108dbd0f8SThomas Gleixner /* SPDX-License-Identifier: GPL-2.0-only */ 2a7e79840SRichard Kuo /* 3a7e79840SRichard Kuo * Page table support for the Hexagon architecture 4a7e79840SRichard Kuo * 5e1858b2aSRichard Kuo * Copyright (c) 2010-2011, The Linux Foundation. All rights reserved. 6a7e79840SRichard Kuo */ 7a7e79840SRichard Kuo 8a7e79840SRichard Kuo #ifndef _ASM_PGTABLE_H 9a7e79840SRichard Kuo #define _ASM_PGTABLE_H 10a7e79840SRichard Kuo 11a7e79840SRichard Kuo /* 12a7e79840SRichard Kuo * Page table definitions for Qualcomm Hexagon processor. 13a7e79840SRichard Kuo */ 14a7e79840SRichard Kuo #include <asm/page.h> 15a7e79840SRichard Kuo #include <asm-generic/pgtable-nopmd.h> 16a7e79840SRichard Kuo 17a7e79840SRichard Kuo /* A handy thing to have if one has the RAM. Declared in head.S */ 18a7e79840SRichard Kuo extern unsigned long empty_zero_page; 19a7e79840SRichard Kuo 20a7e79840SRichard Kuo /* 21a7e79840SRichard Kuo * The PTE model described here is that of the Hexagon Virtual Machine, 22a7e79840SRichard Kuo * which autonomously walks 2-level page tables. At a lower level, we 23a7e79840SRichard Kuo * also describe the RISCish software-loaded TLB entry structure of 24a7e79840SRichard Kuo * the underlying Hexagon processor. A kernel built to run on the 25a7e79840SRichard Kuo * virtual machine has no need to know about the underlying hardware. 26a7e79840SRichard Kuo */ 27a7e79840SRichard Kuo #include <asm/vm_mmu.h> 28a7e79840SRichard Kuo 29a7e79840SRichard Kuo /* 30a7e79840SRichard Kuo * To maximize the comfort level for the PTE manipulation macros, 31a7e79840SRichard Kuo * define the "well known" architecture-specific bits. 32a7e79840SRichard Kuo */ 33a7e79840SRichard Kuo #define _PAGE_READ __HVM_PTE_R 34a7e79840SRichard Kuo #define _PAGE_WRITE __HVM_PTE_W 35a7e79840SRichard Kuo #define _PAGE_EXECUTE __HVM_PTE_X 36a7e79840SRichard Kuo #define _PAGE_USER __HVM_PTE_U 37a7e79840SRichard Kuo 38a7e79840SRichard Kuo /* 39a7e79840SRichard Kuo * We have a total of 4 "soft" bits available in the abstract PTE. 40a7e79840SRichard Kuo * The two mandatory software bits are Dirty and Accessed. 41a7e79840SRichard Kuo * To make nonlinear swap work according to the more recent 42a7e79840SRichard Kuo * model, we want a low order "Present" bit to indicate whether 43a7e79840SRichard Kuo * the PTE describes MMU programming or swap space. 44a7e79840SRichard Kuo */ 45a7e79840SRichard Kuo #define _PAGE_PRESENT (1<<0) 46a7e79840SRichard Kuo #define _PAGE_DIRTY (1<<1) 47a7e79840SRichard Kuo #define _PAGE_ACCESSED (1<<2) 48a7e79840SRichard Kuo 49a7e79840SRichard Kuo /* 50a7e79840SRichard Kuo * For now, let's say that Valid and Present are the same thing. 51a7e79840SRichard Kuo * Alternatively, we could say that it's the "or" of R, W, and X 52a7e79840SRichard Kuo * permissions. 53a7e79840SRichard Kuo */ 54a7e79840SRichard Kuo #define _PAGE_VALID _PAGE_PRESENT 55a7e79840SRichard Kuo 56a7e79840SRichard Kuo /* 57a7e79840SRichard Kuo * We're not defining _PAGE_GLOBAL here, since there's no concept 58a7e79840SRichard Kuo * of global pages or ASIDs exposed to the Hexagon Virtual Machine, 59a7e79840SRichard Kuo * and we want to use the same page table structures and macros in 60a7e79840SRichard Kuo * the native kernel as we do in the virtual machine kernel. 