/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (c) 2002,2007-2021, The Linux Foundation. All rights reserved.
* Copyright (c) 2022-2023 Qualcomm Innovation Center, Inc. All rights reserved.
*/
#ifndef __KGSL_SHAREDMEM_H
#define __KGSL_SHAREDMEM_H
#include <linux/bitfield.h>
#include <linux/dma-mapping.h>
#include <linux/scatterlist.h>
#include <linux/slab.h>
#include "kgsl.h"
#include "kgsl_mmu.h"
struct kgsl_device;
struct kgsl_process_private;
extern bool kgsl_sharedmem_noretry_flag;
#define KGSL_CACHE_OP_INV 0x01
#define KGSL_CACHE_OP_FLUSH 0x02
#define KGSL_CACHE_OP_CLEAN 0x03
void kgsl_sharedmem_free(struct kgsl_memdesc *memdesc);
int kgsl_sharedmem_readl(const struct kgsl_memdesc *memdesc,
uint32_t *dst,
uint64_t offsetbytes);
/**
* kgsl_sharedmem_writel - write a 32 bit value to a shared memory object
* @memdesc: Pointer to a GPU memory object
* @offsetbytes: Offset inside of @memdesc to write to
* @src: Value to write
*
* Write @src to @offsetbytes from the start of @memdesc
*/
void kgsl_sharedmem_writel(const struct kgsl_memdesc *memdesc,
uint64_t offsetbytes,
uint32_t src);
int kgsl_sharedmem_readq(const struct kgsl_memdesc *memdesc,
uint64_t *dst,
uint64_t offsetbytes);
/**
* kgsl_sharedmem_writeq - write a 64 bit value to a shared memory object
* @memdesc: Pointer to a GPU memory object
* @offsetbytes: Offset inside of @memdesc to write to
* @src: Value to write
*
* Write @src to @offsetbytes from the start of @memdesc
*/
void kgsl_sharedmem_writeq(const struct kgsl_memdesc *memdesc,
uint64_t offsetbytes,
uint64_t src);
int kgsl_cache_range_op(struct kgsl_memdesc *memdesc,
uint64_t offset, uint64_t size,
unsigned int op);
void kgsl_memdesc_init(struct kgsl_device *device,
struct kgsl_memdesc *memdesc, uint64_t flags);
void kgsl_process_init_sysfs(struct kgsl_device *device,
struct kgsl_process_private *private);
int kgsl_sharedmem_init_sysfs(void);
void kgsl_get_memory_usage(char *str, size_t len, uint64_t memflags);
void kgsl_free_secure_page(struct page *page);
struct page *kgsl_alloc_secure_page(void);
#if IS_ENABLED(CONFIG_QCOM_SECURE_BUFFER)
int kgsl_lock_sgt(struct sg_table *sgt, u64 size);
int kgsl_unlock_sgt(struct sg_table *sgt);
#endif
/**
* kgsl_zero_page() - zero out a page
* @p: pointer to the struct page
* @order: order of the page
* @dev: A &struct device pointer
*
* Map a page into kernel and zero it out
*/
void kgsl_zero_page(struct page *p, unsigned int order,
struct device *dev);
/**
* kgsl_gfp_mask() - get gfp_mask to be used
* @page_order: order of the page
*
* Get the gfp_mask to be used for page allocation
* based on the order of the page
*
* Return appropriate gfp_mask
*/
gfp_t kgsl_gfp_mask(int page_order);
/**
* kgsl_allocate_user - Allocate user visible GPU memory
* @device: A GPU device handle
* @memdesc: Memory descriptor for the object
* @size: Size of the allocation in bytes
* @flags: Control flags for the allocation
* @priv: Internal flags for the allocation
*
* Allocate GPU memory on behalf of the user.
* Return: 0 on success or negative on failure.
*/
int kgsl_allocate_user(struct kgsl_device *device, struct kgsl_memdesc *memdesc,
u64 size, u64 flags, u32 priv);
/**
* kgsl_allocate_kernel - Allocate kernel visible GPU memory
* @device: A GPU device handle
* @memdesc: Memory descriptor for the object
* @size: Size of the allocation in bytes
* @flags: Control flags for the allocation
* @priv: Internal flags for the allocation
*
* Allocate GPU memory on for use by the kernel. Kernel objects are
* automatically mapped into the kernel address space (except for secure).
