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/*
*
* Copyright (c) 2012-2013, The Linux Foundation. All rights reserved.
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#ifndef _LINUX_MSM_ION_H
#define _LINUX_MSM_ION_H
#include <linux/ion.h>
enum msm_ion_heap_types {
ION_HEAP_TYPE_MSM_START = ION_HEAP_TYPE_CUSTOM + 1,
ION_HEAP_TYPE_IOMMU = ION_HEAP_TYPE_MSM_START,
ION_HEAP_TYPE_CP,
};
/**
* These are the only ids that should be used for Ion heap ids.
* The ids listed are the order in which allocation will be attempted
* if specified. Don't swap the order of heap ids unless you know what
* you are doing!
* Id's are spaced by purpose to allow new Id's to be inserted in-between (for
* possible fallbacks)
*/
enum ion_heap_ids {
INVALID_HEAP_ID = -1,
ION_CP_MM_HEAP_ID = 8,
ION_CP_MFC_HEAP_ID = 12,
ION_CP_WB_HEAP_ID = 16, /* 8660 only */
ION_CAMERA_HEAP_ID = 20, /* 8660 only */
ION_PIL1_HEAP_ID = 23, /* Currently used for other PIL images */
ION_SF_HEAP_ID = 24,
ION_IOMMU_HEAP_ID = 25,
ION_PIL2_HEAP_ID = 26, /* Currently used for modem firmware images */
ION_QSECOM_HEAP_ID = 27,
ION_AUDIO_HEAP_ID = 28,
ION_MM_FIRMWARE_HEAP_ID = 29,
ION_SYSTEM_HEAP_ID = 30,
ION_HEAP_ID_RESERVED = 31 /** Bit reserved for ION_SECURE flag */
};
enum ion_fixed_position {
NOT_FIXED,
FIXED_LOW,
FIXED_MIDDLE,
FIXED_HIGH,
};
enum cp_mem_usage {
VIDEO_BITSTREAM = 0x1,
VIDEO_PIXEL = 0x2,
VIDEO_NONPIXEL = 0x3,
MAX_USAGE = 0x4,
UNKNOWN = 0x7FFFFFFF,
};
#define ION_HEAP_CP_MASK (1 << ION_HEAP_TYPE_CP)
/**
* Flag to use when allocating to indicate that a heap is secure.
*/
#define ION_SECURE (1 << ION_HEAP_ID_RESERVED)
/**
* Flag for clients to force contiguous memort allocation
*
* Use of this flag is carefully monitored!
*/
#define ION_FORCE_CONTIGUOUS (1 << 30)
/**
* Macro should be used with ion_heap_ids defined above.
*/
#define ION_HEAP(bit) (1 << (bit))
#define ION_VMALLOC_HEAP_NAME "vmalloc"
#define ION_AUDIO_HEAP_NAME "audio"
#define ION_SF_HEAP_NAME "sf"
#define ION_MM_HEAP_NAME "mm"
#define ION_CAMERA_HEAP_NAME "camera_preview"
#define ION_IOMMU_HEAP_NAME "iommu"
#define ION_MFC_HEAP_NAME "mfc"
#define ION_WB_HEAP_NAME "wb"
#define ION_MM_FIRMWARE_HEAP_NAME "mm_fw"
#define ION_PIL1_HEAP_NAME "pil_1"
#define ION_PIL2_HEAP_NAME "pil_2"
#define ION_QSECOM_HEAP_NAME "qsecom"
#define ION_FMEM_HEAP_NAME "fmem"
#define ION_SET_CACHED(__cache) (__cache | ION_FLAG_CACHED)
#define ION_SET_UNCACHED(__cache) (__cache & ~ION_FLAG_CACHED)
#define ION_IS_CACHED(__flags) ((__flags) & ION_FLAG_CACHED)
#ifdef __KERNEL__
/*
* This flag allows clients when mapping into the IOMMU to specify to
* defer un-mapping from the IOMMU until the buffer memory is freed.
*/
#define ION_IOMMU_UNMAP_DELAYED 1
/*
* This flag allows clients to defer unsecuring a buffer until the buffer
* is actually freed.
*/
#define ION_UNSECURE_DELAYED 1
/**
* struct ion_cp_heap_pdata - defines a content protection heap in the given
* platform
* @permission_type: Memory ID used to identify the memory to TZ
* @align: Alignment requirement for the memory
* @secure_base: Base address for securing the heap.
* Note: This might be different from actual base address
* of this heap in the case of a shared heap.
* @secure_size: Memory size for securing the heap.
* Note: This might be different from actual size
* of this heap in the case of a shared heap.
* @reusable Flag indicating whether this heap is reusable of not.
* (see FMEM)
* @mem_is_fmem Flag indicating whether this memory is coming from fmem
* or not.
* @fixed_position If nonzero, position in the fixed area.
* @virt_addr: Virtual address used when using fmem.
* @iommu_map_all: Indicates whether we should map whole heap into IOMMU.
* @iommu_2x_map_domain: Indicates the domain to use for overmapping.
* @request_region: function to be called when the number of allocations
* goes from 0 -> 1
* @release_region: function to be called when the number of allocations
* goes from 1 -> 0
* @setup_region: function to be called upon ion registration
* @memory_type:Memory type used for the heap
* @allow_nonsecure_alloc: allow non-secure allocations from this heap. For
* secure heaps, this flag must be set so allow non-secure
* allocations. For non-secure heaps, this flag is ignored.