61a7e79840SRichard Kuo * So we'll put up with a bit of inefficiency for now... 62a7e79840SRichard Kuo */ 63a7e79840SRichard Kuo 64a7e79840SRichard Kuo /* 65a7e79840SRichard Kuo * Top "FOURTH" level (pgd), which for the Hexagon VM is really 66a7e79840SRichard Kuo * only the second from the bottom, pgd and pud both being collapsed. 67a7e79840SRichard Kuo * Each entry represents 4MB of virtual address space, 4K of table 68a7e79840SRichard Kuo * thus maps the full 4GB. 69a7e79840SRichard Kuo */ 70a7e79840SRichard Kuo #define PGDIR_SHIFT 22 71a7e79840SRichard Kuo #define PTRS_PER_PGD 1024 72a7e79840SRichard Kuo 73a7e79840SRichard Kuo #define PGDIR_SIZE (1UL << PGDIR_SHIFT) 74a7e79840SRichard Kuo #define PGDIR_MASK (~(PGDIR_SIZE-1)) 75a7e79840SRichard Kuo 76a7e79840SRichard Kuo #ifdef CONFIG_PAGE_SIZE_4KB 77a7e79840SRichard Kuo #define PTRS_PER_PTE 1024 78a7e79840SRichard Kuo #endif 79a7e79840SRichard Kuo 80a7e79840SRichard Kuo #ifdef CONFIG_PAGE_SIZE_16KB 81a7e79840SRichard Kuo #define PTRS_PER_PTE 256 82a7e79840SRichard Kuo #endif 83a7e79840SRichard Kuo 84a7e79840SRichard Kuo #ifdef CONFIG_PAGE_SIZE_64KB 85a7e79840SRichard Kuo #define PTRS_PER_PTE 64 86a7e79840SRichard Kuo #endif 87a7e79840SRichard Kuo 88a7e79840SRichard Kuo #ifdef CONFIG_PAGE_SIZE_256KB 89a7e79840SRichard Kuo #define PTRS_PER_PTE 16 90a7e79840SRichard Kuo #endif 91a7e79840SRichard Kuo 92a7e79840SRichard Kuo #ifdef CONFIG_PAGE_SIZE_1MB 93a7e79840SRichard Kuo #define PTRS_PER_PTE 4 94a7e79840SRichard Kuo #endif 95a7e79840SRichard Kuo 96a7e79840SRichard Kuo /* Any bigger and the PTE disappears. */ 97a7e79840SRichard Kuo #define pgd_ERROR(e) \ 98a7e79840SRichard Kuo printk(KERN_ERR "%s:%d: bad pgd %08lx.\n", __FILE__, __LINE__,\ 99a7e79840SRichard Kuo pgd_val(e)) 100a7e79840SRichard Kuo 101a7e79840SRichard Kuo /* 102a7e79840SRichard Kuo * Page Protection Constants. Includes (in this variant) cache attributes. 103a7e79840SRichard Kuo */ 104a7e79840SRichard Kuo extern unsigned long _dflt_cache_att; 105a7e79840SRichard Kuo 106a7e79840SRichard Kuo #define PAGE_NONE __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 107a7e79840SRichard Kuo _dflt_cache_att) 108a7e79840SRichard Kuo #define PAGE_READONLY __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 109a7e79840SRichard Kuo _PAGE_READ | _PAGE_EXECUTE | _dflt_cache_att) 110a7e79840SRichard Kuo #define PAGE_COPY PAGE_READONLY 111a7e79840SRichard Kuo #define PAGE_EXEC __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 112a7e79840SRichard Kuo _PAGE_READ | _PAGE_EXECUTE | _dflt_cache_att) 113a7e79840SRichard Kuo #define PAGE_COPY_EXEC PAGE_EXEC 114a7e79840SRichard Kuo #define PAGE_SHARED __pgprot(_PAGE_PRESENT | _PAGE_USER | _PAGE_READ | \ 115a7e79840SRichard Kuo _PAGE_EXECUTE | _PAGE_WRITE | _dflt_cache_att) 116a7e79840SRichard Kuo #define PAGE_KERNEL __pgprot(_PAGE_PRESENT | _PAGE_READ | \ 117a7e79840SRichard Kuo _PAGE_WRITE | _PAGE_EXECUTE | _dflt_cache_att) 118a7e79840SRichard Kuo 119a7e79840SRichard Kuo 120a7e79840SRichard Kuo /* 121a7e79840SRichard Kuo * Aliases for mapping mmap() protection bits to page protections. 