arch/sparc/include/asm/mmu_64.h - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 */
 #ifndef __MMU_H
 #define __MMU_H

 #include <linux/const.h>
 #include <asm/page.h>
 #include <asm/hypervisor.h>

 #define CTX_NR_BITS		13

 #define TAG_CONTEXT_BITS	((_AC(1,UL) << CTX_NR_BITS) - _AC(1,UL))

 /* UltraSPARC-III+ and later have a feature whereby you can
  * select what page size the various Data-TLB instances in the
  * chip.  In order to gracefully support this, we put the version
  * field in a spot outside of the areas of the context register
  * where this parameter is specified.
  */
 #define CTX_VERSION_SHIFT	22
 #define CTX_VERSION_MASK	((~0UL) << CTX_VERSION_SHIFT)

 #define CTX_PGSZ_8KB		_AC(0x0,UL)
 #define CTX_PGSZ_64KB		_AC(0x1,UL)
 #define CTX_PGSZ_512KB		_AC(0x2,UL)
 #define CTX_PGSZ_4MB		_AC(0x3,UL)
 #define CTX_PGSZ_BITS		_AC(0x7,UL)
 #define CTX_PGSZ0_NUC_SHIFT	61
 #define CTX_PGSZ1_NUC_SHIFT	58
 #define CTX_PGSZ0_SHIFT		16
 #define CTX_PGSZ1_SHIFT		19
 #define CTX_PGSZ_MASK		((CTX_PGSZ_BITS << CTX_PGSZ0_SHIFT) | \
 				 (CTX_PGSZ_BITS << CTX_PGSZ1_SHIFT))

 #define CTX_PGSZ_BASE	CTX_PGSZ_8KB
 #define CTX_PGSZ_HUGE	CTX_PGSZ_4MB
 #define CTX_PGSZ_KERN	CTX_PGSZ_4MB

 /* Thus, when running on UltraSPARC-III+ and later, we use the following
  * PRIMARY_CONTEXT register values for the kernel context.
  */
 #define CTX_CHEETAH_PLUS_NUC \
 	((CTX_PGSZ_KERN << CTX_PGSZ0_NUC_SHIFT) | \
 	 (CTX_PGSZ_BASE << CTX_PGSZ1_NUC_SHIFT))

 #define CTX_CHEETAH_PLUS_CTX0 \
 	((CTX_PGSZ_KERN << CTX_PGSZ0_SHIFT) | \
 	 (CTX_PGSZ_BASE << CTX_PGSZ1_SHIFT))

 /* If you want "the TLB context number" use CTX_NR_MASK.  If you
  * want "the bits I program into the context registers" use
  * CTX_HW_MASK.
  */
 #define CTX_NR_MASK		TAG_CONTEXT_BITS
 #define CTX_HW_MASK		(CTX_NR_MASK | CTX_PGSZ_MASK)

 #define CTX_FIRST_VERSION	BIT(CTX_VERSION_SHIFT)
 #define CTX_VALID(__ctx)	\
 	 (!(((__ctx.sparc64_ctx_val) ^ tlb_context_cache) & CTX_VERSION_MASK))
 #define CTX_HWBITS(__ctx)	((__ctx.sparc64_ctx_val) & CTX_HW_MASK)
 #define CTX_NRBITS(__ctx)	((__ctx.sparc64_ctx_val) & CTX_NR_MASK)

 #ifndef __ASSEMBLY__

 #define TSB_ENTRY_ALIGNMENT	16

 struct tsb {
 	unsigned long tag;
 	unsigned long pte;
 } __attribute__((aligned(TSB_ENTRY_ALIGNMENT)));

 void __tsb_insert(unsigned long ent, unsigned long tag, unsigned long pte);
 void tsb_flush(unsigned long ent, unsigned long tag);
 void tsb_init(struct tsb *tsb, unsigned long size);

 struct tsb_config {
 	struct tsb		*tsb;
 	unsigned long		tsb_rss_limit;
 	unsigned long		tsb_nentries;
 	unsigned long		tsb_reg_val;
 	unsigned long		tsb_map_vaddr;
 	unsigned long		tsb_map_pte;
 };