* Return: 0 on success or negative on failure.
*/
int kgsl_allocate_kernel(struct kgsl_device *device,
struct kgsl_memdesc *memdesc, u64 size, u64 flags, u32 priv);
/**
* kgsl_allocate_global - Allocate a global GPU memory object
* @device: A GPU device handle
* @size: Size of the allocation in bytes
* @padding: Amount of extra adding to add to the VA allocation
* @flags: Control flags for the allocation
* @priv: Internal flags for the allocation
* @name: Name of the allocation (for the debugfs file)
*
* Allocate a global GPU object for use by all processes. The buffer is
* automatically mapped into the kernel address space and added to the list of
* global buffers that get mapped into each newly created pagetable.
* Return: The memory descriptor on success or a ERR_PTR encoded error on
* failure.
*/
struct kgsl_memdesc *kgsl_allocate_global(struct kgsl_device *device,
u64 size, u32 padding, u64 flags, u32 priv, const char *name);
/**
* kgsl_allocate_global_fixed - Allocate a global GPU memory object from a fixed
* region defined in the device tree
* @device: A GPU device handle
* @size: Size of the allocation in bytes
* @flags: Control flags for the allocation
* @priv: Internal flags for the allocation
*
* Allocate a global GPU object for use by all processes. The buffer is
* added to the list of global buffers that get mapped into each newly created
* pagetable.
*
* Return: The memory descriptor on success or a ERR_PTR encoded error on
* failure.
*/
struct kgsl_memdesc *kgsl_allocate_global_fixed(struct kgsl_device *device,
const char *resource, const char *name);
/**
* kgsl_memdesc_init_fixed - Intializes a memory object from a fixed
* region defined in the device tree
* @device: A GPU device handle
* @pdev: Pointer to the platform device
* @resource: Name of the resource to get the size and address to allocate
* @memdesc: Memory descriptor for the object
*
* Intializes a memory object for a fixed I/O region defined in device tree.
*
* Return: 0 on success or negative on failure.
*/
int kgsl_memdesc_init_fixed(struct kgsl_device *device,
struct platform_device *pdev, const char *resource,
struct kgsl_memdesc *memdesc);
/**
* kgsl_free_globals - Free all global objects
* @device: A GPU device handle
*
* Free all the global buffer objects. Should only be called during shutdown
* after the pagetables have been freed
*/
void kgsl_free_globals(struct kgsl_device *device);
/**
* kgsl_page_sync_for_device - Initialize SG table with page & sync to/from device
* @dev: A GPU device handle
* @page: Pointer to the struct page
* @size: Size of the page
* @dir: DMA direction flag
*/
void kgsl_page_sync(struct device *dev, struct page *page,
size_t size, enum dma_data_direction dir);
/*
* kgsl_memdesc_get_align - Get alignment flags from a memdesc
* @memdesc - the memdesc
*
* Returns the alignment requested, as power of 2 exponent.
*/
static inline int
kgsl_memdesc_get_align(const struct kgsl_memdesc *memdesc)
{
return FIELD_GET(KGSL_MEMALIGN_MASK, memdesc->flags);
}
/*
* kgsl_memdesc_get_cachemode - Get cache mode of a memdesc
* @memdesc: the memdesc
*
* Returns a KGSL_CACHEMODE* value.
*/
static inline int
kgsl_memdesc_get_cachemode(const struct kgsl_memdesc *memdesc)
{
return FIELD_GET(KGSL_CACHEMODE_MASK, memdesc->flags);
}
static inline unsigned int
kgsl_memdesc_get_memtype(const struct kgsl_memdesc *memdesc)
{
return FIELD_GET(KGSL_MEMTYPE_MASK, memdesc->flags);
}
/*
* kgsl_memdesc_set_align - Set alignment flags of a memdesc
* @memdesc - the memdesc
* @align - alignment requested, as a power of 2 exponent.
*/
static inline int
kgsl_memdesc_set_align(struct kgsl_memdesc *memdesc, unsigned int align)
{
if (align > 32)
align = 32;
memdesc->flags &= ~(uint64_t)KGSL_MEMALIGN_MASK;
memdesc->flags |= FIELD_PREP(KGSL_MEMALIGN_MASK, align);
return 0;
}
/**
* kgsl_memdesc_usermem_type - return buffer type
* @memdesc - the memdesc
*
* Returns a KGSL_MEM_ENTRY_* value for this buffer, which
* identifies if was allocated by us, or imported from
* another allocator.
