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[/] [or1k_old/] [trunk/] [rc203soc/] [sw/] [uClinux/] [arch/] [armnommu/] [mm/] [small_page.c] - Blame information for rev 1765

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/*
 *  linux/arch/arm/mm/small_page.c
 *
 *  Copyright (C) 1996  Russell King
 *
 * Changelog:
 *  26/01/1996  RMK     Cleaned up various areas to make little more generic
 */
 
#include <linux/signal.h>
#include <linux/sched.h>
#include <linux/head.h>
#include <linux/kernel.h>
#include <linux/errno.h>
#include <linux/string.h>
#include <linux/types.h>
#include <linux/ptrace.h>
#include <linux/mman.h>
#include <linux/mm.h>
#include <linux/swap.h>
#include <linux/smp.h>
 
#define SMALL_ALLOC_SHIFT       (10)
#define SMALL_ALLOC_SIZE        (1 << SMALL_ALLOC_SHIFT)
#define NR_BLOCKS               (PAGE_SIZE / SMALL_ALLOC_SIZE)
 
#if NR_BLOCKS != 4
#error I only support 4 blocks per page!
#endif
 
#define USED(pg)                (((pg)->count >> 8) & 15)
#define SET_USED(pg,off)        ((pg)->count |= 256 << off)
#define CLEAR_USED(pg,off)      ((pg)->count &= ~(256 << off))
#define IS_FREE(pg,off)         (!((pg)->count & (256 << off)))
#define PAGE_PTR(page,block)    ((struct free_small_page *)((page) + \
                                        ((block) << SMALL_ALLOC_SHIFT)))
 
struct free_small_page {
        unsigned long next;
        unsigned long prev;
};
 
/*
 * To handle allocating small pages, we use the main get_free_page routine,
 * and split the page up into 4.  The page is marked in mem_map as reserved,
 * so it can't be free'd by free_page.  The count field is used to keep track
 * of which sections of this page are allocated.
 */
static unsigned long small_page_ptr;
 
static unsigned char offsets[1<<NR_BLOCKS] = {
        0,       /* 0000 */
        1,      /* 0001 */
        0,       /* 0010 */
        2,      /* 0011 */
        0,       /* 0100 */
        1,      /* 0101 */
        0,       /* 0110 */
        3,      /* 0111 */
        0,       /* 1000 */
        1,      /* 1001 */
        0,       /* 1010 */
        2,      /* 1011 */
        0,       /* 1100 */
        1,      /* 1101 */
        0,       /* 1110 */
        4       /* 1111 */
};
 
static inline void clear_page_links(unsigned long page)
{
        struct free_small_page *fsp;
        int i;
 
        for (i = 0; i < NR_BLOCKS; i++) {
                fsp = PAGE_PTR(page, i);
                fsp->next = fsp->prev = 0;
        }
}
 
static inline void set_page_links_prev(unsigned long page, unsigned long prev)
{
        struct free_small_page *fsp;
        unsigned int mask;
        int i;
 
        if (!page)
                return;
 
        mask = USED(&mem_map[MAP_NR(page)]);
        for (i = 0; i < NR_BLOCKS; i++) {
                if (mask & (1 << i))
                        continue;
                fsp = PAGE_PTR(page, i);
                fsp->prev = prev;
        }
}
 
static inline void set_page_links_next(unsigned long page, unsigned long next)
{
        struct free_small_page *fsp;
        unsigned int mask;
        int i;
 
        if (!page)
                return;
 
        mask = USED(&mem_map[MAP_NR(page)]);
        for (i = 0; i < NR_BLOCKS; i++) {
                if (mask & (1 << i))
                        continue;
                fsp = PAGE_PTR(page, i);
                fsp->next = next;
        }
}
 
unsigned long get_small_page(int priority)
{
        struct free_small_page *fsp;
        unsigned long new_page;
        unsigned long flags;
        struct page *page;
        int offset;
 
        save_flags(flags);
        if (!small_page_ptr)
                goto need_new_page;
        cli();
again:
        page = mem_map + MAP_NR(small_page_ptr);
        offset = offsets[USED(page)];
        SET_USED(page, offset);
        new_page = (unsigned long)PAGE_PTR(small_page_ptr, offset);
        if (USED(page) == 15) {
                fsp = (struct free_small_page *)new_page;
                set_page_links_prev (fsp->next, 0);
                small_page_ptr = fsp->next;
        }
        restore_flags(flags);
        return new_page;
 
need_new_page:
        new_page = __get_free_page(priority);
        if (!small_page_ptr) {
                if (new_page) {
                        set_bit (PG_reserved, &mem_map[MAP_NR(new_page)].flags);
                        clear_page_links (new_page);
                        cli();
                        small_page_ptr = new_page;
                        goto again;
                }
                restore_flags(flags);
                return 0;
        }
        free_page(new_page);
        cli();
        goto again;
}
 