122a7e79840SRichard Kuo * These get used for static initialization, so using the _dflt_cache_att 123a7e79840SRichard Kuo * variable for the default cache attribute isn't workable. If the 124a7e79840SRichard Kuo * default gets changed at boot time, the boot option code has to 125a7e79840SRichard Kuo * update data structures like the protaction_map[] array. 126a7e79840SRichard Kuo */ 127a7e79840SRichard Kuo #define CACHEDEF (CACHE_DEFAULT << 6) 128a7e79840SRichard Kuo 129a7e79840SRichard Kuo /* Private (copy-on-write) page protections. */ 130a7e79840SRichard Kuo #define __P000 __pgprot(_PAGE_PRESENT | _PAGE_USER | CACHEDEF) 131a7e79840SRichard Kuo #define __P001 __pgprot(_PAGE_PRESENT | _PAGE_USER | _PAGE_READ | CACHEDEF) 132a7e79840SRichard Kuo #define __P010 __P000 /* Write-only copy-on-write */ 133a7e79840SRichard Kuo #define __P011 __P001 /* Read/Write copy-on-write */ 134a7e79840SRichard Kuo #define __P100 __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 135a7e79840SRichard Kuo _PAGE_EXECUTE | CACHEDEF) 136a7e79840SRichard Kuo #define __P101 __pgprot(_PAGE_PRESENT | _PAGE_USER | _PAGE_EXECUTE | \ 137a7e79840SRichard Kuo _PAGE_READ | CACHEDEF) 138a7e79840SRichard Kuo #define __P110 __P100 /* Write/execute copy-on-write */ 139a7e79840SRichard Kuo #define __P111 __P101 /* Read/Write/Execute, copy-on-write */ 140a7e79840SRichard Kuo 141a7e79840SRichard Kuo /* Shared page protections. */ 142a7e79840SRichard Kuo #define __S000 __P000 143a7e79840SRichard Kuo #define __S001 __P001 144a7e79840SRichard Kuo #define __S010 __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 145a7e79840SRichard Kuo _PAGE_WRITE | CACHEDEF) 146a7e79840SRichard Kuo #define __S011 __pgprot(_PAGE_PRESENT | _PAGE_USER | _PAGE_READ | \ 147a7e79840SRichard Kuo _PAGE_WRITE | CACHEDEF) 148a7e79840SRichard Kuo #define __S100 __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 149a7e79840SRichard Kuo _PAGE_EXECUTE | CACHEDEF) 150a7e79840SRichard Kuo #define __S101 __P101 151a7e79840SRichard Kuo #define __S110 __pgprot(_PAGE_PRESENT | _PAGE_USER | \ 152a7e79840SRichard Kuo _PAGE_EXECUTE | _PAGE_WRITE | CACHEDEF) 153a7e79840SRichard Kuo #define __S111 __pgprot(_PAGE_PRESENT | _PAGE_USER | _PAGE_READ | \ 154a7e79840SRichard Kuo _PAGE_EXECUTE | _PAGE_WRITE | CACHEDEF) 155a7e79840SRichard Kuo 156a7e79840SRichard Kuo extern pgd_t swapper_pg_dir[PTRS_PER_PGD]; /* located in head.S */ 157a7e79840SRichard Kuo 158a7e79840SRichard Kuo /* HUGETLB not working currently */ 159a7e79840SRichard Kuo #ifdef CONFIG_HUGETLB_PAGE 160a7e79840SRichard Kuo #define pte_mkhuge(pte) __pte((pte_val(pte) & ~0x3) | HVM_HUGEPAGE_SIZE) 161a7e79840SRichard Kuo #endif 162a7e79840SRichard Kuo 163a7e79840SRichard Kuo /* 164a7e79840SRichard Kuo * For now, assume that higher-level code will do TLB/MMU invalidations 165a7e79840SRichard Kuo * and don't insert that overhead into this low-level function. 