/*
* drivers/video/tegra/host/gk20a/mm_gk20a.h
*
* GK20A memory management
*
* Copyright (c) 2011-2014, NVIDIA CORPORATION. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifndef __MM_GK20A_H__
#define __MM_GK20A_H__
#include <linux/scatterlist.h>
#include <linux/dma-attrs.h>
#include <linux/iommu.h>
#include <asm/dma-iommu.h>
#include <asm/cacheflush.h>
#include "gk20a_allocator.h"
/* This "address bit" in the gmmu ptes (and other gk20a accesses)
* signals the address as presented should be translated by the SMMU.
* Without this bit present gk20a accesses are *not* translated.
*/
/* Hack, get this from manuals somehow... */
#define NV_MC_SMMU_VADDR_TRANSLATION_BIT 34
#define NV_MC_SMMU_VADDR_TRANSLATE(x) (x | \
(1ULL << NV_MC_SMMU_VADDR_TRANSLATION_BIT))
/* For now keep the size relatively small-ish compared to the full
* 40b va. 32GB for now. It consists of two 16GB spaces. */
#define NV_GMMU_VA_RANGE 35ULL
#define NV_GMMU_VA_IS_UPPER(x) ((x) >= ((u64)0x1 << (NV_GMMU_VA_RANGE-1)))
#ifdef CONFIG_ARM64
#define outer_flush_range(a, b)
#define __cpuc_flush_dcache_area __flush_dcache_area
#endif
#define FLUSH_CPU_DCACHE(va, pa, size) \
do { \
__cpuc_flush_dcache_area((void *)(va), (size_t)(size)); \
outer_flush_range(pa, pa + (size_t)(size)); \
} while (0)
struct mem_desc {
struct dma_buf *ref;
struct sg_table *sgt;
u32 size;
};
struct mem_desc_sub {
u32 offset;
u32 size;
};
struct gpfifo_desc {
size_t size;
u32 entry_num;
u32 get;
u32 put;
bool wrap;
u64 iova;
struct gpfifo *cpu_va;
u64 gpu_va;
};
struct mmu_desc {
void *cpuva;
u64 iova;
size_t size;
};
struct inst_desc {
u64 iova;
void *cpuva;
phys_addr_t cpu_pa;
size_t size;
};
struct surface_mem_desc {
u64 iova;
void *cpuva;
struct sg_table *sgt;
size_t size;
};
struct userd_desc {
struct sg_table *sgt;
u64 iova;
void *cpuva;
size_t size;
u64 gpu_va;
};
struct runlist_mem_desc {
u64 iova;
void *cpuva;
size_t size;
};
struct patch_desc {
struct page **pages;
u64 iova;
size_t size;
void *cpu_va;
u64 gpu_va;
u32 data_count;
};
struct pmu_mem_desc {
void *cpuva;
u64 iova;
u64 pmu_va;
size_t size;
};
struct priv_cmd_queue_mem_desc {
u64 base_iova;
u32 *base_cpuva;
size_t size;
};
struct zcull_ctx_desc {
struct mem_desc mem;
u64 gpu_va;
u32 ctx_attr;
u32 ctx_sw_mode;
};
struct pm_ctx_desc {
struct mem_desc mem;
u64 gpu_va;
u32 ctx_attr;
u32 ctx_sw_mode;
};
struct gr_ctx_buffer_desc;
struct platform_device;
struct gr_ctx_buffer_desc {
void (*destroy)(struct platform_device *, struct gr_ctx_buffer_desc *);
struct sg_table *sgt;
struct page **pages;
size_t size;
u64 iova;
struct dma_attrs attrs;
void *priv;
};
struct gr_ctx_desc {
struct page **pages;
u64 iova;
size_t size;
u64 gpu_va;
};
struct compbit_store_desc {
struct page **pages;
struct sg_table *sgt;
size_t size;
u64 base_iova;
/* The value that is written to the hardware. This depends on
* on the number of ltcs and is not an address. */
u64 base_hw;
};
struct gk20a_buffer_state {
struct list_head list;
/* The valid compbits and the fence must be changed atomically. */
struct mutex lock;
