get_pool_size)(struct ion_heap *heap);
 };

 /**
  * heap flags - flags between the heaps and core ion code
  */
 #define ION_HEAP_FLAG_DEFER_FREE BIT(0)

 /**
  * private flags - flags internal to ion
  */
 /*
  * Buffer is being freed from a shrinker function. Skip any possible
  * heap-specific caching mechanism (e.g. page pools). Guarantees that
  * any buffer storage that came from the system allocator will be
  * returned to the system allocator.
  */
 #define ION_PRIV_FLAG_SHRINKER_FREE BIT(0)

 /**
  * struct ion_heap - represents a heap in the system
  * @node:		rb node to put the heap on the device's tree of heaps
  * @type:		type of heap
  * @ops:		ops struct as above
  * @buf_ops:		dma_buf ops specific to the heap implementation.
  * @flags:		flags
  * @id:			id of heap, also indicates priority of this heap when
  *			allocating.  These are specified by platform data and
  *			MUST be unique
  * @name:		used for debugging
  * @owner:		kernel module that implements this heap
  * @shrinker:		a shrinker for the heap
  * @free_list:		free list head if deferred free is used
  * @free_list_size	size of the deferred free list in bytes
  * @lock:		protects the free list
  * @waitqueue:		queue to wait on from deferred free thread
  * @task:		task struct of deferred free thread
  * @num_of_buffers	the number of currently allocated buffers
  * @num_of_alloc_bytes	the number of allocated bytes
  * @alloc_bytes_wm	the number of allocated bytes watermark
  *
  * Represents a pool of memory from which buffers can be made.  In some
  * systems the only heap is regular system memory allocated via vmalloc.
  * On others, some blocks might require large physically contiguous buffers
  * that are allocated from a specially reserved heap.
  */
 struct ion_heap {
 	struct plist_node node;
 	enum ion_heap_type type;
 	struct ion_heap_ops *ops;
 	struct dma_buf_ops buf_ops;
 	unsigned long flags;
 	unsigned int id;
 	const char *name;
 	struct module *owner;

 	/* deferred free support */
 	struct shrinker shrinker;
 	struct list_head free_list;
 	size_t free_list_size;
 	spinlock_t free_lock;
 	wait_queue_head_t waitqueue;
 	struct task_struct *task;

 	/* heap statistics */
 	u64 num_of_buffers;
 	u64 num_of_alloc_bytes;
 	u64 alloc_bytes_wm;

 	/* protect heap statistics */
 	spinlock_t stat_lock;

 	/* heap's debugfs root */
 	struct dentry *debugfs_dir;
 };

 #define ion_device_add_heap(heap) __ion_device_add_heap(heap, THIS_MODULE)

 /**
  * struct ion_dma_buf_attachment - hold device-table attachment data for buffer
  * @dev:	device attached to the buffer.
  * @table:	cached mapping.
  * @list:	list of ion_dma_buf_attachment.
  */
 struct ion_dma_buf_attachment {
 	struct device *dev;
 	struct sg_table *table;
 	struct list_head list;
 	bool mapped:1;
 };

 #ifdef CONFIG_ION

 /**
  * __ion_device_add_heap - adds a heap to the ion device
  *
  * @heap:               the heap to add
  *
  * Returns 0 on success, negative error otherwise.
  */
 int __ion_device_add_heap(struct ion_heap *heap, struct module *owner);

 /**
  * ion_device_remove_heap - removes a heap from ion device
  *
  * @heap:		pointer to the heap to be removed
  */
 void ion_device_remove_heap(struct ion_heap *heap);

 /**
  * ion_heap_init_shrinker
  * @heap:		the heap
  *
  * If a heap sets the ION_HEAP_FLAG_DEFER_FREE flag or defines the shrink op
  * this function will be called to setup a shrinker to shrink the freelists
  * and call the heap's shrink op.
  */
 int ion_heap_init_shrinker(struct ion_heap *heap);

 /**
  * ion_heap_init_deferred_free -- initialize deferred free functionality
  * @heap:		the heap
  *
  * If a heap sets the ION_HEAP_FLAG_DEFER_FREE flag this function will
  * be called to setup deferred frees. Calls to free the buffer will
  * return immediately and the actual free will occur some time later
  */
 int ion_heap_init_deferred_free(struct ion_heap *heap);

