#ifndef _LINUX_PAGEMAP_H #define _LINUX_PAGEMAP_H #include /* * Page-mapping primitive inline functions * * Copyright 1995 Linus Torvalds */ #include #include static inline unsigned long page_address(struct page * page) { return PAGE_OFFSET + PAGE_SIZE * (page - mem_map); } /* * The page cache can done in larger chunks than * one page, because it allows for more efficient * throughput (it can then be mapped into user * space in smaller chunks for same flexibility). * * Or rather, it _will_ be done in larger chunks. */ #define PAGE_CACHE_SHIFT PAGE_SHIFT #define PAGE_CACHE_SIZE PAGE_SIZE #define PAGE_CACHE_MASK PAGE_MASK #define page_cache_alloc() __get_free_page(GFP_USER) #define page_cache_free(x) free_page(x) #define page_cache_release(x) __free_page(x) /* * From a kernel address, get the "struct page *" */ #define page_cache_entry(x) (mem_map + MAP_NR(x)) #define PAGE_HASH_BITS page_hash_bits #define PAGE_HASH_MASK page_hash_mask extern unsigned long page_cache_size; /* # of pages currently in the hash table */ extern unsigned int page_hash_bits; extern unsigned int page_hash_mask; extern struct page **page_hash_table; extern void page_cache_init(unsigned long); /* * We use a power-of-two hash table to avoid a modulus, * and get a reasonable hash by knowing roughly how the * inode pointer and offsets are distributed (ie, we * roughly know which bits are "significant") */ static inline unsigned long _page_hashfn(struct inode * inode, unsigned long offset) { #define i (((unsigned long) inode)/(sizeof(struct inode) & ~ (sizeof(struct inode) - 1))) #define o ((offset >> PAGE_SHIFT) + (offset & ~PAGE_MASK)) return ((i+o) & PAGE_HASH_MASK); #undef i #undef o } #define page_hash(inode,offset) (page_hash_table+_page_hashfn(inode,offset)) static inline struct page * __find_page(struct inode * inode, unsigned long offset, struct page *page) { goto inside; for (;;) { page = page->next_hash; inside: if (!page) goto not_found; if (page->inode != inode) continue; if (page->offset == offset) break; } /* Found the page. */ atomic_inc(&page->count); set_bit(PG_referenced, &page->flags); not_found: return page; } static inline struct page *find_page(struct inode * inode, unsigned long offset) { return __find_page(inode, offset, *page_hash(inode, offset)); } static inline void remove_page_from_hash_queue(struct page * page) { if(page->pprev_hash) { if(page->next_hash) page->next_hash->pprev_hash = page->pprev_hash; *page->pprev_hash = page->next_hash; page->pprev_hash = NULL; } page_cache_size--; } static inline void __add_page_to_hash_queue(struct page * page, struct page **p) { page_cache_size++; if((page->next_hash = *p) != NULL) (*p)->pprev_hash = &page->next_hash; *p = page; page->pprev_hash = p; } static inline void add_page_to_hash_queue(struct page * page, struct inode * inode, unsigned long offset) { __add_page_to_hash_queue(page, page_hash(inode,offset)); } static inline void remove_page_from_inode_queue(struct page * page) { struct inode * inode = page->inode; page->inode = NULL; inode->i_nrpages--; if (inode->i_pages == page) inode->i_pages = page->next; if (page->next) page->next->prev = page->prev; if (page->prev) page->prev->next = page->next; page->next = NULL; page->prev = NULL; } static inline void add_page_to_inode_queue(struct inode * inode, struct page * page) { struct page **p = &inode->i_pages; inode->i_nrpages++; page->inode = inode; page->prev = NULL; if ((page->next = *p) != NULL) page->next->prev = page; *p = page; } extern void __wait_on_page(struct page *); static inline void wait_on_page(struct page * page) { if (PageLocked(page)) __wait_on_page(page); } extern void update_vm_cache_conditional(struct inode *, unsigned long, const char *, int, unsigned long); extern void update_vm_cache(struct inode *, unsigned long, const char *, int); #endif