/* Offset of the surface within the dma-buf whose state is
* described by this struct (one dma-buf can contain multiple
* surfaces with different states). */
size_t offset;
/* A bitmask of valid sets of compbits (0 = uncompressed). */
u32 valid_compbits;
/* The ZBC color used on this buffer. */
u32 zbc_color;
/* This struct reflects the state of the buffer when this
* fence signals. */
struct gk20a_fence *fence;
};
struct page_table_gk20a {
/* backing for */
/* Either a *page or a *mem_handle */
void *ref;
/* track mapping cnt on this page table */
u32 ref_cnt;
struct sg_table *sgt;
size_t size;
};
#ifndef _NVHOST_MEM_MGR_H
enum gk20a_mem_rw_flag {
gk20a_mem_flag_none = 0,
gk20a_mem_flag_read_only = 1,
gk20a_mem_flag_write_only = 2,
};
#endif
enum gmmu_pgsz_gk20a {
gmmu_page_size_small = 0,
gmmu_page_size_big = 1,
gmmu_nr_page_sizes = 2
};
struct gk20a_comptags {
u32 offset;
u32 lines;
};
struct page_directory_gk20a {
/* backing for */
u32 num_pdes;
void *kv;
/* Either a *page or a *mem_handle */
void *ref;
struct sg_table *sgt;
size_t size;
struct page_table_gk20a *ptes[gmmu_nr_page_sizes];
};
struct priv_cmd_queue {
struct priv_cmd_queue_mem_desc mem;
u64 base_gpuva; /* gpu_va base */
u16 size; /* num of entries in words */
u16 put; /* put for priv cmd queue */
u16 get; /* get for priv cmd queue */
struct list_head free; /* list of pre-allocated free entries */
struct list_head head; /* list of used entries */
};
struct priv_cmd_entry {
u32 *ptr;
u64 gva;
u16 get; /* start of entry in queue */
u16 size; /* in words */
u32 gp_get; /* gp_get when submitting last priv cmd */
u32 gp_put; /* gp_put when submitting last priv cmd */
u32 gp_wrap; /* wrap when submitting last priv cmd */
bool pre_alloc; /* prealloc entry, free to free list */
struct list_head list; /* node for lists */
};
struct mapped_buffer_node {
struct vm_gk20a *vm;
struct rb_node node;
struct list_head unmap_list;
struct list_head va_buffers_list;
struct vm_reserved_va_node *va_node;
u64 addr;
u64 size;
struct dma_buf *dmabuf;
struct sg_table *sgt;
struct kref ref;
u32 user_mapped;
bool own_mem_ref;
u32 pgsz_idx;
u32 ctag_offset;
u32 ctag_lines;
u32 flags;
u32 kind;
bool va_allocated;
};
struct vm_reserved_va_node {
struct list_head reserved_va_list;
struct list_head va_buffers_list;
u32 pgsz_idx;
u64 vaddr_start;
u64 size;
bool sparse;
};
struct vm_gk20a {
struct mm_gk20a *mm;
struct gk20a_as_share *as_share; /* as_share this represents */
u64 va_start;
u64 va_limit;
int num_user_mapped_buffers;
bool big_pages; /* enable large page support */
bool enable_ctag;
bool tlb_dirty;
bool mapped;
struct kref ref;
struct mutex update_gmmu_lock;
struct page_directory_gk20a pdes;
struct gk20a_allocator vma[gmmu_nr_page_sizes];
struct rb_root mapped_buffers;
struct list_head reserved_va_list;
dma_addr_t zero_page_iova;
void *zero_page_cpuva;
struct sg_table *zero_page_sgt;
#ifdef CONFIG_TEGRA_GR_VIRTUALIZATION
u64 handle;
#endif
};
struct gk20a;
struct channel_gk20a;
int gk20a_init_mm_support(struct gk20a *g);
int gk20a_init_mm_setup_sw(struct gk20a *g);