 /**
  * ion_heap_freelist_add - add a buffer to the deferred free list
  * @heap:		the heap
  * @buffer:		the buffer
  *
  * Adds an item to the deferred freelist.
  */
 void ion_heap_freelist_add(struct ion_heap *heap, struct ion_buffer *buffer);

 /**
  * ion_heap_freelist_drain - drain the deferred free list
  * @heap:		the heap
  * @size:		amount of memory to drain in bytes
  *
  * Drains the indicated amount of memory from the deferred freelist immediately.
  * Returns the total amount freed.  The total freed may be higher depending
  * on the size of the items in the list, or lower if there is insufficient
  * total memory on the freelist.
  */
 size_t ion_heap_freelist_drain(struct ion_heap *heap, size_t size);

 /**
  * ion_heap_freelist_shrink - drain the deferred free
  *				list, skipping any heap-specific
  *				pooling or caching mechanisms
  *
  * @heap:		the heap
  * @size:		amount of memory to drain in bytes
  *
  * Drains the indicated amount of memory from the deferred freelist immediately.
  * Returns the total amount freed.  The total freed may be higher depending
  * on the size of the items in the list, or lower if there is insufficient
  * total memory on the freelist.
  *
  * Unlike with @ion_heap_freelist_drain, don't put any pages back into
  * page pools or otherwise cache the pages. Everything must be
  * genuinely free'd back to the system. If you're free'ing from a
  * shrinker you probably want to use this. Note that this relies on
  * the heap.ops.free callback honoring the ION_PRIV_FLAG_SHRINKER_FREE
  * flag.
  */
 size_t ion_heap_freelist_shrink(struct ion_heap *heap,
 				size_t size);

 /**
  * ion_heap_freelist_size - returns the size of the freelist in bytes
  * @heap:		the heap
  */
 size_t ion_heap_freelist_size(struct ion_heap *heap);

 /**
  * ion_heap_map_kernel - map the ion_buffer in kernel virtual address space.
  *
  * @heap:               the heap
  * @buffer:             buffer to be mapped
  *
  * Maps the buffer using vmap(). The function respects cache flags for the
  * buffer and creates the page table entries accordingly. Returns virtual
  * address at the beginning of the buffer or ERR_PTR.
  */
 void *ion_heap_map_kernel(struct ion_heap *heap, struct ion_buffer *buffer);

 /**
  * ion_heap_unmap_kernel - unmap ion_buffer
  *
  * @buffer:             buffer to be unmapped
  *
  * ION wrapper for vunmap() of the ion buffer.
  */
 void ion_heap_unmap_kernel(struct ion_heap *heap, struct ion_buffer *buffer);

 /**
  * ion_heap_map_user - map given ion buffer in provided vma
  *
  * @heap:               the heap this buffer belongs to
  * @buffer:             Ion buffer to be mapped
  * @vma:                vma of the process where buffer should be mapped.
  *
  * Maps the buffer using remap_pfn_range() into specific process's vma starting
  * with vma->vm_start. The vma size is expected to be >= ion buffer size.
  * If not, a partial buffer mapping may be created. Returns 0 on success.
  */
 int ion_heap_map_user(struct ion_heap *heap, struct ion_buffer *buffer,
 		      struct vm_area_struct *vma);

 /* ion_buffer_zero - zeroes out an ion buffer respecting the ION_FLAGs.
  *
  * @buffer:		ion_buffer to zero
  *
  * Returns 0 on success, negative error otherwise.
  */
 int ion_buffer_zero(struct ion_buffer *buffer);

 /**
  * ion_buffer_prep_noncached - flush cache before non-cached mapping
  *
  * @buffer:		ion_buffer to flush
  *
  * The memory allocated by the heap could be in the CPU cache. To map
  * this memory as non-cached, we need to flush the associated cache
  * first. Without the flush, it is possible for stale dirty cache lines
  * to be evicted after the ION client started writing into this buffer,
  * leading to data corruption.
  */
 void ion_buffer_prep_noncached(struct ion_buffer *buffer);

 /**
  * ion_alloc - Allocates an ion buffer of given size from given heap
  *
  * @len:               size of the buffer to be allocated.
  * @heap_id_mask:      a bitwise maks of heap ids to allocate from
  * @flags:             ION_BUFFER_XXXX flags for the new buffer.
  *
  * The function exports a dma_buf object for the new ion buffer internally
  * and returns that to the caller. So, the buffer is ready to be used by other
  * drivers immediately. Returns ERR_PTR in case of failure.
  */
 struct dma_buf *ion_alloc(size_t len, unsigned int heap_id_mask,
 			  unsigned int flags);