*
*/
struct ion_cp_heap_pdata {
enum ion_permission_type permission_type;
unsigned int align;
ion_phys_addr_t secure_base; /* Base addr used when heap is shared */
size_t secure_size; /* Size used for securing heap when heap is shared*/
int reusable;
int mem_is_fmem;
int is_cma;
enum ion_fixed_position fixed_position;
int iommu_map_all;
int iommu_2x_map_domain;
ion_virt_addr_t *virt_addr;
int (*request_region)(void *);
int (*release_region)(void *);
void *(*setup_region)(void);
enum ion_memory_types memory_type;
int allow_nonsecure_alloc;
};
/**
* struct ion_co_heap_pdata - defines a carveout heap in the given platform
* @adjacent_mem_id: Id of heap that this heap must be adjacent to.
* @align: Alignment requirement for the memory
* @mem_is_fmem Flag indicating whether this memory is coming from fmem
* or not.
* @fixed_position If nonzero, position in the fixed area.
* @request_region: function to be called when the number of allocations
* goes from 0 -> 1
* @release_region: function to be called when the number of allocations
* goes from 1 -> 0
* @setup_region: function to be called upon ion registration
* @memory_type:Memory type used for the heap
*
*/
struct ion_co_heap_pdata {
int adjacent_mem_id;
unsigned int align;
int mem_is_fmem;
enum ion_fixed_position fixed_position;
int (*request_region)(void *);
int (*release_region)(void *);
void *(*setup_region)(void);
enum ion_memory_types memory_type;
};
#ifdef CONFIG_ION
/**
* msm_ion_secure_heap - secure a heap. Wrapper around ion_secure_heap.
*
* @heap_id - heap id to secure.
*
* Secure a heap
* Returns 0 on success
*/
int msm_ion_secure_heap(int heap_id);
/**
* msm_ion_unsecure_heap - unsecure a heap. Wrapper around ion_unsecure_heap.
*
* @heap_id - heap id to secure.
*
* Un-secure a heap
* Returns 0 on success
*/
int msm_ion_unsecure_heap(int heap_id);
/**
* msm_ion_secure_heap_2_0 - secure a heap using 2.0 APIs
* Wrapper around ion_secure_heap.
*
* @heap_id - heap id to secure.
* @usage - usage hint to TZ
*
* Secure a heap
* Returns 0 on success
*/
int msm_ion_secure_heap_2_0(int heap_id, enum cp_mem_usage usage);
/**
* msm_ion_unsecure_heap - unsecure a heap secured with 3.0 APIs.
* Wrapper around ion_unsecure_heap.
*
* @heap_id - heap id to secure.
* @usage - usage hint to TZ
*
* Un-secure a heap
* Returns 0 on success
*/
int msm_ion_unsecure_heap_2_0(int heap_id, enum cp_mem_usage usage);
/**
* msm_ion_secure_buffer - secure an individual buffer
*
* @client - client who has access to the buffer
* @handle - buffer to secure
* @usage - usage hint to TZ
* @flags - flags for the securing
*/
int msm_ion_secure_buffer(struct ion_client *client, struct ion_handle *handle,
enum cp_mem_usage usage, int flags);
/**
* msm_ion_unsecure_buffer - unsecure an individual buffer
*
* @client - client who has access to the buffer
* @handle - buffer to secure
*/
int msm_ion_unsecure_buffer(struct ion_client *client,
struct ion_handle *handle);
#else
static inline int msm_ion_secure_heap(int heap_id)
{
return -ENODEV;
}
static inline int msm_ion_unsecure_heap(int heap_id)
{
return -ENODEV;
}
static inline int msm_ion_secure_heap_2_0(int heap_id, enum cp_mem_usage usage)
{
return -ENODEV;
}
static inline int msm_ion_unsecure_heap_2_0(int heap_id,
enum cp_mem_usage usage)
{
return -ENODEV;
}
#endif /* CONFIG_ION */
#endif /* __KERNEL */
/* struct ion_flush_data - data passed to ion for flushing caches
*
* @handle: handle with data to flush
* @fd: fd to flush
* @vaddr: userspace virtual address mapped with mmap
* @offset: offset into the handle to flush
* @length: length of handle to flush
*
* Performs cache operations on the handle. If p is the start address
* of the handle, p + offset through p + offset + length will have
* the cache operations performed
*/
struct ion_flush_data {
struct ion_handle *handle;
int fd;
void *vaddr;
unsigned int offset;
unsigned int length;
};
/* struct ion_flag_data - information about flags for this buffer
*
* @handle: handle to get flags from
* @flags: flags of this handle
*
* Takes handle as an input and outputs the flags from the handle
* in the flag field.
*/
struct ion_flag_data {
struct ion_handle *handle;
unsigned long flags;
};
#define ION_IOC_MSM_MAGIC 'M'
/**
* DOC: ION_IOC_CLEAN_CACHES - clean the caches
*
* Clean the caches of the handle specified.
*/
#define ION_IOC_CLEAN_CACHES _IOWR(ION_IOC_MSM_MAGIC, 0, \
struct ion_flush_data)
/**
* DOC: ION_IOC_INV_CACHES - invalidate the caches
*
* Invalidate the caches of the handle specified.
*/
#define ION_IOC_INV_CACHES _IOWR(ION_IOC_MSM_MAGIC, 1, \
struct ion_flush_data)
/**
* DOC: ION_IOC_CLEAN_INV_CACHES - clean and invalidate the caches
*
* Clean and invalidate the caches of the handle specified.
*/
#define ION_IOC_CLEAN_INV_CACHES _IOWR(ION_IOC_MSM_MAGIC, 2, \
struct ion_flush_data)
/**
* DOC: ION_IOC_GET_FLAGS - get the flags of the handle
*
* Gets the flags of the current handle which indicate cachability,
* secure state etc.
*/
#define ION_IOC_GET_FLAGS _IOWR(ION_IOC_MSM_MAGIC, 3, \
struct ion_flag_data)
#endif