void free_small_page(unsigned long spage)
{
        struct free_small_page *ofsp, *cfsp;
        unsigned long flags;
        struct page *page;
        int offset, oldoffset;
 
        offset = (spage >> SMALL_ALLOC_SHIFT) & (NR_BLOCKS - 1);
        spage -= offset << SMALL_ALLOC_SHIFT;
 
        page = mem_map + MAP_NR(spage);
        if (!PageReserved(page) || !USED(page)) {
                printk ("Trying to free non-small page from %p\n", __builtin_return_address(0));
                return;
        }
        if (IS_FREE(page, offset)) {
                printk ("Trying to free free small page from %p\n", __builtin_return_address(0));
                return;
        }
        save_flags_cli (flags);
        oldoffset = offsets[USED(page)];
        CLEAR_USED(page, offset);
        ofsp = PAGE_PTR(spage, oldoffset);
        cfsp = PAGE_PTR(spage, offset);
 
        if (oldoffset == NR_BLOCKS) { /* going from totally used to mostly used */
                cfsp->prev = 0;
                cfsp->next = small_page_ptr;
                set_page_links_prev (small_page_ptr, spage);
                small_page_ptr = spage;
        } else if (!USED(page)) {
                set_page_links_prev (ofsp->next, ofsp->prev);
                set_page_links_next (ofsp->prev, ofsp->next);
                if (spage == small_page_ptr)
                        small_page_ptr = ofsp->next;
                clear_bit (PG_reserved, &page->flags);
                restore_flags(flags);
                free_page (spage);
        } else
                *cfsp = *ofsp;
        restore_flags(flags);
}

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[/] [or1k_old/] [trunk/] [rc203soc/] [sw/] [uClinux/] [arch/] [armnommu/] [mm/] [small_page.c] - Blame information for rev 1765