 /**
  * ion_free - Releases the ion buffer.
  *
  * @buffer:             ion buffer to be released
  */
 int ion_free(struct ion_buffer *buffer);

 /**
  * ion_query_heaps_kernel - Returns information about available heaps to
  * in-kernel clients.
  *
  * @hdata:             pointer to array of struct ion_heap_data.
  * @size:             size of @hdata array.
  *
  * Returns the number of available heaps and populates @hdata with information
  * regarding the same. When invoked with @size as 0, the function with return
  * the number of available heaps without modifying @hdata. When the number of
  * available heaps is higher than @size, @size is returned instead of the
  * actual number of available heaps.
  */

 size_t ion_query_heaps_kernel(struct ion_heap_data *hdata, size_t size);
 #else

 static inline int __ion_device_add_heap(struct ion_heap *heap,
 				      struct module *owner)
 {
 	return -ENODEV;
 }

 static inline int ion_heap_init_shrinker(struct ion_heap *heap)
 {
 	return -ENODEV;
 }

 static inline int ion_heap_init_deferred_free(struct ion_heap *heap)
 {
 	return -ENODEV;
 }

 static inline void ion_heap_freelist_add(struct ion_heap *heap,
 					 struct ion_buffer *buffer) {}

 static inline size_t ion_heap_freelist_drain(struct ion_heap *heap, size_t size)
 {
 	return -ENODEV;
 }

 static inline size_t ion_heap_freelist_shrink(struct ion_heap *heap,
 					      size_t size)
 {
 	return -ENODEV;
 }

 static inline size_t ion_heap_freelist_size(struct ion_heap *heap)
 {
 	return -ENODEV;
 }

 static inline void *ion_heap_map_kernel(struct ion_heap *heap,
 					struct ion_buffer *buffer)
 {
 	return ERR_PTR(-ENODEV);
 }

 static inline void ion_heap_unmap_kernel(struct ion_heap *heap,
 					 struct ion_buffer *buffer) {}

 static inline int ion_heap_map_user(struct ion_heap *heap,
 				    struct ion_buffer *buffer,
 				    struct vm_area_struct *vma)
 {
 	return -ENODEV;
 }

 static inline int ion_buffer_zero(struct ion_buffer *buffer)
 {
 	return -EINVAL;
 }

 static inline void ion_buffer_prep_noncached(struct ion_buffer *buffer) {}

 static inline struct dma_buf *ion_alloc(size_t len, unsigned int heap_id_mask,
 					unsigned int flags)
 {
 	return ERR_PTR(-ENOMEM);
 }

 static inline int ion_free(struct ion_buffer *buffer)
 {
 	return 0;
 }

 static inline size_t ion_query_heaps_kernel(struct ion_heap_data *hdata,
 					 size_t size)
 {
 	return 0;
 }
 #endif /* CONFIG_ION */
 #endif /* _ION_KERNEL_H */
	/* SPDX-License-Identifier: GPL-2.0-only */
	/*
	* Copyright (c) 2019, The Linux Foundation. All rights reserved.
	*/

	#ifndef _ION_KERNEL_H
	#define _ION_KERNEL_H

	#include <linux/dma-buf.h>
	#include <linux/err.h>
	#include <linux/device.h>
	#include <linux/dma-direction.h>
	#include <linux/kref.h>
	#include <linux/mm_types.h>
	#include <linux/module.h>
	#include <linux/mutex.h>
	#include <linux/rbtree.h>
	#include <linux/sched.h>
	#include <linux/shrinker.h>
	#include <linux/types.h>
	#include <uapi/linux/ion.h>

