[TG3]: Set minimal hw interrupt mitigation.
[linux-2.6/verdex.git] / arch / m68k / atari / stram.c
blob5a3c106b40c836e2d8d15479b7f2e05cb321e3c4
1 /*
2 * arch/m68k/atari/stram.c: Functions for ST-RAM allocations
4 * Copyright 1994-97 Roman Hodek <Roman.Hodek@informatik.uni-erlangen.de>
6 * This file is subject to the terms and conditions of the GNU General Public
7 * License. See the file COPYING in the main directory of this archive
8 * for more details.
9 */
11 #include <linux/config.h>
12 #include <linux/types.h>
13 #include <linux/kernel.h>
14 #include <linux/mm.h>
15 #include <linux/kdev_t.h>
16 #include <linux/major.h>
17 #include <linux/init.h>
18 #include <linux/swap.h>
19 #include <linux/slab.h>
20 #include <linux/vmalloc.h>
21 #include <linux/pagemap.h>
22 #include <linux/shm.h>
23 #include <linux/bootmem.h>
24 #include <linux/mount.h>
25 #include <linux/blkdev.h>
27 #include <asm/setup.h>
28 #include <asm/machdep.h>
29 #include <asm/page.h>
30 #include <asm/pgtable.h>
31 #include <asm/atarihw.h>
32 #include <asm/atari_stram.h>
33 #include <asm/io.h>
34 #include <asm/semaphore.h>
36 #include <linux/swapops.h>
38 #undef DEBUG
40 #ifdef DEBUG
41 #define DPRINTK(fmt,args...) printk( fmt, ##args )
42 #else
43 #define DPRINTK(fmt,args...)
44 #endif
46 #if defined(CONFIG_PROC_FS) && defined(CONFIG_STRAM_PROC)
47 /* abbrev for the && above... */
48 #define DO_PROC
49 #include <linux/proc_fs.h>
50 #endif
52 /* Pre-swapping comments:
54 * ++roman:
56 * New version of ST-Ram buffer allocation. Instead of using the
57 * 1 MB - 4 KB that remain when the ST-Ram chunk starts at $1000
58 * (1 MB granularity!), such buffers are reserved like this:
60 * - If the kernel resides in ST-Ram anyway, we can take the buffer
61 * from behind the current kernel data space the normal way
62 * (incrementing start_mem).
64 * - If the kernel is in TT-Ram, stram_init() initializes start and
65 * end of the available region. Buffers are allocated from there
66 * and mem_init() later marks the such used pages as reserved.
67 * Since each TT-Ram chunk is at least 4 MB in size, I hope there
68 * won't be an overrun of the ST-Ram region by normal kernel data
69 * space.
71 * For that, ST-Ram may only be allocated while kernel initialization
72 * is going on, or exactly: before mem_init() is called. There is also
73 * no provision now for freeing ST-Ram buffers. It seems that isn't
74 * really needed.
79 * New Nov 1997: Use ST-RAM as swap space!
81 * In the past, there were often problems with modules that require ST-RAM
82 * buffers. Such drivers have to use __get_dma_pages(), which unfortunately
83 * often isn't very successful in allocating more than 1 page :-( [1] The net
84 * result was that most of the time you couldn't insmod such modules (ataflop,
85 * ACSI, SCSI on Falcon, Atari internal framebuffer, not to speak of acsi_slm,
86 * which needs a 1 MB buffer... :-).
88 * To overcome this limitation, ST-RAM can now be turned into a very
89 * high-speed swap space. If a request for an ST-RAM buffer comes, the kernel
90 * now tries to unswap some pages on that swap device to make some free (and
91 * contiguous) space. This works much better in comparison to
92 * __get_dma_pages(), since used swap pages can be selectively freed by either
93 * moving them to somewhere else in swap space, or by reading them back into
94 * system memory. Ok, there operation of unswapping isn't really cheap (for
95 * each page, one has to go through the page tables of all processes), but it
96 * doesn't happen that often (only when allocation ST-RAM, i.e. when loading a
97 * module that needs ST-RAM). But it at least makes it possible to load such
98 * modules!
100 * It could also be that overall system performance increases a bit due to
101 * ST-RAM swapping, since slow ST-RAM isn't used anymore for holding data or
102 * executing code in. It's then just a (very fast, compared to disk) back
103 * storage for not-so-often needed data. (But this effect must be compared
104 * with the loss of total memory...) Don't know if the effect is already
105 * visible on a TT, where the speed difference between ST- and TT-RAM isn't
106 * that dramatic, but it should on machines where TT-RAM is really much faster
107 * (e.g. Afterburner).