166a7e79840SRichard Kuo */ 167a7e79840SRichard Kuo extern void sync_icache_dcache(pte_t pte); 168a7e79840SRichard Kuo 169a7e79840SRichard Kuo #define pte_present_exec_user(pte) \ 170a7e79840SRichard Kuo ((pte_val(pte) & (_PAGE_EXECUTE | _PAGE_USER)) == \ 171a7e79840SRichard Kuo (_PAGE_EXECUTE | _PAGE_USER)) 172a7e79840SRichard Kuo 173a7e79840SRichard Kuo static inline void set_pte(pte_t *ptep, pte_t pteval) 174a7e79840SRichard Kuo { 175a7e79840SRichard Kuo /* should really be using pte_exec, if it weren't declared later. */ 176a7e79840SRichard Kuo if (pte_present_exec_user(pteval)) 177a7e79840SRichard Kuo sync_icache_dcache(pteval); 178a7e79840SRichard Kuo 179a7e79840SRichard Kuo *ptep = pteval; 180a7e79840SRichard Kuo } 181a7e79840SRichard Kuo 182a7e79840SRichard Kuo /* 183a7e79840SRichard Kuo * For the Hexagon Virtual Machine MMU (or its emulation), a null/invalid 184a7e79840SRichard Kuo * L1 PTE (PMD/PGD) has 7 in the least significant bits. For the L2 PTE 185a7e79840SRichard Kuo * (Linux PTE), the key is to have bits 11..9 all zero. We'd use 0x7 186a7e79840SRichard Kuo * as a universal null entry, but some of those least significant bits 187a7e79840SRichard Kuo * are interpreted by software. 188a7e79840SRichard Kuo */ 189a7e79840SRichard Kuo #define _NULL_PMD 0x7 190a7e79840SRichard Kuo #define _NULL_PTE 0x0 191a7e79840SRichard Kuo 192a7e79840SRichard Kuo static inline void pmd_clear(pmd_t *pmd_entry_ptr) 193a7e79840SRichard Kuo { 194a7e79840SRichard Kuo pmd_val(*pmd_entry_ptr) = _NULL_PMD; 195a7e79840SRichard Kuo } 196a7e79840SRichard Kuo 197a7e79840SRichard Kuo /* 198a7e79840SRichard Kuo * Conveniently, a null PTE value is invalid. 199a7e79840SRichard Kuo */ 200a7e79840SRichard Kuo static inline void pte_clear(struct mm_struct *mm, unsigned long addr, 201a7e79840SRichard Kuo pte_t *ptep) 202a7e79840SRichard Kuo { 203a7e79840SRichard Kuo pte_val(*ptep) = _NULL_PTE; 204a7e79840SRichard Kuo } 205a7e79840SRichard Kuo 206a7e79840SRichard Kuo /** 207a7e79840SRichard Kuo * pmd_none - check if pmd_entry is mapped 208a7e79840SRichard Kuo * @pmd_entry: pmd entry 209a7e79840SRichard Kuo * 210a7e79840SRichard Kuo * MIPS checks it against that "invalid pte table" thing. 211a7e79840SRichard Kuo */ 212a7e79840SRichard Kuo static inline int pmd_none(pmd_t pmd) 213a7e79840SRichard Kuo { 214a7e79840SRichard Kuo return pmd_val(pmd) == _NULL_PMD; 215a7e79840SRichard Kuo } 216a7e79840SRichard Kuo 217a7e79840SRichard Kuo /** 218a7e79840SRichard Kuo * pmd_present - is there a page table behind this? 219a7e79840SRichard Kuo * Essentially the inverse of pmd_none. We maybe 220a7e79840SRichard Kuo * save an inline instruction by defining it this 221a7e79840SRichard Kuo * way, instead of simply "!pmd_none". 222a7e79840SRichard Kuo */ 223a7e79840SRichard Kuo static inline int pmd_present(pmd_t pmd) 224a7e79840SRichard Kuo { 225a7e79840SRichard Kuo return pmd_val(pmd) != (unsigned long)_NULL_PMD; 226a7e79840SRichard Kuo } 227a7e79840SRichard Kuo 228a7e79840SRichard Kuo /** 229a7e79840SRichard Kuo * pmd_bad - check if a PMD entry is "bad". That might mean swapped out. 230a7e79840SRichard Kuo * As we have no known cause of badness, it's null, as it is for many 231a7e79840SRichard Kuo * architectures. 