	/**
	* struct ion_buffer - metadata for a particular buffer
	* @list: element in list of deferred freeable buffers
	* @heap: back pointer to the heap the buffer came from
	* @flags: buffer specific flags
	* @private_flags: internal buffer specific flags
	* @size: size of the buffer
	* @priv_virt: private data to the buffer representable as
	* a void *
	* @lock: protects the buffers cnt fields
	* @kmap_cnt: number of times the buffer is mapped to the kernel
	* @vaddr: the kernel mapping if kmap_cnt is not zero
	* @sg_table: the sg table for the buffer
	* @attachments: list of devices attached to this buffer
	*/
	struct ion_buffer {
	struct list_head list;
	struct ion_heap *heap;
	unsigned long flags;
	unsigned long private_flags;
	size_t size;
	void *priv_virt;
	struct mutex lock;
	int kmap_cnt;
	void *vaddr;
	struct sg_table *sg_table;
	struct list_head attachments;
	};

	/**
	* struct ion_heap_ops - ops to operate on a given heap
	* @allocate: allocate memory
	* @free: free memory
	* @get_pool_size: get pool size in pages
	*
	* allocate returns 0 on success, -errno on error.
	* map_dma and map_kernel return pointer on success, ERR_PTR on
	* error. @free will be called with ION_PRIV_FLAG_SHRINKER_FREE set in
	* the buffer's private_flags when called from a shrinker. In that
	* case, the pages being free'd must be truly free'd back to the
	* system, not put in a page pool or otherwise cached.
	*/
	struct ion_heap_ops {
	int (allocate)(struct ion_heap heap,
	struct ion_buffer *buffer, unsigned long len,
	unsigned long flags);
	void (free)(struct ion_buffer buffer);
	int (shrink)(struct ion_heap heap, gfp_t gfp_mask, int nr_to_scan);
	long (get_pool_size)(struct ion_heap heap);
	};

	/**
	* heap flags - flags between the heaps and core ion code
	*/
	#define ION_HEAP_FLAG_DEFER_FREE BIT(0)

	/**
	* private flags - flags internal to ion
	*/
	/*
	* Buffer is being freed from a shrinker function. Skip any possible
	* heap-specific caching mechanism (e.g. page pools). Guarantees that
	* any buffer storage that came from the system allocator will be
	* returned to the system allocator.
	*/
	#define ION_PRIV_FLAG_SHRINKER_FREE BIT(0)

	/**
	* struct ion_heap - represents a heap in the system
	* @node: rb node to put the heap on the device's tree of heaps
	* @type: type of heap
	* @ops: ops struct as above
	* @buf_ops: dma_buf ops specific to the heap implementation.
	* @flags: flags
	* @id: id of heap, also indicates priority of this heap when
	* allocating. These are specified by platform data and
	* MUST be unique
	* @name: used for debugging
	* @owner: kernel module that implements this heap
	* @shrinker: a shrinker for the heap
	* @free_list: free list head if deferred free is used
	* @free_list_size size of the deferred free list in bytes
	* @lock: protects the free list
	* @waitqueue: queue to wait on from deferred free thread
	* @task: task struct of deferred free thread
	* @num_of_buffers the number of currently allocated buffers
	* @num_of_alloc_bytes the number of allocated bytes
	* @alloc_bytes_wm the number of allocated bytes watermark
	*
	* Represents a pool of memory from which buffers can be made. In some
	* systems the only heap is regular system memory allocated via vmalloc.
	* On others, some blocks might require large physically contiguous buffers
	* that are allocated from a specially reserved heap.
	*/
	struct ion_heap {
	struct plist_node node;
	enum ion_heap_type type;
	struct ion_heap_ops *ops;
	struct dma_buf_ops buf_ops;
	unsigned long flags;
	unsigned int id;
	const char *name;
	struct module *owner;

	/* deferred free support */
	struct shrinker shrinker;
	struct list_head free_list;
	size_t free_list_size;
	spinlock_t free_lock;
	wait_queue_head_t waitqueue;
	struct task_struct *task;

	/* heap statistics */
	u64 num_of_buffers;
	u64 num_of_alloc_bytes;
	u64 alloc_bytes_wm;

	/* protect heap statistics */
	spinlock_t stat_lock;

	/* heap's debugfs root */
	struct dentry *debugfs_dir;
	};

	#define ion_device_add_heap(heap) __ion_device_add_heap(heap, THIS_MODULE)

	/**
	* struct ion_dma_buf_attachment - hold device-table attachment data for buffer
	* @dev: device attached to the buffer.
	* @table: cached mapping.
	* @list: list of ion_dma_buf_attachment.
	*/
	struct ion_dma_buf_attachment {
	struct device *dev;
	struct sg_table *table;
	struct list_head list;
	bool mapped:1;
	};