109 * [1]: __get_free_pages() does a fine job if you only want one page, but if
110 * you want more (contiguous) pages, it can give you such a block only if
111 * there's already a free one. The algorithm can't try to free buffers or swap
112 * out something in order to make more free space, since all that page-freeing
113 * mechanisms work "target-less", i.e. they just free something, but not in a
114 * specific place. I.e., __get_free_pages() can't do anything to free
115 * *adjacent* pages :-( This situation becomes even worse for DMA memory,
116 * since the freeing algorithms are also blind to DMA capability of pages.
119 /* 1998-10-20: ++andreas
120 unswap_by_move disabled because it does not handle swapped shm pages.
123 /* 2000-05-01: ++andreas
124 Integrated with bootmem. Remove all traces of unswap_by_move.
127 #ifdef CONFIG_STRAM_SWAP
128 #define ALIGN_IF_SWAP(x) PAGE_ALIGN(x)
129 #else
130 #define ALIGN_IF_SWAP(x) (x)
131 #endif
133 /* get index of swap page at address 'addr' */
134 #define SWAP_NR(addr) (((addr) - swap_start) >> PAGE_SHIFT)
136 /* get address of swap page #'nr' */
137 #define SWAP_ADDR(nr) (swap_start + ((nr) << PAGE_SHIFT))
139 /* get number of pages for 'n' bytes (already page-aligned) */
140 #define N_PAGES(n) ((n) >> PAGE_SHIFT)
142 /* The following two numbers define the maximum fraction of ST-RAM in total
143 * memory, below that the kernel would automatically use ST-RAM as swap
144 * space. This decision can be overridden with stram_swap= */
145 #define MAX_STRAM_FRACTION_NOM 1
146 #define MAX_STRAM_FRACTION_DENOM 3
148 /* Start and end (virtual) of ST-RAM */
149 static void *stram_start, *stram_end;
151 /* set after memory_init() executed and allocations via start_mem aren't
152 * possible anymore */
153 static int mem_init_done;
155 /* set if kernel is in ST-RAM */
156 static int kernel_in_stram;
158 typedef struct stram_block {
159 struct stram_block *next;
160 void *start;
161 unsigned long size;
162 unsigned flags;
163 const char *owner;
164 } BLOCK;
166 /* values for flags field */
167 #define BLOCK_FREE 0x01 /* free structure in the BLOCKs pool */
168 #define BLOCK_KMALLOCED 0x02 /* structure allocated by kmalloc() */
169 #define BLOCK_GFP 0x08 /* block allocated with __get_dma_pages() */
170 #define BLOCK_INSWAP 0x10 /* block allocated in swap space */
172 /* list of allocated blocks */
173 static BLOCK *alloc_list;
175 /* We can't always use kmalloc() to allocate BLOCK structures, since
176 * stram_alloc() can be called rather early. So we need some pool of
177 * statically allocated structures. 20 of them is more than enough, so in most
178 * cases we never should need to call kmalloc(). */
179 #define N_STATIC_BLOCKS 20
180 static BLOCK static_blocks[N_STATIC_BLOCKS];
182 #ifdef CONFIG_STRAM_SWAP
183 /* max. number of bytes to use for swapping
184 * 0 = no ST-RAM swapping
185 * -1 = do swapping (to whole ST-RAM) if it's less than MAX_STRAM_FRACTION of
186 * total memory
188 static int max_swap_size = -1;
190 /* start and end of swapping area */
191 static void *swap_start, *swap_end;
193 /* The ST-RAM's swap info structure */
194 static struct swap_info_struct *stram_swap_info;
196 /* The ST-RAM's swap type */
197 static int stram_swap_type;
199 /* Semaphore for get_stram_region. */
200 static DECLARE_MUTEX(stram_swap_sem);
202 /* major and minor device number of the ST-RAM device; for the major, we use
203 * the same as Amiga z2ram, which is really similar and impossible on Atari,
204 * and for the minor a relatively odd number to avoid the user creating and
205 * using that device. */
206 #define STRAM_MAJOR Z2RAM_MAJOR
207 #define STRAM_MINOR 13
209 /* Some impossible pointer value */
210 #define MAGIC_FILE_P (struct file *)0xffffdead
212 #ifdef DO_PROC
213 static unsigned stat_swap_read;
214 static unsigned stat_swap_write;
215 static unsigned stat_swap_force;
216 #endif /* DO_PROC */
218 #endif /* CONFIG_STRAM_SWAP */
220 /***************************** Prototypes *****************************/
222 #ifdef CONFIG_STRAM_SWAP
223 static int swap_init(void *start_mem, void *swap_data);
224 static void *get_stram_region( unsigned long n_pages );
225 static void free_stram_region( unsigned long offset, unsigned long n_pages
227 static int in_some_region(void *addr);
228 static unsigned long find_free_region( unsigned long n_pages, unsigned long
229 *total_free, unsigned long
230 *region_free );
231 static void do_stram_request(request_queue_t *);
232 static int stram_open( struct inode *inode, struct file *filp );
233 static int stram_release( struct inode *inode, struct file *filp );
234 static void reserve_region(void *start, void *end);
235 #endif