Line No.	Rev	Author	Line
1	1622	jcastillo	`/*`
2			`* linux/arch/arm/mm/small_page.c`
3			`*`
4			`* Copyright (C) 1996 Russell King`
5			`*`
6			`* Changelog:`
7			`* 26/01/1996 RMK Cleaned up various areas to make little more generic`
8			`*/`
9
10			`#include <linux/signal.h>`
11			`#include <linux/sched.h>`
12			`#include <linux/head.h>`
13			`#include <linux/kernel.h>`
14			`#include <linux/errno.h>`
15			`#include <linux/string.h>`
16			`#include <linux/types.h>`
17			`#include <linux/ptrace.h>`
18			`#include <linux/mman.h>`
19			`#include <linux/mm.h>`
20			`#include <linux/swap.h>`
21			`#include <linux/smp.h>`
22
23			`#define SMALL_ALLOC_SHIFT (10)`
24			`#define SMALL_ALLOC_SIZE (1 << SMALL_ALLOC_SHIFT)`
25			`#define NR_BLOCKS (PAGE_SIZE / SMALL_ALLOC_SIZE)`
26
27			`#if NR_BLOCKS != 4`
28			`#error I only support 4 blocks per page!`
29			`#endif`
30
31			`#define USED(pg) (((pg)->count >> 8) & 15)`
32			`#define SET_USED(pg,off) ((pg)->count \|= 256 << off)`
33			`#define CLEAR_USED(pg,off) ((pg)->count &= ~(256 << off))`
34			`#define IS_FREE(pg,off) (!((pg)->count & (256 << off)))`
35			`#define PAGE_PTR(page,block) ((struct free_small_page *)((page) + \`
36			`((block) << SMALL_ALLOC_SHIFT)))`
37
38			`struct free_small_page {`
39			`unsigned long next;`
40			`unsigned long prev;`
41			`};`
42
43			`/*`
44			`* To handle allocating small pages, we use the main get_free_page routine,`
45			`* and split the page up into 4. The page is marked in mem_map as reserved,`
46			`* so it can't be free'd by free_page. The count field is used to keep track`
47			`* of which sections of this page are allocated.`
48			`*/`
49			`static unsigned long small_page_ptr;`
50
51			`static unsigned char offsets[1<<NR_BLOCKS] = {`
52			`0, /* 0000 */`
53			`1, /* 0001 */`
54			`0, /* 0010 */`
55			`2, /* 0011 */`
56			`0, /* 0100 */`
57			`1, /* 0101 */`
58			`0, /* 0110 */`
59			`3, /* 0111 */`
60			`0, /* 1000 */`
61			`1, /* 1001 */`
62			`0, /* 1010 */`
63			`2, /* 1011 */`
64			`0, /* 1100 */`
65			`1, /* 1101 */`
66			`0, /* 1110 */`
67			`4 /* 1111 */`
68			`};`
69
70			`static inline void clear_page_links(unsigned long page)`
71			`{`
72			`struct free_small_page *fsp;`
73			`int i;`
74
75			`for (i = 0; i < NR_BLOCKS; i++) {`
76			`fsp = PAGE_PTR(page, i);`
77			`fsp->next = fsp->prev = 0;`
78			`}`
79			`}`
80
81			`static inline void set_page_links_prev(unsigned long page, unsigned long prev)`
82			`{`
83			`struct free_small_page *fsp;`
84			`unsigned int mask;`
85			`int i;`
86
87			`if (!page)`
88			`return;`
89
90			`mask = USED(&mem_map[MAP_NR(page)]);`
91			`for (i = 0; i < NR_BLOCKS; i++) {`
92			`if (mask & (1 << i))`
93			`continue;`
94			`fsp = PAGE_PTR(page, i);`
95			`fsp->prev = prev;`
96			`}`
97			`}`
98
99			`static inline void set_page_links_next(unsigned long page, unsigned long next)`
100			`{`
101			`struct free_small_page *fsp;`
102			`unsigned int mask;`
103			`int i;`
104
105			`if (!page)`
106			`return;`
107
108			`mask = USED(&mem_map[MAP_NR(page)]);`
109			`for (i = 0; i < NR_BLOCKS; i++) {`
110			`if (mask & (1 << i))`
111			`continue;`
112			`fsp = PAGE_PTR(page, i);`
113			`fsp->next = next;`
114			`}`
115			`}`
116
117			`unsigned long get_small_page(int priority)`
118			`{`
119			`struct free_small_page *fsp;`
120			`unsigned long new_page;`
121			`unsigned long flags;`
122			`struct page *page;`
123			`int offset;`
124
125			`save_flags(flags);`
126			`if (!small_page_ptr)`
127			`goto need_new_page;`
128			`cli();`
129			`again:`
130			`page = mem_map + MAP_NR(small_page_ptr);`
131			`offset = offsets[USED(page)];`
132			`SET_USED(page, offset);`
133			`new_page = (unsigned long)PAGE_PTR(small_page_ptr, offset);`
134			`if (USED(page) == 15) {`
135			`fsp = (struct free_small_page *)new_page;`
136			`set_page_links_prev (fsp->next, 0);`
137			`small_page_ptr = fsp->next;`
138			`}`
139			`restore_flags(flags);`
140			`return new_page;`
141
142			`need_new_page:`
143			`new_page = __get_free_page(priority);`
144			`if (!small_page_ptr) {`
145			`if (new_page) {`
146			`set_bit (PG_reserved, &mem_map[MAP_NR(new_page)].flags);`
147			`clear_page_links (new_page);`
148			`cli();`
149			`small_page_ptr = new_page;`
150			`goto again;`
151			`}`
152			`restore_flags(flags);`
153			`return 0;`
154			`}`
155			`free_page(new_page);`
156			`cli();`
157			`goto again;`
158			`}`
159
160			`void free_small_page(unsigned long spage)`
161			`{`
162			`struct free_small_page ofsp, cfsp;`
163			`unsigned long flags;`
164			`struct page *page;`
165			`int offset, oldoffset;`
166
167			`offset = (spage >> SMALL_ALLOC_SHIFT) & (NR_BLOCKS - 1);`
168			`spage -= offset << SMALL_ALLOC_SHIFT;`
169
170			`page = mem_map + MAP_NR(spage);`
171			`if (!PageReserved(page) \|\| !USED(page)) {`
172			`printk ("Trying to free non-small page from %p\n", __builtin_return_address(0));`
173			`return;`
174			`}`
175			`if (IS_FREE(page, offset)) {`
176			`printk ("Trying to free free small page from %p\n", __builtin_return_address(0));`
177			`return;`
178			`}`
179			`save_flags_cli (flags);`
180			`oldoffset = offsets[USED(page)];`
181			`CLEAR_USED(page, offset);`
182			`ofsp = PAGE_PTR(spage, oldoffset);`
183			`cfsp = PAGE_PTR(spage, offset);`
184
185			`if (oldoffset == NR_BLOCKS) { /* going from totally used to mostly used */`
186			`cfsp->prev = 0;`
187			`cfsp->next = small_page_ptr;`
188			`set_page_links_prev (small_page_ptr, spage);`
189			`small_page_ptr = spage;`
190			`} else if (!USED(page)) {`
191			`set_page_links_prev (ofsp->next, ofsp->prev);`
192			`set_page_links_next (ofsp->prev, ofsp->next);`
193			`if (spage == small_page_ptr)`
194			`small_page_ptr = ofsp->next;`
195			`clear_bit (PG_reserved, &page->flags);`
196			`restore_flags(flags);`
197			`free_page (spage);`
198			`} else`
199			`cfsp = ofsp;`
200			`restore_flags(flags);`
201			`}`