	#ifdef CONFIG_ION

	/**
	* __ion_device_add_heap - adds a heap to the ion device
	*
	* @heap: the heap to add
	*
	* Returns 0 on success, negative error otherwise.
	*/
	int __ion_device_add_heap(struct ion_heap heap, struct module owner);

	/**
	* ion_device_remove_heap - removes a heap from ion device
	*
	* @heap: pointer to the heap to be removed
	*/
	void ion_device_remove_heap(struct ion_heap *heap);

	/**
	* ion_heap_init_shrinker
	* @heap: the heap
	*
	* If a heap sets the ION_HEAP_FLAG_DEFER_FREE flag or defines the shrink op
	* this function will be called to setup a shrinker to shrink the freelists
	* and call the heap's shrink op.
	*/
	int ion_heap_init_shrinker(struct ion_heap *heap);

	/**
	* ion_heap_init_deferred_free -- initialize deferred free functionality
	* @heap: the heap
	*
	* If a heap sets the ION_HEAP_FLAG_DEFER_FREE flag this function will
	* be called to setup deferred frees. Calls to free the buffer will
	* return immediately and the actual free will occur some time later
	*/
	int ion_heap_init_deferred_free(struct ion_heap *heap);

	/**
	* ion_heap_freelist_add - add a buffer to the deferred free list
	* @heap: the heap
	* @buffer: the buffer
	*
	* Adds an item to the deferred freelist.
	*/
	void ion_heap_freelist_add(struct ion_heap heap, struct ion_buffer buffer);

	/**
	* ion_heap_freelist_drain - drain the deferred free list
	* @heap: the heap
	* @size: amount of memory to drain in bytes
	*
	* Drains the indicated amount of memory from the deferred freelist immediately.
	* Returns the total amount freed. The total freed may be higher depending
	* on the size of the items in the list, or lower if there is insufficient
	* total memory on the freelist.
	*/
	size_t ion_heap_freelist_drain(struct ion_heap *heap, size_t size);

	/**
	* ion_heap_freelist_shrink - drain the deferred free
	* list, skipping any heap-specific
	* pooling or caching mechanisms
	*
	* @heap: the heap
	* @size: amount of memory to drain in bytes
	*
	* Drains the indicated amount of memory from the deferred freelist immediately.
	* Returns the total amount freed. The total freed may be higher depending
	* on the size of the items in the list, or lower if there is insufficient
	* total memory on the freelist.
	*
	* Unlike with @ion_heap_freelist_drain, don't put any pages back into
	* page pools or otherwise cache the pages. Everything must be
	* genuinely free'd back to the system. If you're free'ing from a
	* shrinker you probably want to use this. Note that this relies on
	* the heap.ops.free callback honoring the ION_PRIV_FLAG_SHRINKER_FREE
	* flag.
	*/
	size_t ion_heap_freelist_shrink(struct ion_heap *heap,
	size_t size);

	/**
	* ion_heap_freelist_size - returns the size of the freelist in bytes
	* @heap: the heap
	*/
	size_t ion_heap_freelist_size(struct ion_heap *heap);

	/**
	* ion_heap_map_kernel - map the ion_buffer in kernel virtual address space.
	*
	* @heap: the heap
	* @buffer: buffer to be mapped
	*
	* Maps the buffer using vmap(). The function respects cache flags for the
	* buffer and creates the page table entries accordingly. Returns virtual
	* address at the beginning of the buffer or ERR_PTR.
	*/
	void ion_heap_map_kernel(struct ion_heap heap, struct ion_buffer *buffer);

	/**
	* ion_heap_unmap_kernel - unmap ion_buffer
	*
	* @buffer: buffer to be unmapped
	*
	* ION wrapper for vunmap() of the ion buffer.
	*/
	void ion_heap_unmap_kernel(struct ion_heap heap, struct ion_buffer buffer);

	/**
	* ion_heap_map_user - map given ion buffer in provided vma
	*
	* @heap: the heap this buffer belongs to
	* @buffer: Ion buffer to be mapped
	* @vma: vma of the process where buffer should be mapped.
	*
	* Maps the buffer using remap_pfn_range() into specific process's vma starting
	* with vma->vm_start. The vma size is expected to be >= ion buffer size.
	* If not, a partial buffer mapping may be created. Returns 0 on success.
	*/
	int ion_heap_map_user(struct ion_heap heap, struct ion_buffer buffer,
	struct vm_area_struct *vma);