236 static BLOCK *add_region( void *addr, unsigned long size );
237 static BLOCK *find_region( void *addr );
238 static int remove_region( BLOCK *block );
240 /************************* End of Prototypes **************************/
243 /* ------------------------------------------------------------------------ */
244 /* Public Interface */
245 /* ------------------------------------------------------------------------ */
248 * This init function is called very early by atari/config.c
249 * It initializes some internal variables needed for stram_alloc()
251 void __init atari_stram_init(void)
253 int i;
255 /* initialize static blocks */
256 for( i = 0; i < N_STATIC_BLOCKS; ++i )
257 static_blocks[i].flags = BLOCK_FREE;
259 /* determine whether kernel code resides in ST-RAM (then ST-RAM is the
260 * first memory block at virtual 0x0) */
261 stram_start = phys_to_virt(0);
262 kernel_in_stram = (stram_start == 0);
264 for( i = 0; i < m68k_num_memory; ++i ) {
265 if (m68k_memory[i].addr == 0) {
266 /* skip first 2kB or page (supervisor-only!) */
267 stram_end = stram_start + m68k_memory[i].size;
268 return;
271 /* Should never come here! (There is always ST-Ram!) */
272 panic( "atari_stram_init: no ST-RAM found!" );
277 * This function is called from setup_arch() to reserve the pages needed for
278 * ST-RAM management.
280 void __init atari_stram_reserve_pages(void *start_mem)
282 #ifdef CONFIG_STRAM_SWAP
283 /* if max_swap_size is negative (i.e. no stram_swap= option given),
284 * determine at run time whether to use ST-RAM swapping */
285 if (max_swap_size < 0)
286 /* Use swapping if ST-RAM doesn't make up more than MAX_STRAM_FRACTION
287 * of total memory. In that case, the max. size is set to 16 MB,
288 * because ST-RAM can never be bigger than that.
289 * Also, never use swapping on a Hades, there's no separate ST-RAM in
290 * that machine. */
291 max_swap_size =
292 (!MACH_IS_HADES &&
293 (N_PAGES(stram_end-stram_start)*MAX_STRAM_FRACTION_DENOM <=
294 ((unsigned long)high_memory>>PAGE_SHIFT)*MAX_STRAM_FRACTION_NOM)) ? 16*1024*1024 : 0;
295 DPRINTK( "atari_stram_reserve_pages: max_swap_size = %d\n", max_swap_size );
296 #endif
298 /* always reserve first page of ST-RAM, the first 2 kB are
299 * supervisor-only! */
300 if (!kernel_in_stram)
301 reserve_bootmem (0, PAGE_SIZE);
303 #ifdef CONFIG_STRAM_SWAP
305 void *swap_data;
307 start_mem = (void *) PAGE_ALIGN ((unsigned long) start_mem);
308 /* determine first page to use as swap: if the kernel is
309 in TT-RAM, this is the first page of (usable) ST-RAM;
310 otherwise just use the end of kernel data (= start_mem) */
311 swap_start = !kernel_in_stram ? stram_start + PAGE_SIZE : start_mem;
312 /* decrement by one page, rest of kernel assumes that first swap page
313 * is always reserved and maybe doesn't handle swp_entry == 0
314 * correctly */
315 swap_start -= PAGE_SIZE;
316 swap_end = stram_end;
317 if (swap_end-swap_start > max_swap_size)
318 swap_end = swap_start + max_swap_size;
319 DPRINTK( "atari_stram_reserve_pages: swapping enabled; "
320 "swap=%p-%p\n", swap_start, swap_end);
322 /* reserve some amount of memory for maintainance of
323 * swapping itself: one page for each 2048 (PAGE_SIZE/2)
324 * swap pages. (2 bytes for each page) */
325 swap_data = start_mem;
326 start_mem += ((SWAP_NR(swap_end) + PAGE_SIZE/2 - 1)
327 >> (PAGE_SHIFT-1)) << PAGE_SHIFT;
328 /* correct swap_start if necessary */
329 if (swap_start + PAGE_SIZE == swap_data)
330 swap_start = start_mem - PAGE_SIZE;
332 if (!swap_init( start_mem, swap_data )) {
333 printk( KERN_ERR "ST-RAM swap space initialization failed\n" );
334 max_swap_size = 0;
335 return;
337 /* reserve region for swapping meta-data */
338 reserve_region(swap_data, start_mem);
339 /* reserve swapping area itself */
340 reserve_region(swap_start + PAGE_SIZE, swap_end);
343 * If the whole ST-RAM is used for swapping, there are no allocatable
344 * dma pages left. But unfortunately, some shared parts of the kernel
345 * (particularly the SCSI mid-level) call __get_dma_pages()
346 * unconditionally :-( These calls then fail, and scsi.c even doesn't
347 * check for NULL return values and just crashes. The quick fix for
348 * this (instead of doing much clean up work in the SCSI code) is to
349 * pretend all pages are DMA-able by setting mach_max_dma_address to
350 * ULONG_MAX. This doesn't change any functionality so far, since
351 * get_dma_pages() shouldn't be used on Atari anyway anymore (better
352 * use atari_stram_alloc()), and the Atari SCSI drivers don't need DMA
353 * memory. But unfortunately there's now no kind of warning (even not
354 * a NULL return value) if you use get_dma_pages() nevertheless :-(
355 * You just will get non-DMA-able memory...