*/
static inline unsigned int
kgsl_memdesc_usermem_type(const struct kgsl_memdesc *memdesc)
{
return FIELD_GET(KGSL_MEMFLAGS_USERMEM_MASK, memdesc->flags);
}
/**
* kgsl_memdesc_sg_dma - Turn a dma_addr (from CMA) into a sg table
* @memdesc: Pointer to a memory descriptor
* @addr: Physical address from the dma_alloc function
* @size: Size of the chunk
*
* Create a sg table for the contiguous chunk specified by addr and size.
*
* Return: 0 on success or negative on failure.
*/
int kgsl_memdesc_sg_dma(struct kgsl_memdesc *memdesc,
phys_addr_t addr, u64 size);
/*
* kgsl_memdesc_is_global - is this a globally mapped buffer?
* @memdesc: the memdesc
*
* Return: True if this is a global mapping
*/
static inline bool kgsl_memdesc_is_global(const struct kgsl_memdesc *memdesc)
{
return memdesc && (memdesc->priv & KGSL_MEMDESC_GLOBAL);
}
/*
* kgsl_memdesc_is_secured - is this a secure buffer?
* @memdesc: the memdesc
*
* Returns true if this is a secure mapping, false otherwise
*/
static inline bool kgsl_memdesc_is_secured(const struct kgsl_memdesc *memdesc)
{
return memdesc && (memdesc->priv & KGSL_MEMDESC_SECURE);
}
/*
* kgsl_memdesc_is_reclaimed - check if a buffer is reclaimed
* @memdesc: the memdesc
*
* Return: true if the memdesc pages were reclaimed, false otherwise
*/
static inline bool kgsl_memdesc_is_reclaimed(const struct kgsl_memdesc *memdesc)
{
return memdesc && (memdesc->priv & KGSL_MEMDESC_RECLAIMED);
}
/*
* kgsl_memdesc_use_cpu_map - use the same virtual mapping on CPU and GPU?
* @memdesc: the memdesc
*
* Return: true if the memdesc is using SVM mapping
*/
static inline bool
kgsl_memdesc_use_cpu_map(const struct kgsl_memdesc *memdesc)
{
return memdesc && (memdesc->flags & KGSL_MEMFLAGS_USE_CPU_MAP);
}
/*
* kgsl_memdesc_footprint - get the size of the mmap region
* @memdesc - the memdesc
*
* The entire memdesc must be mapped. Additionally if the
* CPU mapping is going to be mirrored, there must be room
* for the guard page to be mapped so that the address spaces
* match up.
*/
static inline uint64_t
kgsl_memdesc_footprint(const struct kgsl_memdesc *memdesc)
{
if (!(memdesc->priv & KGSL_MEMDESC_GUARD_PAGE))
return memdesc->size;
return PAGE_ALIGN(memdesc->size + PAGE_SIZE);
}
/**
* kgsl_memdesc_put_gpuaddr - Release the gpuaddr assigned to a memdesc
* @memdesc: Pointer to a GPU memory object
*
* Call the memdesc specific function to release the GPU address assigned to the
* memdesc and unmap the memory
*/
static inline void kgsl_sharedmem_put_gpuaddr(struct kgsl_memdesc *memdesc)
{
if (memdesc && memdesc->ops->put_gpuaddr)
memdesc->ops->put_gpuaddr(memdesc);
}
/**
* kgsl_cachemode_is_cached - Return true if the passed flags indicate a cached
* buffer
* @flags: A bitmask of KGSL_MEMDESC_ flags
*
* Return: true if the flags indicate a cached buffer
*/
static inline bool kgsl_cachemode_is_cached(u64 flags)
{
u64 mode = FIELD_GET(KGSL_CACHEMODE_MASK, flags);
return (mode != KGSL_CACHEMODE_UNCACHED &&
mode != KGSL_CACHEMODE_WRITECOMBINE);
}
/**
* kgsl_unmap_and_put_gpuaddr - Unmap the memory and release the gpuaddr
* assigned to a memdesc
* @memdesc: Pointer to a GPU memory object
*
* Remove the mapping from pagetable and release the GPU address assigned
* to the memdesc
*/
void kgsl_unmap_and_put_gpuaddr(struct kgsl_memdesc *memdesc);
/**