	/* ion_buffer_zero - zeroes out an ion buffer respecting the ION_FLAGs.
	*
	* @buffer: ion_buffer to zero
	*
	* Returns 0 on success, negative error otherwise.
	*/
	int ion_buffer_zero(struct ion_buffer *buffer);

	/**
	* ion_buffer_prep_noncached - flush cache before non-cached mapping
	*
	* @buffer: ion_buffer to flush
	*
	* The memory allocated by the heap could be in the CPU cache. To map
	* this memory as non-cached, we need to flush the associated cache
	* first. Without the flush, it is possible for stale dirty cache lines
	* to be evicted after the ION client started writing into this buffer,
	* leading to data corruption.
	*/
	void ion_buffer_prep_noncached(struct ion_buffer *buffer);

	/**
	* ion_alloc - Allocates an ion buffer of given size from given heap
	*
	* @len: size of the buffer to be allocated.
	* @heap_id_mask: a bitwise maks of heap ids to allocate from
	* @flags: ION_BUFFER_XXXX flags for the new buffer.
	*
	* The function exports a dma_buf object for the new ion buffer internally
	* and returns that to the caller. So, the buffer is ready to be used by other
	* drivers immediately. Returns ERR_PTR in case of failure.
	*/
	struct dma_buf *ion_alloc(size_t len, unsigned int heap_id_mask,
	unsigned int flags);

	/**
	* ion_free - Releases the ion buffer.
	*
	* @buffer: ion buffer to be released
	*/
	int ion_free(struct ion_buffer *buffer);

	/**
	* ion_query_heaps_kernel - Returns information about available heaps to
	* in-kernel clients.
	*
	* @hdata: pointer to array of struct ion_heap_data.
	* @size: size of @hdata array.
	*
	* Returns the number of available heaps and populates @hdata with information
	* regarding the same. When invoked with @size as 0, the function with return
	* the number of available heaps without modifying @hdata. When the number of
	* available heaps is higher than @size, @size is returned instead of the
	* actual number of available heaps.
	*/

	size_t ion_query_heaps_kernel(struct ion_heap_data *hdata, size_t size);
	#else

	static inline int __ion_device_add_heap(struct ion_heap *heap,
	struct module *owner)
	{
	return -ENODEV;
	}

	static inline int ion_heap_init_shrinker(struct ion_heap *heap)
	{
	return -ENODEV;
	}

	static inline int ion_heap_init_deferred_free(struct ion_heap *heap)
	{
	return -ENODEV;
	}

	static inline void ion_heap_freelist_add(struct ion_heap *heap,
	struct ion_buffer *buffer) {}

	static inline size_t ion_heap_freelist_drain(struct ion_heap *heap, size_t size)
	{
	return -ENODEV;
	}

	static inline size_t ion_heap_freelist_shrink(struct ion_heap *heap,
	size_t size)
	{
	return -ENODEV;
	}

	static inline size_t ion_heap_freelist_size(struct ion_heap *heap)
	{
	return -ENODEV;
	}

	static inline void ion_heap_map_kernel(struct ion_heap heap,
	struct ion_buffer *buffer)
	{
	return ERR_PTR(-ENODEV);
	}

	static inline void ion_heap_unmap_kernel(struct ion_heap *heap,
	struct ion_buffer *buffer) {}

	static inline int ion_heap_map_user(struct ion_heap *heap,
	struct ion_buffer *buffer,
	struct vm_area_struct *vma)
	{
	return -ENODEV;
	}

	static inline int ion_buffer_zero(struct ion_buffer *buffer)
	{
	return -EINVAL;
	}

	static inline void ion_buffer_prep_noncached(struct ion_buffer *buffer) {}

	static inline struct dma_buf *ion_alloc(size_t len, unsigned int heap_id_mask,
	unsigned int flags)
	{
	return ERR_PTR(-ENOMEM);
	}

	static inline int ion_free(struct ion_buffer *buffer)
	{
	return 0;
	}

	static inline size_t ion_query_heaps_kernel(struct ion_heap_data *hdata,
	size_t size)
	{
	return 0;
	}
	#endif /* CONFIG_ION */
	#endif /* _ION_KERNEL_H */