357 mach_max_dma_address = 0xffffffff;
359 #endif
362 void atari_stram_mem_init_hook (void)
364 mem_init_done = 1;
369 * This is main public interface: somehow allocate a ST-RAM block
370 * There are three strategies:
372 * - If we're before mem_init(), we have to make a static allocation. The
373 * region is taken in the kernel data area (if the kernel is in ST-RAM) or
374 * from the start of ST-RAM (if the kernel is in TT-RAM) and added to the
375 * rsvd_stram_* region. The ST-RAM is somewhere in the middle of kernel
376 * address space in the latter case.
378 * - If mem_init() already has been called and ST-RAM swapping is enabled,
379 * try to get the memory from the (pseudo) swap-space, either free already
380 * or by moving some other pages out of the swap.
382 * - If mem_init() already has been called, and ST-RAM swapping is not
383 * enabled, the only possibility is to try with __get_dma_pages(). This has
384 * the disadvantage that it's very hard to get more than 1 page, and it is
385 * likely to fail :-(
388 void *atari_stram_alloc(long size, const char *owner)
390 void *addr = NULL;
391 BLOCK *block;
392 int flags;
394 DPRINTK("atari_stram_alloc(size=%08lx,owner=%s)\n", size, owner);
396 size = ALIGN_IF_SWAP(size);
397 DPRINTK( "atari_stram_alloc: rounded size = %08lx\n", size );
398 #ifdef CONFIG_STRAM_SWAP
399 if (max_swap_size) {
400 /* If swapping is active: make some free space in the swap
401 "device". */
402 DPRINTK( "atari_stram_alloc: after mem_init, swapping ok, "
403 "calling get_region\n" );
404 addr = get_stram_region( N_PAGES(size) );
405 flags = BLOCK_INSWAP;
407 else
408 #endif
409 if (!mem_init_done)
410 return alloc_bootmem_low(size);
411 else {
412 /* After mem_init() and no swapping: can only resort to
413 * __get_dma_pages() */
414 addr = (void *)__get_dma_pages(GFP_KERNEL, get_order(size));
415 flags = BLOCK_GFP;
416 DPRINTK( "atari_stram_alloc: after mem_init, swapping off, "
417 "get_pages=%p\n", addr );
420 if (addr) {
421 if (!(block = add_region( addr, size ))) {
422 /* out of memory for BLOCK structure :-( */
423 DPRINTK( "atari_stram_alloc: out of mem for BLOCK -- "
424 "freeing again\n" );
425 #ifdef CONFIG_STRAM_SWAP
426 if (flags == BLOCK_INSWAP)
427 free_stram_region( SWAP_NR(addr), N_PAGES(size) );
428 else
429 #endif
430 free_pages((unsigned long)addr, get_order(size));
431 return( NULL );
433 block->owner = owner;
434 block->flags |= flags;
436 return( addr );
439 void atari_stram_free( void *addr )
442 BLOCK *block;
444 DPRINTK( "atari_stram_free(addr=%p)\n", addr );
446 if (!(block = find_region( addr ))) {
447 printk( KERN_ERR "Attempt to free non-allocated ST-RAM block at %p "
448 "from %p\n", addr, __builtin_return_address(0) );
449 return;
451 DPRINTK( "atari_stram_free: found block (%p): size=%08lx, owner=%s, "
452 "flags=%02x\n", block, block->size, block->owner, block->flags );
454 #ifdef CONFIG_STRAM_SWAP
455 if (!max_swap_size) {
456 #endif
457 if (block->flags & BLOCK_GFP) {
458 DPRINTK("atari_stram_free: is kmalloced, order_size=%d\n",
459 get_order(block->size));
460 free_pages((unsigned long)addr, get_order(block->size));
462 else
463 goto fail;
464 #ifdef CONFIG_STRAM_SWAP
466 else if (block->flags & BLOCK_INSWAP) {
467 DPRINTK( "atari_stram_free: is swap-alloced\n" );
468 free_stram_region( SWAP_NR(block->start), N_PAGES(block->size) );
470 else
471 goto fail;
472 #endif
473 remove_region( block );
474 return;
476 fail:
477 printk( KERN_ERR "atari_stram_free: cannot free block at %p "
478 "(called from %p)\n", addr, __builtin_return_address(0) );