* struct kgsl_process_attribute - basic attribute for a process
* @attr: Underlying struct attribute
* @show: Attribute show function
* @store: Attribute store function
*/
struct kgsl_process_attribute {
struct attribute attr;
ssize_t (*show)(struct kobject *kobj,
struct kgsl_process_attribute *attr, char *buf);
ssize_t (*store)(struct kobject *kobj,
struct kgsl_process_attribute *attr, const char *buf,
ssize_t count);
};
#define PROCESS_ATTR(_name, _mode, _show, _store) \
static struct kgsl_process_attribute attr_##_name = \
__ATTR(_name, _mode, _show, _store)
struct kgsl_sharedmem_bind_op_range {
u64 start;
u64 last;
u32 child_offset;
u32 op;
struct kgsl_mem_entry *entry;
};
struct kgsl_sharedmem_bind_op {
struct kgsl_mem_entry *target;
struct kgsl_sharedmem_bind_op_range *ops;
int nr_ops;
void (*callback)(struct kgsl_sharedmem_bind_op *op);
void *data;
struct work_struct work;
struct completion comp;
struct kref ref;
};
/**
* kgsl_sharedmem_allocate_vbo - Allocate a new virtual buffer object
* @device: A KGSL GPU handle
* @memdesc: Memory descriptor container to initialize
* @size: Size of the VBO
* @flags: Bitmask of KGSL_MEMFLAGS_*
*
* Initialize a new virtual buffer object memory descriptor
*
* Return: 0 on success or negative on failure.
*/
int kgsl_sharedmem_allocate_vbo(struct kgsl_device *device,
struct kgsl_memdesc *memdesc, u64 size, u64 flags);
/**
* kgsl_memdesc_print_vbo_ranges - Print a new virtual buffer object
* @entry: A KGSL memory entry
* @s: seq_file pointer
*
* Print virtual buffer object memory ranges
*/
void kgsl_memdesc_print_vbo_ranges(struct kgsl_mem_entry *entry,
struct seq_file *s);
/**
* kgsl_sharedmem_create_bind_op - Create a new bind op
* @private: A KGSL process private
* @target_id: Target virtual buffer object id
* @ranges: User memory pointer to an array of range operations of type &struct
* kgsl_gpumem_bind_range
* @ranges_nents: Number of entries in @ranges
* @ranges_size: Size of each entry in @ranges in bytes
*
* Create a new bind op to be used to map ranges
*
* Return: On success return kgsl_sharedmem_bind_op pointer or negative
* on failure
*
*/
struct kgsl_sharedmem_bind_op *
kgsl_sharedmem_create_bind_op(struct kgsl_process_private *private,
u32 target_id, void __user *ranges, u32 ranges_nents,
u64 ranges_size);
/**
* kgsl_sharedmem_bind_ranges - Bind ranges to virtual buffer object
* @op: One of KGSL_GPUMEM_RANGE_OP_BIND or KGSL_GPUMEM_RANGE_OP_UNBIND
*
* Add or remove a range from kgsl memory descriptor
*/
void kgsl_sharedmem_bind_ranges(struct kgsl_sharedmem_bind_op *op);
/**
* kgsl_sharedmem_bind_range_destroy - Bind ranges to virtual buffer object
* @kref: kref to bind kgsl_sharedmem_bind_op
*
* Destroy bind ranges object
*/
void kgsl_sharedmem_bind_range_destroy(struct kref *kref);
/**
* kgsl_sharedmem_put_bind_op - Bind ranges to virtual buffer object
* @op: One of KGSL_GPUMEM_RANGE_OP_BIND or KGSL_GPUMEM_RANGE_OP_UNBIND
*
* Put kgsl_sharedmem_bind_range_destroy to free resources
*/
static inline void kgsl_sharedmem_put_bind_op(struct kgsl_sharedmem_bind_op *op)
{
if (!IS_ERR_OR_NULL(op))
kref_put(&op->ref, kgsl_sharedmem_bind_range_destroy);
}
/**
* kgsl_register_shmem_callback - Register vendor hook callback with SHMEM
* driver
*/
void kgsl_register_shmem_callback(void);
#endif /* __KGSL_SHAREDMEM_H */