232a7e79840SRichard Kuo */ 233a7e79840SRichard Kuo static inline int pmd_bad(pmd_t pmd) 234a7e79840SRichard Kuo { 235a7e79840SRichard Kuo return 0; 236a7e79840SRichard Kuo } 237a7e79840SRichard Kuo 238a7e79840SRichard Kuo /* 239*7106c51eSMike Rapoport * pmd_pfn - converts a PMD entry to a page frame number 240*7106c51eSMike Rapoport */ 241*7106c51eSMike Rapoport #define pmd_pfn(pmd) (pmd_val(pmd) >> PAGE_SHIFT) 242*7106c51eSMike Rapoport 243*7106c51eSMike Rapoport /* 244a7e79840SRichard Kuo * pmd_page - converts a PMD entry to a page pointer 245a7e79840SRichard Kuo */ 246a7e79840SRichard Kuo #define pmd_page(pmd) (pfn_to_page(pmd_val(pmd) >> PAGE_SHIFT)) 247a7e79840SRichard Kuo 248a7e79840SRichard Kuo /** 249a7e79840SRichard Kuo * pte_none - check if pte is mapped 250a7e79840SRichard Kuo * @pte: pte_t entry 251a7e79840SRichard Kuo */ 252a7e79840SRichard Kuo static inline int pte_none(pte_t pte) 253a7e79840SRichard Kuo { 254a7e79840SRichard Kuo return pte_val(pte) == _NULL_PTE; 255a7e79840SRichard Kuo }; 256a7e79840SRichard Kuo 257a7e79840SRichard Kuo /* 258a7e79840SRichard Kuo * pte_present - check if page is present 259a7e79840SRichard Kuo */ 260a7e79840SRichard Kuo static inline int pte_present(pte_t pte) 261a7e79840SRichard Kuo { 262a7e79840SRichard Kuo return pte_val(pte) & _PAGE_PRESENT; 263a7e79840SRichard Kuo } 264a7e79840SRichard Kuo 265a7e79840SRichard Kuo /* mk_pte - make a PTE out of a page pointer and protection bits */ 266a7e79840SRichard Kuo #define mk_pte(page, pgprot) pfn_pte(page_to_pfn(page), (pgprot)) 267a7e79840SRichard Kuo 268a7e79840SRichard Kuo /* pte_page - returns a page (frame pointer/descriptor?) based on a PTE */ 269a7e79840SRichard Kuo #define pte_page(x) pfn_to_page(pte_pfn(x)) 270a7e79840SRichard Kuo 271a7e79840SRichard Kuo /* pte_mkold - mark PTE as not recently accessed */ 272a7e79840SRichard Kuo static inline pte_t pte_mkold(pte_t pte) 273a7e79840SRichard Kuo { 274a7e79840SRichard Kuo pte_val(pte) &= ~_PAGE_ACCESSED; 275a7e79840SRichard Kuo return pte; 276a7e79840SRichard Kuo } 277a7e79840SRichard Kuo 278a7e79840SRichard Kuo /* pte_mkyoung - mark PTE as recently accessed */ 279a7e79840SRichard Kuo static inline pte_t pte_mkyoung(pte_t pte) 280a7e79840SRichard Kuo { 281a7e79840SRichard Kuo pte_val(pte) |= _PAGE_ACCESSED; 282a7e79840SRichard Kuo return pte; 283a7e79840SRichard Kuo } 284a7e79840SRichard Kuo 285a7e79840SRichard Kuo /* pte_mkclean - mark page as in sync with backing store */ 286a7e79840SRichard Kuo static inline pte_t pte_mkclean(pte_t pte) 287a7e79840SRichard Kuo { 288a7e79840SRichard Kuo pte_val(pte) &= ~_PAGE_DIRTY; 289a7e79840SRichard Kuo return pte; 290a7e79840SRichard Kuo } 291a7e79840SRichard Kuo 292a7e79840SRichard Kuo /* pte_mkdirty - mark page as modified */ 293a7e79840SRichard Kuo static inline pte_t pte_mkdirty(pte_t pte) 294a7e79840SRichard Kuo { 295a7e79840SRichard Kuo pte_val(pte) |= _PAGE_DIRTY; 296a7e79840SRichard Kuo return pte; 297a7e79840SRichard Kuo } 298a7e79840SRichard Kuo 299a7e79840SRichard Kuo /* pte_young - "is PTE marked as accessed"? */ 300a7e79840SRichard Kuo static inline int pte_young(pte_t pte) 301a7e79840SRichard Kuo { 302a7e79840SRichard Kuo return pte_val(pte) & _PAGE_ACCESSED; 