int gk20a_mm_fb_flush(struct gk20a *g);
void gk20a_mm_l2_flush(struct gk20a *g, bool invalidate);
void gk20a_mm_l2_invalidate(struct gk20a *g);
struct mm_gk20a {
struct gk20a *g;
u32 compression_page_size;
u32 big_page_size;
u32 pde_stride;
u32 pde_stride_shift;
struct {
u32 order;
u32 num_ptes;
} page_table_sizing[gmmu_nr_page_sizes];
struct {
u64 size;
} channel;
struct {
u32 aperture_size;
struct vm_gk20a vm;
struct inst_desc inst_block;
} bar1;
struct {
u32 aperture_size;
struct vm_gk20a vm;
struct inst_desc inst_block;
} pmu;
struct mutex l2_op_lock;
void (*remove_support)(struct mm_gk20a *mm);
bool sw_ready;
#ifdef CONFIG_DEBUG_FS
u32 ltc_enabled;
u32 ltc_enabled_debug;
#endif
};
int gk20a_mm_init(struct mm_gk20a *mm);
#define gk20a_from_mm(mm) ((mm)->g)
#define gk20a_from_vm(vm) ((vm)->mm->g)
#define dev_from_vm(vm) dev_from_gk20a(vm->mm->g)
#define DEFAULT_ALLOC_ALIGNMENT (4*1024)
static inline int bar1_aperture_size_mb_gk20a(void)
{
return 128; /*TBD read this from fuses?*/
}
/* max address bits */
static inline int max_physaddr_bits_gk20a(void)
{
return 40;/*"old" sys physaddr, meaningful? */
}
static inline int max_vid_physaddr_bits_gk20a(void)
{
/* "vid phys" is asid/smmu phys?,
* i.e. is this the real sys physaddr? */
return 37;
}
static inline int max_vaddr_bits_gk20a(void)
{
return 40; /* chopped for area? */
}
#if 0 /*related to addr bits above, concern below TBD on which is accurate */
#define bar1_instance_block_shift_gk20a() (max_physaddr_bits_gk20a() -\
bus_bar1_block_ptr_s())
#else
#define bar1_instance_block_shift_gk20a() bus_bar1_block_ptr_shift_v()
#endif
void gk20a_mm_dump_vm(struct vm_gk20a *vm,
u64 va_begin, u64 va_end, char *label);
int gk20a_mm_suspend(struct gk20a *g);
phys_addr_t gk20a_get_phys_from_iova(struct device *d,
u64 dma_addr);
int gk20a_get_sgtable(struct device *d, struct sg_table **sgt,
void *cpuva, u64 iova,
size_t size);
int gk20a_get_sgtable_from_pages(struct device *d, struct sg_table **sgt,
struct page **pages, u64 iova,
size_t size);
void gk20a_free_sgtable(struct sg_table **sgt);
u64 gk20a_mm_iova_addr(struct scatterlist *sgl);
void gk20a_mm_ltc_isr(struct gk20a *g);
bool gk20a_mm_mmu_debug_mode_enabled(struct gk20a *g);
int gk20a_mm_mmu_vpr_info_fetch(struct gk20a *g);
u64 gk20a_gmmu_map(struct vm_gk20a *vm,
struct sg_table **sgt,
u64 size,
u32 flags,
int rw_flag);
u64 gk20a_locked_gmmu_map(struct vm_gk20a *vm,
u64 map_offset,
struct sg_table *sgt,
u64 buffer_offset,
u64 size,
int pgsz_idx,
u8 kind_v,
u32 ctag_offset,
u32 flags,
int rw_flag,
bool clear_ctags);
void gk20a_gmmu_unmap(struct vm_gk20a *vm,
u64 vaddr,
u64 size,
int rw_flag);
void gk20a_locked_gmmu_unmap(struct vm_gk20a *vm,
u64 vaddr,
u64 size,
int pgsz_idx,
bool va_allocated,
int rw_flag);
struct sg_table *gk20a_mm_pin(struct device *dev, struct dma_buf *dmabuf);
void gk20a_mm_unpin(struct device *dev, struct dma_buf *dmabuf,
struct sg_table *sgt);
u64 gk20a_vm_map(struct vm_gk20a *vm,
struct dma_buf *dmabuf,
u64 offset_align,
u32 flags /*NVHOST_AS_MAP_BUFFER_FLAGS_*/,
int kind,
struct sg_table **sgt,