482 #ifdef CONFIG_STRAM_SWAP
485 /* ------------------------------------------------------------------------ */
486 /* Main Swapping Functions */
487 /* ------------------------------------------------------------------------ */
491 * Initialize ST-RAM swap device
492 * (lots copied and modified from sys_swapon() in mm/swapfile.c)
494 static int __init swap_init(void *start_mem, void *swap_data)
496 static struct dentry fake_dentry;
497 static struct vfsmount fake_vfsmnt;
498 struct swap_info_struct *p;
499 struct inode swap_inode;
500 unsigned int type;
501 void *addr;
502 int i, j, k, prev;
504 DPRINTK("swap_init(start_mem=%p, swap_data=%p)\n",
505 start_mem, swap_data);
507 /* need at least one page for swapping to (and this also isn't very
508 * much... :-) */
509 if (swap_end - swap_start < 2*PAGE_SIZE) {
510 printk( KERN_WARNING "stram_swap_init: swap space too small\n" );
511 return( 0 );
514 /* find free slot in swap_info */
515 for( p = swap_info, type = 0; type < nr_swapfiles; type++, p++ )
516 if (!(p->flags & SWP_USED))
517 break;
518 if (type >= MAX_SWAPFILES) {
519 printk( KERN_WARNING "stram_swap_init: max. number of "
520 "swap devices exhausted\n" );
521 return( 0 );
523 if (type >= nr_swapfiles)
524 nr_swapfiles = type+1;
526 stram_swap_info = p;
527 stram_swap_type = type;
529 /* fake some dir cache entries to give us some name in /dev/swaps */
530 fake_dentry.d_parent = &fake_dentry;
531 fake_dentry.d_name.name = "stram (internal)";
532 fake_dentry.d_name.len = 16;
533 fake_vfsmnt.mnt_parent = &fake_vfsmnt;
535 p->flags = SWP_USED;
536 p->swap_file = &fake_dentry;
537 p->swap_vfsmnt = &fake_vfsmnt;
538 p->swap_map = swap_data;
539 p->cluster_nr = 0;
540 p->next = -1;
541 p->prio = 0x7ff0; /* a rather high priority, but not the higest
542 * to give the user a chance to override */
544 /* call stram_open() directly, avoids at least the overhead in
545 * constructing a dummy file structure... */
546 swap_inode.i_rdev = MKDEV( STRAM_MAJOR, STRAM_MINOR );
547 stram_open( &swap_inode, MAGIC_FILE_P );
548 p->max = SWAP_NR(swap_end);
550 /* initialize swap_map: set regions that are already allocated or belong
551 * to kernel data space to SWAP_MAP_BAD, otherwise to free */
552 j = 0; /* # of free pages */
553 k = 0; /* # of already allocated pages (from pre-mem_init stram_alloc()) */
554 p->lowest_bit = 0;
555 p->highest_bit = 0;
556 for( i = 1, addr = SWAP_ADDR(1); i < p->max;
557 i++, addr += PAGE_SIZE ) {
558 if (in_some_region( addr )) {
559 p->swap_map[i] = SWAP_MAP_BAD;
560 ++k;
562 else if (kernel_in_stram && addr < start_mem ) {
563 p->swap_map[i] = SWAP_MAP_BAD;
565 else {
566 p->swap_map[i] = 0;
567 ++j;
568 if (!p->lowest_bit) p->lowest_bit = i;
569 p->highest_bit = i;
572 /* first page always reserved (and doesn't really belong to swap space) */
573 p->swap_map[0] = SWAP_MAP_BAD;
575 /* now swapping to this device ok */
576 p->pages = j + k;
577 swap_list_lock();
578 nr_swap_pages += j;
579 p->flags = SWP_WRITEOK;
581 /* insert swap space into swap_list */
582 prev = -1;
583 for (i = swap_list.head; i >= 0; i = swap_info[i].next) {
584 if (p->prio >= swap_info[i].prio) {
585 break;
587 prev = i;
589 p->next = i;
590 if (prev < 0) {
591 swap_list.head = swap_list.next = p - swap_info;
592 } else {
593 swap_info[prev].next = p - swap_info;
595 swap_list_unlock();
597 printk( KERN_INFO "Using %dk (%d pages) of ST-RAM as swap space.\n",
598 p->pages << 2, p->pages );
599 return( 1 );
604 * The swap entry has been read in advance, and we return 1 to indicate
605 * that the page has been used or is no longer needed.