303a7e79840SRichard Kuo } 304a7e79840SRichard Kuo 305a7e79840SRichard Kuo /* pte_dirty - "is PTE dirty?" */ 306a7e79840SRichard Kuo static inline int pte_dirty(pte_t pte) 307a7e79840SRichard Kuo { 308a7e79840SRichard Kuo return pte_val(pte) & _PAGE_DIRTY; 309a7e79840SRichard Kuo } 310a7e79840SRichard Kuo 311a7e79840SRichard Kuo /* pte_modify - set protection bits on PTE */ 312a7e79840SRichard Kuo static inline pte_t pte_modify(pte_t pte, pgprot_t prot) 313a7e79840SRichard Kuo { 314a7e79840SRichard Kuo pte_val(pte) &= PAGE_MASK; 315a7e79840SRichard Kuo pte_val(pte) |= pgprot_val(prot); 316a7e79840SRichard Kuo return pte; 317a7e79840SRichard Kuo } 318a7e79840SRichard Kuo 319a7e79840SRichard Kuo /* pte_wrprotect - mark page as not writable */ 320a7e79840SRichard Kuo static inline pte_t pte_wrprotect(pte_t pte) 321a7e79840SRichard Kuo { 322a7e79840SRichard Kuo pte_val(pte) &= ~_PAGE_WRITE; 323a7e79840SRichard Kuo return pte; 324a7e79840SRichard Kuo } 325a7e79840SRichard Kuo 326a7e79840SRichard Kuo /* pte_mkwrite - mark page as writable */ 327a7e79840SRichard Kuo static inline pte_t pte_mkwrite(pte_t pte) 328a7e79840SRichard Kuo { 329a7e79840SRichard Kuo pte_val(pte) |= _PAGE_WRITE; 330a7e79840SRichard Kuo return pte; 331a7e79840SRichard Kuo } 332a7e79840SRichard Kuo 333a7e79840SRichard Kuo /* pte_mkexec - mark PTE as executable */ 334a7e79840SRichard Kuo static inline pte_t pte_mkexec(pte_t pte) 335a7e79840SRichard Kuo { 336a7e79840SRichard Kuo pte_val(pte) |= _PAGE_EXECUTE; 337a7e79840SRichard Kuo return pte; 338a7e79840SRichard Kuo } 339a7e79840SRichard Kuo 340a7e79840SRichard Kuo /* pte_read - "is PTE marked as readable?" */ 341a7e79840SRichard Kuo static inline int pte_read(pte_t pte) 342a7e79840SRichard Kuo { 343a7e79840SRichard Kuo return pte_val(pte) & _PAGE_READ; 344a7e79840SRichard Kuo } 345a7e79840SRichard Kuo 346a7e79840SRichard Kuo /* pte_write - "is PTE marked as writable?" */ 347a7e79840SRichard Kuo static inline int pte_write(pte_t pte) 348a7e79840SRichard Kuo { 349a7e79840SRichard Kuo return pte_val(pte) & _PAGE_WRITE; 350a7e79840SRichard Kuo } 351a7e79840SRichard Kuo 352a7e79840SRichard Kuo 353a7e79840SRichard Kuo /* pte_exec - "is PTE marked as executable?" */ 354a7e79840SRichard Kuo static inline int pte_exec(pte_t pte) 355a7e79840SRichard Kuo { 356a7e79840SRichard Kuo return pte_val(pte) & _PAGE_EXECUTE; 357a7e79840SRichard Kuo } 358a7e79840SRichard Kuo 359a7e79840SRichard Kuo /* __pte_to_swp_entry - extract swap entry from PTE */ 360a7e79840SRichard Kuo #define __pte_to_swp_entry(pte) ((swp_entry_t) { pte_val(pte) }) 361a7e79840SRichard Kuo 362a7e79840SRichard Kuo /* __swp_entry_to_pte - extract PTE from swap entry */ 363a7e79840SRichard Kuo #define __swp_entry_to_pte(x) ((pte_t) { (x).val }) 364a7e79840SRichard Kuo 365a7e79840SRichard Kuo /* pfn_pte - convert page number and protection value to page table entry */ 366a7e79840SRichard Kuo #define pfn_pte(pfn, pgprot) __pte((pfn << PAGE_SHIFT) | pgprot_val(pgprot)) 367a7e79840SRichard Kuo 368a7e79840SRichard Kuo /* pte_pfn - convert pte to page frame number */ 369a7e79840SRichard Kuo #define