 #define MM_TSB_BASE	0

 #if defined(CONFIG_HUGETLB_PAGE) || defined(CONFIG_TRANSPARENT_HUGEPAGE)
 #define MM_TSB_HUGE	1
 #define MM_NUM_TSBS	2
 #else
 #define MM_NUM_TSBS	1
 #endif

 /* ADI tags are stored when a page is swapped out and the storage for
  * tags is allocated dynamically. There is a tag storage descriptor
  * associated with each set of tag storage pages. Tag storage descriptors
  * are allocated dynamically. Since kernel will allocate a full page for
  * each tag storage descriptor, we can store up to
  * PAGE_SIZE/sizeof(tag storage descriptor) descriptors on that page.
  */
 typedef struct {
 	unsigned long	start;		/* Start address for this tag storage */
 	unsigned long	end;		/* Last address for tag storage */
 	unsigned char	*tags;		/* Where the tags are */
 	unsigned long	tag_users;	/* number of references to descriptor */
 } tag_storage_desc_t;

 typedef struct {
 	spinlock_t		lock;
 	unsigned long		sparc64_ctx_val;
 	unsigned long		hugetlb_pte_count;
 	unsigned long		thp_pte_count;
 	struct tsb_config	tsb_block[MM_NUM_TSBS];
 	struct hv_tsb_descr	tsb_descr[MM_NUM_TSBS];
 	void			*vdso;
 	bool			adi;
 	tag_storage_desc_t	*tag_store;
 	spinlock_t		tag_lock;
 } mm_context_t;

 #endif /* !__ASSEMBLY__ */

 #define TSB_CONFIG_TSB		0x00
 #define TSB_CONFIG_RSS_LIMIT	0x08
 #define TSB_CONFIG_NENTRIES	0x10
 #define TSB_CONFIG_REG_VAL	0x18
 #define TSB_CONFIG_MAP_VADDR	0x20
 #define TSB_CONFIG_MAP_PTE	0x28

 #endif /* __MMU_H */
	/* SPDX-License-Identifier: GPL-2.0 */
	#ifndef __MMU_H
	#define __MMU_H

	#include <linux/const.h>
	#include <asm/page.h>
	#include <asm/hypervisor.h>

	#define CTX_NR_BITS 13

	#define TAG_CONTEXT_BITS ((_AC(1,UL) << CTX_NR_BITS) - _AC(1,UL))

	/* UltraSPARC-III+ and later have a feature whereby you can
	* select what page size the various Data-TLB instances in the
	* chip. In order to gracefully support this, we put the version
	* field in a spot outside of the areas of the context register
	* where this parameter is specified.
	*/
	#define CTX_VERSION_SHIFT 22
	#define CTX_VERSION_MASK ((~0UL) << CTX_VERSION_SHIFT)

	#define CTX_PGSZ_8KB _AC(0x0,UL)
	#define CTX_PGSZ_64KB _AC(0x1,UL)
	#define CTX_PGSZ_512KB _AC(0x2,UL)
	#define CTX_PGSZ_4MB _AC(0x3,UL)
	#define CTX_PGSZ_BITS _AC(0x7,UL)
	#define CTX_PGSZ0_NUC_SHIFT 61
	#define CTX_PGSZ1_NUC_SHIFT 58
	#define CTX_PGSZ0_SHIFT 16
	#define CTX_PGSZ1_SHIFT 19
	#define CTX_PGSZ_MASK ((CTX_PGSZ_BITS << CTX_PGSZ0_SHIFT) \| \
	(CTX_PGSZ_BITS << CTX_PGSZ1_SHIFT))

	#define CTX_PGSZ_BASE CTX_PGSZ_8KB
	#define CTX_PGSZ_HUGE CTX_PGSZ_4MB
	#define CTX_PGSZ_KERN CTX_PGSZ_4MB