607 * Always set the resulting pte to be nowrite (the same as COW pages
608 * after one process has exited). We don't know just how many PTEs will
609 * share this swap entry, so be cautious and let do_wp_page work out
610 * what to do if a write is requested later.
612 static inline void unswap_pte(struct vm_area_struct * vma, unsigned long
613 address, pte_t *dir, swp_entry_t entry,
614 struct page *page)
616 pte_t pte = *dir;
618 if (pte_none(pte))
619 return;
620 if (pte_present(pte)) {
621 /* If this entry is swap-cached, then page must already
622 hold the right address for any copies in physical
623 memory */
624 if (pte_page(pte) != page)
625 return;
626 /* We will be removing the swap cache in a moment, so... */
627 set_pte(dir, pte_mkdirty(pte));
628 return;
630 if (pte_val(pte) != entry.val)
631 return;
633 DPRINTK("unswap_pte: replacing entry %08lx by new page %p",
634 entry.val, page);
635 set_pte(dir, pte_mkdirty(mk_pte(page, vma->vm_page_prot)));
636 swap_free(entry);
637 get_page(page);
638 inc_mm_counter(vma->vm_mm, rss);
641 static inline void unswap_pmd(struct vm_area_struct * vma, pmd_t *dir,
642 unsigned long address, unsigned long size,
643 unsigned long offset, swp_entry_t entry,
644 struct page *page)
646 pte_t * pte;
647 unsigned long end;
649 if (pmd_none(*dir))
650 return;
651 if (pmd_bad(*dir)) {
652 pmd_ERROR(*dir);
653 pmd_clear(dir);
654 return;
656 pte = pte_offset_kernel(dir, address);
657 offset += address & PMD_MASK;
658 address &= ~PMD_MASK;
659 end = address + size;
660 if (end > PMD_SIZE)
661 end = PMD_SIZE;
662 do {
663 unswap_pte(vma, offset+address-vma->vm_start, pte, entry, page);
664 address += PAGE_SIZE;
665 pte++;
666 } while (address < end);
669 static inline void unswap_pgd(struct vm_area_struct * vma, pgd_t *dir,
670 unsigned long address, unsigned long size,
671 swp_entry_t entry, struct page *page)
673 pmd_t * pmd;
674 unsigned long offset, end;
676 if (pgd_none(*dir))
677 return;
678 if (pgd_bad(*dir)) {
679 pgd_ERROR(*dir);
680 pgd_clear(dir);
681 return;
683 pmd = pmd_offset(dir, address);
684 offset = address & PGDIR_MASK;
685 address &= ~PGDIR_MASK;
686 end = address + size;
687 if (end > PGDIR_SIZE)
688 end = PGDIR_SIZE;
689 do {
690 unswap_pmd(vma, pmd, address, end - address, offset, entry,
691 page);
692 address = (address + PMD_SIZE) & PMD_MASK;
693 pmd++;
694 } while (address < end);
697 static void unswap_vma(struct vm_area_struct * vma, pgd_t *pgdir,
698 swp_entry_t entry, struct page *page)
700 unsigned long start = vma->vm_start, end = vma->vm_end;
702 do {
703 unswap_pgd(vma, pgdir, start, end - start, entry, page);
704 start = (start + PGDIR_SIZE) & PGDIR_MASK;
705 pgdir++;
706 } while (start < end);
709 static void unswap_process(struct mm_struct * mm, swp_entry_t entry,
710 struct page *page)
712 struct vm_area_struct* vma;
715 * Go through process' page directory.
