/* * linux/arch/arm/mm/small_page.c * * Copyright (C) 1996 Russell King * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * Changelog: * 26/01/1996 RMK Cleaned up various areas to make little more generic * 07/02/1999 RMK Support added for 16K and 32K page sizes * containing 8K blocks */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define PEDANTIC /* * Requirement: * We need to be able to allocate naturally aligned memory of finer * granularity than the page size. This is typically used for the * second level page tables on 32-bit ARMs. * * Theory: * We "misuse" the Linux memory management system. We use alloc_page * to allocate a page and then mark it as reserved. The Linux memory * management system will then ignore the "offset", "next_hash" and * "pprev_hash" entries in the mem_map for this page. * * We then use a bitstring in the "offset" field to mark which segments * of the page are in use, and manipulate this as required during the * allocation and freeing of these small pages. * * We also maintain a queue of pages being used for this purpose using * the "next_hash" and "pprev_hash" entries of mem_map; */ struct order { struct page *queue; unsigned int mask; /* (1 << shift) - 1 */ unsigned int shift; /* (1 << shift) size of page */ unsigned int block_mask; /* nr_blocks - 1 */ unsigned int all_used; /* (1 << nr_blocks) - 1 */ }; static struct order orders[] = { #if PAGE_SIZE == 4096 { NULL, 2047, 11, 1, 0x00000003 } #elif PAGE_SIZE == 32768 { NULL, 2047, 11, 15, 0x0000ffff }, { NULL, 8191, 13, 3, 0x0000000f } #else #error unsupported page size #endif }; #define USED_MAP(pg) ((pg)->index) #define TEST_AND_CLEAR_USED(pg,off) (test_and_clear_bit(off, &USED_MAP(pg))) #define SET_USED(pg,off) (set_bit(off, &USED_MAP(pg))) static spinlock_t small_page_lock = SPIN_LOCK_UNLOCKED; static void add_page_to_queue(struct page *page, struct page **p) { #ifdef PEDANTIC if (page->pprev_hash) PAGE_BUG(page); #endif page->next_hash = *p; if (*p) (*p)->pprev_hash = &page->next_hash; *p = page; page->pprev_hash = p; } static void remove_page_from_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; } } static unsigned long __get_small_page(int priority, struct order *order) { unsigned long flags; struct page *page; int offset; if (!order->queue) goto need_new_page; spin_lock_irqsave(&small_page_lock, flags); page = order->queue; again: #ifdef PEDANTIC if (USED_MAP(page) & ~order->all_used) PAGE_BUG(page); #endif offset = ffz(USED_MAP(page)); SET_USED(page, offset); if (USED_MAP(page) == order->all_used) remove_page_from_queue(page); spin_unlock_irqrestore(&small_page_lock, flags); return (unsigned long) page_address(page) + (offset << order->shift); need_new_page: page = alloc_page(priority); spin_lock_irqsave(&small_page_lock, flags); if (!order->queue) { if (!page) goto no_page; SetPageReserved(page); USED_MAP(page) = 0; cli(); add_page_to_queue(page, &order->queue); } else { __free_page(page); cli(); page = order->queue; } goto again; no_page: spin_unlock_irqrestore(&small_page_lock, flags); return 0; } static void __free_small_page(unsigned long spage, struct order *order) { unsigned long flags; struct page *page; if (virt_addr_valid(spage)) { page = virt_to_page(spage); /* * The container-page must be marked Reserved */ if (!PageReserved(page) || spage & order->mask) goto non_small; #ifdef PEDANTIC if (USED_MAP(page) & ~order->all_used) PAGE_BUG(page); #endif spage = spage >> order->shift; spage &= order->block_mask; /* * the following must be atomic wrt get_page */ spin_lock_irqsave(&small_page_lock, flags); if (USED_MAP(page) == order->all_used) add_page_to_queue(page, &order->queue); if (!TEST_AND_CLEAR_USED(page, spage)) goto already_free; if (USED_MAP(page) == 0) goto free_page; spin_unlock_irqrestore(&small_page_lock, flags); } return; free_page: /* * unlink the page from the small page queue and free it */ remove_page_from_queue(page); spin_unlock_irqrestore(&small_page_lock, flags); ClearPageReserved(page); __free_page(page); return; non_small: printk("Trying to free non-small page from %p\n", __builtin_return_address(0)); return; already_free: printk("Trying to free free small page from %p\n", __builtin_return_address(0)); } unsigned long get_page_8k(int priority) { return __get_small_page(priority, orders+1); } void free_page_8k(unsigned long spage) { __free_small_page(spage, orders+1); }