bool user_mapped,
int rw_flag,
u64 buffer_offset,
u64 mapping_size);
/* unmap handle from kernel */
void gk20a_vm_unmap(struct vm_gk20a *vm, u64 offset);
void gk20a_vm_unmap_locked(struct mapped_buffer_node *mapped_buffer);
/* get reference to all currently mapped buffers */
int gk20a_vm_get_buffers(struct vm_gk20a *vm,
struct mapped_buffer_node ***mapped_buffers,
int *num_buffers);
/* put references on the given buffers */
void gk20a_vm_put_buffers(struct vm_gk20a *vm,
struct mapped_buffer_node **mapped_buffers,
int num_buffers);
/* invalidate tlbs for the vm area */
void gk20a_mm_tlb_invalidate(struct vm_gk20a *vm);
/* find buffer corresponding to va */
int gk20a_vm_find_buffer(struct vm_gk20a *vm, u64 gpu_va,
struct dma_buf **dmabuf,
u64 *offset);
void gk20a_vm_get(struct vm_gk20a *vm);
void gk20a_vm_put(struct vm_gk20a *vm);
void gk20a_vm_remove_support(struct vm_gk20a *vm);
u64 gk20a_vm_alloc_va(struct vm_gk20a *vm,
u64 size,
enum gmmu_pgsz_gk20a gmmu_pgsz_idx);
int gk20a_vm_free_va(struct vm_gk20a *vm,
u64 offset, u64 size,
enum gmmu_pgsz_gk20a pgsz_idx);
/* vm-as interface */
struct nvhost_as_alloc_space_args;
struct nvhost_as_free_space_args;
int gk20a_vm_alloc_share(struct gk20a_as_share *as_share);
int gk20a_vm_release_share(struct gk20a_as_share *as_share);
int gk20a_vm_alloc_space(struct gk20a_as_share *as_share,
struct nvhost_as_alloc_space_args *args);
int gk20a_vm_free_space(struct gk20a_as_share *as_share,
struct nvhost_as_free_space_args *args);
int gk20a_vm_bind_channel(struct gk20a_as_share *as_share,
struct channel_gk20a *ch);
int gk20a_vm_map_buffer(struct gk20a_as_share *as_share,
int dmabuf_fd,
u64 *offset_align,
u32 flags, /*NVHOST_AS_MAP_BUFFER_FLAGS_*/
int kind,
u64 buffer_offset,
u64 mapping_size);
int gk20a_vm_unmap_buffer(struct gk20a_as_share *, u64 offset);
void gk20a_get_comptags(struct device *dev, struct dma_buf *dmabuf,
struct gk20a_comptags *comptags);
dma_addr_t gk20a_mm_gpuva_to_iova(struct vm_gk20a *vm, u64 gpu_vaddr);
int gk20a_dmabuf_alloc_drvdata(struct dma_buf *dmabuf, struct device *dev);
int gk20a_dmabuf_get_state(struct dma_buf *dmabuf, struct device *dev,
u64 offset, struct gk20a_buffer_state **state);
int map_gmmu_pages(void *handle, struct sg_table *sgt,
void **va, size_t size);
void unmap_gmmu_pages(void *handle, struct sg_table *sgt, void *va);
void pde_range_from_vaddr_range(struct vm_gk20a *vm,
u64 addr_lo, u64 addr_hi,
u32 *pde_lo, u32 *pde_hi);
u32 *pde_from_index(struct vm_gk20a *vm, u32 i);
u32 pte_index_from_vaddr(struct vm_gk20a *vm,
u64 addr, enum gmmu_pgsz_gk20a pgsz_idx);
int validate_gmmu_page_table_gk20a_locked(struct vm_gk20a *vm,
u32 i, enum gmmu_pgsz_gk20a gmmu_pgsz_idx);
int zalloc_gmmu_page_table_gk20a(struct vm_gk20a *vm,
enum gmmu_pgsz_gk20a gmmu_pgsz_idx,
struct page_table_gk20a *pte);
void free_gmmu_pages(struct vm_gk20a *vm, void *handle,
struct sg_table *sgt, u32 order,
size_t size);
void update_gmmu_pde_locked(struct vm_gk20a *vm, u32 i);
struct gpu_ops;
void gk20a_init_mm(struct gpu_ops *gops);
#endif /*_MM_GK20A_H_ */