pte_pfn(pte) (pte_val(pte) >> PAGE_SHIFT) 370a7e79840SRichard Kuo #define set_pmd(pmdptr, pmdval) (*(pmdptr) = (pmdval)) 371a7e79840SRichard Kuo 372a7e79840SRichard Kuo /* 373a7e79840SRichard Kuo * set_pte_at - update page table and do whatever magic may be 374a7e79840SRichard Kuo * necessary to make the underlying hardware/firmware take note. 375a7e79840SRichard Kuo * 376a7e79840SRichard Kuo * VM may require a virtual instruction to alert the MMU. 377a7e79840SRichard Kuo */ 378a7e79840SRichard Kuo #define set_pte_at(mm, addr, ptep, pte) set_pte(ptep, pte) 379a7e79840SRichard Kuo 380974b9b2cSMike Rapoport static inline unsigned long pmd_page_vaddr(pmd_t pmd) 381974b9b2cSMike Rapoport { 382974b9b2cSMike Rapoport return (unsigned long)__va(pmd_val(pmd) & PAGE_MASK); 383974b9b2cSMike Rapoport } 384a7e79840SRichard Kuo 385a7e79840SRichard Kuo /* ZERO_PAGE - returns the globally shared zero page */ 386a7e79840SRichard Kuo #define ZERO_PAGE(vaddr) (virt_to_page(&empty_zero_page)) 387a7e79840SRichard Kuo 388a7e79840SRichard Kuo /* 389d99f95e6SKirill A. Shutemov * Swap/file PTE definitions. If _PAGE_PRESENT is zero, the rest of the PTE is 390d99f95e6SKirill A. Shutemov * interpreted as swap information. The remaining free bits are interpreted as 391d99f95e6SKirill A. Shutemov * swap type/offset tuple. Rather than have the TLB fill handler test 392d99f95e6SKirill A. Shutemov * _PAGE_PRESENT, we're going to reserve the permissions bits and set them to 393d99f95e6SKirill A. Shutemov * all zeros for swap entries, which speeds up the miss handler at the cost of 394d99f95e6SKirill A. Shutemov * 3 bits of offset. That trade-off can be revisited if necessary, but Hexagon 395d99f95e6SKirill A. Shutemov * processor architecture and target applications suggest a lot of TLB misses 396d99f95e6SKirill A. Shutemov * and not much swap space. 397a7e79840SRichard Kuo * 398a7e79840SRichard Kuo * Format of swap PTE: 399a7e79840SRichard Kuo * bit 0: Present (zero) 400d99f95e6SKirill A. Shutemov * bits 1-5: swap type (arch independent layer uses 5 bits max) 401d99f95e6SKirill A. Shutemov * bits 6-9: bits 3:0 of offset 402a7e79840SRichard Kuo * bits 10-12: effectively _PAGE_PROTNONE (all zero) 403d99f95e6SKirill A. Shutemov * bits 13-31: bits 22:4 of swap offset 404a7e79840SRichard Kuo * 405a7e79840SRichard Kuo * The split offset makes some of the following macros a little gnarly, 406a7e79840SRichard Kuo * but there's plenty of precedent for this sort of thing. 407a7e79840SRichard Kuo */ 408a7e79840SRichard Kuo 409a7e79840SRichard Kuo /* Used for swap PTEs */ 410d99f95e6SKirill A. Shutemov #define __swp_type(swp_pte) (((swp_pte).val >> 1) & 0x1f) 411a7e79840SRichard Kuo 412a7e79840SRichard Kuo #define __swp_offset(swp_pte) \ 413d99f95e6SKirill A. Shutemov ((((swp_pte).val >> 6) & 0xf) | (((swp_pte).val >> 9) & 0x7ffff0)) 414a7e79840SRichard Kuo 415a7e79840SRichard Kuo #define __swp_entry(type, offset) \ 416a7e79840SRichard Kuo ((swp_entry_t) { \ 417d99f95e6SKirill A. Shutemov ((type << 1) | \ 418d99f95e6SKirill A. Shutemov ((offset & 0x7ffff0) << 9) | ((offset & 0xf) << 6)) }) 419a7e79840SRichard Kuo 420a7e79840SRichard Kuo #endif 421