717 if (!mm)
718 return;
719 for (vma = mm->mmap; vma; vma = vma->vm_next) {
720 pgd_t * pgd = pgd_offset(mm, vma->vm_start);
721 unswap_vma(vma, pgd, entry, page);
726 static int unswap_by_read(unsigned short *map, unsigned long max,
727 unsigned long start, unsigned long n_pages)
729 struct task_struct *p;
730 struct page *page;
731 swp_entry_t entry;
732 unsigned long i;
734 DPRINTK( "unswapping %lu..%lu by reading in\n",
735 start, start+n_pages-1 );
737 for( i = start; i < start+n_pages; ++i ) {
738 if (map[i] == SWAP_MAP_BAD) {
739 printk( KERN_ERR "get_stram_region: page %lu already "
740 "reserved??\n", i );
741 continue;
744 if (map[i]) {
745 entry = swp_entry(stram_swap_type, i);
746 DPRINTK("unswap: map[i=%lu]=%u nr_swap=%ld\n",
747 i, map[i], nr_swap_pages);
749 swap_device_lock(stram_swap_info);
750 map[i]++;
751 swap_device_unlock(stram_swap_info);
752 /* Get a page for the entry, using the existing
753 swap cache page if there is one. Otherwise,
754 get a clean page and read the swap into it. */
755 page = read_swap_cache_async(entry, NULL, 0);
756 if (!page) {
757 swap_free(entry);
758 return -ENOMEM;
760 read_lock(&tasklist_lock);
761 for_each_process(p)
762 unswap_process(p->mm, entry, page);
763 read_unlock(&tasklist_lock);
764 shmem_unuse(entry, page);
765 /* Now get rid of the extra reference to the
766 temporary page we've been using. */
767 if (PageSwapCache(page))
768 delete_from_swap_cache(page);
769 __free_page(page);
770 #ifdef DO_PROC
771 stat_swap_force++;
772 #endif
775 DPRINTK( "unswap: map[i=%lu]=%u nr_swap=%ld\n",
776 i, map[i], nr_swap_pages );
777 swap_list_lock();
778 swap_device_lock(stram_swap_info);
779 map[i] = SWAP_MAP_BAD;
780 if (stram_swap_info->lowest_bit == i)
781 stram_swap_info->lowest_bit++;
782 if (stram_swap_info->highest_bit == i)
783 stram_swap_info->highest_bit--;
784 --nr_swap_pages;
785 swap_device_unlock(stram_swap_info);
786 swap_list_unlock();
789 return 0;
793 * reserve a region in ST-RAM swap space for an allocation
795 static void *get_stram_region( unsigned long n_pages )
797 unsigned short *map = stram_swap_info->swap_map;
798 unsigned long max = stram_swap_info->max;
799 unsigned long start, total_free, region_free;
800 int err;
801 void *ret = NULL;
803 DPRINTK( "get_stram_region(n_pages=%lu)\n", n_pages );
805 down(&stram_swap_sem);
807 /* disallow writing to the swap device now */
808 stram_swap_info->flags = SWP_USED;
810 /* find a region of n_pages pages in the swap space including as much free
811 * pages as possible (and excluding any already-reserved pages). */
812 if (!(start = find_free_region( n_pages, &total_free, &region_free )))
813 goto end;
814 DPRINTK( "get_stram_region: region starts at %lu, has %lu free pages\n",
815 start, region_free );
817 err = unswap_by_read(map, max, start, n_pages);
818 if (err)
819 goto end;
821 ret = SWAP_ADDR(start);
822 end:
823 /* allow using swap device again */
824 stram_swap_info->flags = SWP_WRITEOK;
825 up(&stram_swap_sem);
826 DPRINTK( "get_stram_region: returning %p\n", ret );
827 return( ret );
832 * free a reserved region in ST-RAM swap space
834 static void free_stram_region( unsigned long offset, unsigned long n_pages )
836 unsigned short *map = stram_swap_info->swap_map;
838 DPRINTK( "free_stram_region(offset=%lu,n_pages=%lu)\n", offset, n_pages );
840 if (offset < 1 || offset + n_pages > stram_swap_info->max) {
841 printk( KERN_ERR "free_stram_region: Trying to free non-ST-RAM\n" );
842 return;
845 swap_list_lock();
846 swap_device_lock(stram_swap_info);
847 /* un-reserve the freed pages */
848 for( ; n_pages > 0; ++offset, --n_pages ) {
849 if (map[offset] != SWAP_MAP_BAD)
850 printk( KERN_ERR "free_stram_region: Swap page %lu was not "
851 "reserved\n", offset );
852 map[offset] = 0;
855 /* update swapping meta-data */
856 if (offset < stram_swap_info->lowest_bit)
857 stram_swap_info->lowest_bit = offset;
858 if (offset+n_pages-1 > stram_swap_info->highest_bit)
859 stram_swap_info->highest_bit = offset+n_pages-1;
860 if (stram_swap_info->prio > swap_info[swap_list.next].prio)
861 swap_list.next = swap_list.head;
862 nr_swap_pages += n_pages;
863 swap_device_unlock(stram_swap_info);