	/* Thus, when running on UltraSPARC-III+ and later, we use the following
	* PRIMARY_CONTEXT register values for the kernel context.
	*/
	#define CTX_CHEETAH_PLUS_NUC \
	((CTX_PGSZ_KERN << CTX_PGSZ0_NUC_SHIFT) \| \
	(CTX_PGSZ_BASE << CTX_PGSZ1_NUC_SHIFT))

	#define CTX_CHEETAH_PLUS_CTX0 \
	((CTX_PGSZ_KERN << CTX_PGSZ0_SHIFT) \| \
	(CTX_PGSZ_BASE << CTX_PGSZ1_SHIFT))

	/* If you want "the TLB context number" use CTX_NR_MASK. If you
	* want "the bits I program into the context registers" use
	* CTX_HW_MASK.
	*/
	#define CTX_NR_MASK TAG_CONTEXT_BITS
	#define CTX_HW_MASK (CTX_NR_MASK \| CTX_PGSZ_MASK)

	#define CTX_FIRST_VERSION BIT(CTX_VERSION_SHIFT)
	#define CTX_VALID(__ctx) \
	(!(((__ctx.sparc64_ctx_val) ^ tlb_context_cache) & CTX_VERSION_MASK))
	#define CTX_HWBITS(__ctx) ((__ctx.sparc64_ctx_val) & CTX_HW_MASK)
	#define CTX_NRBITS(__ctx) ((__ctx.sparc64_ctx_val) & CTX_NR_MASK)

	#ifndef __ASSEMBLY__

	#define TSB_ENTRY_ALIGNMENT 16

	struct tsb {
	unsigned long tag;
	unsigned long pte;
	} __attribute__((aligned(TSB_ENTRY_ALIGNMENT)));

	void __tsb_insert(unsigned long ent, unsigned long tag, unsigned long pte);
	void tsb_flush(unsigned long ent, unsigned long tag);
	void tsb_init(struct tsb *tsb, unsigned long size);

	struct tsb_config {
	struct tsb *tsb;
	unsigned long tsb_rss_limit;
	unsigned long tsb_nentries;
	unsigned long tsb_reg_val;
	unsigned long tsb_map_vaddr;
	unsigned long tsb_map_pte;
	};

	#define MM_TSB_BASE 0

	#if defined(CONFIG_HUGETLB_PAGE) \|\| defined(CONFIG_TRANSPARENT_HUGEPAGE)
	#define MM_TSB_HUGE 1
	#define MM_NUM_TSBS 2
	#else
	#define MM_NUM_TSBS 1
	#endif

	/* ADI tags are stored when a page is swapped out and the storage for
	* tags is allocated dynamically. There is a tag storage descriptor
	* associated with each set of tag storage pages. Tag storage descriptors
	* are allocated dynamically. Since kernel will allocate a full page for
	* each tag storage descriptor, we can store up to
	* PAGE_SIZE/sizeof(tag storage descriptor) descriptors on that page.
	*/
	typedef struct {
	unsigned long start; /* Start address for this tag storage */
	unsigned long end; /* Last address for tag storage */
	unsigned char tags; / Where the tags are */
	unsigned long tag_users; /* number of references to descriptor */
	} tag_storage_desc_t;

	typedef struct {
	spinlock_t lock;
	unsigned long sparc64_ctx_val;
	unsigned long hugetlb_pte_count;
	unsigned long thp_pte_count;
	struct tsb_config tsb_block[MM_NUM_TSBS];
	struct hv_tsb_descr tsb_descr[MM_NUM_TSBS];
	void *vdso;
	bool adi;
	tag_storage_desc_t *tag_store;
	spinlock_t tag_lock;
	} mm_context_t;

	#endif /* !__ASSEMBLY__ */

	#define TSB_CONFIG_TSB 0x00
	#define TSB_CONFIG_RSS_LIMIT 0x08
	#define TSB_CONFIG_NENTRIES 0x10
	#define TSB_CONFIG_REG_VAL 0x18
	#define TSB_CONFIG_MAP_VADDR 0x20
	#define TSB_CONFIG_MAP_PTE 0x28

	#endif /* __MMU_H */