864 swap_list_unlock();
868 /* ------------------------------------------------------------------------ */
869 /* Utility Functions for Swapping */
870 /* ------------------------------------------------------------------------ */
873 /* is addr in some of the allocated regions? */
874 static int in_some_region(void *addr)
876 BLOCK *p;
878 for( p = alloc_list; p; p = p->next ) {
879 if (p->start <= addr && addr < p->start + p->size)
880 return( 1 );
882 return( 0 );
886 static unsigned long find_free_region(unsigned long n_pages,
887 unsigned long *total_free,
888 unsigned long *region_free)
890 unsigned short *map = stram_swap_info->swap_map;
891 unsigned long max = stram_swap_info->max;
892 unsigned long head, tail, max_start;
893 long nfree, max_free;
895 /* first scan the swap space for a suitable place for the allocation */
896 head = 1;
897 max_start = 0;
898 max_free = -1;
899 *total_free = 0;
901 start_over:
902 /* increment tail until final window size reached, and count free pages */
903 nfree = 0;
904 for( tail = head; tail-head < n_pages && tail < max; ++tail ) {
905 if (map[tail] == SWAP_MAP_BAD) {
906 head = tail+1;
907 goto start_over;
909 if (!map[tail]) {
910 ++nfree;
911 ++*total_free;
914 if (tail-head < n_pages)
915 goto out;
916 if (nfree > max_free) {
917 max_start = head;
918 max_free = nfree;
919 if (max_free >= n_pages)
920 /* don't need more free pages... :-) */
921 goto out;
924 /* now shift the window and look for the area where as much pages as
925 * possible are free */
926 while( tail < max ) {
927 nfree -= (map[head++] == 0);
928 if (map[tail] == SWAP_MAP_BAD) {
929 head = tail+1;
930 goto start_over;
932 if (!map[tail]) {
933 ++nfree;
934 ++*total_free;
936 ++tail;
937 if (nfree > max_free) {
938 max_start = head;
939 max_free = nfree;
940 if (max_free >= n_pages)
941 /* don't need more free pages... :-) */
942 goto out;
946 out:
947 if (max_free < 0) {
948 printk( KERN_NOTICE "get_stram_region: ST-RAM too full or fragmented "
949 "-- can't allocate %lu pages\n", n_pages );
950 return( 0 );
953 *region_free = max_free;
954 return( max_start );
958 /* setup parameters from command line */
959 void __init stram_swap_setup(char *str, int *ints)
961 if (ints[0] >= 1)
962 max_swap_size = ((ints[1] < 0 ? 0 : ints[1]) * 1024) & PAGE_MASK;
966 /* ------------------------------------------------------------------------ */
967 /* ST-RAM device */
968 /* ------------------------------------------------------------------------ */
970 static int refcnt;
972 static void do_stram_request(request_queue_t *q)
974 struct request *req;
976 while ((req = elv_next_request(q)) != NULL) {
977 void *start = swap_start + (req->sector << 9);
978 unsigned long len = req->current_nr_sectors << 9;
979 if ((start + len) > swap_end) {
980 printk( KERN_ERR "stram: bad access beyond end of device: "
981 "block=%ld, count=%d\n",
982 req->sector,
983 req->current_nr_sectors );
984 end_request(req, 0);
985 continue;
988 if (req->cmd == READ) {
989 memcpy(req->buffer, start, len);
990 #ifdef DO_PROC
991 stat_swap_read += N_PAGES(len);
992 #endif
994 else {
995 memcpy(start, req->buffer, len);
996 #ifdef DO_PROC
997 stat_swap_write += N_PAGES(len);
998 #endif
1000 end_request(req, 1);
1005 static int stram_open( struct inode *inode, struct file *filp )
1007 if (filp != MAGIC_FILE_P) {
1008 printk( KERN_NOTICE "Only kernel can open ST-RAM device\n" );
1009 return( -EPERM );
1011 if (refcnt)
1012 return( -EBUSY );
1013 ++refcnt;
1014 return( 0 );
1017 static int stram_release( struct inode *inode, struct file *filp )
1019 if (filp != MAGIC_FILE_P) {
1020 printk( KERN_NOTICE "Only kernel can close ST-RAM device\n" );
1021 return( -EPERM );
1023 if (refcnt > 0)
1024 --refcnt;
1025 return( 0 );
1029 static struct block_device_operations stram_fops = {
1030 .open = stram_open,
1031 .release = stram_release,
1034 static struct gendisk *stram_disk;
1035 static struct request_queue *stram_queue;
1036 static DEFINE_SPINLOCK(stram_lock);
1038 int __init stram_device_init(void)
1040 if (!MACH_IS_ATARI)
1041 /* no point in initializing this, I hope */
1042 return -ENXIO;
1044 if (!max_swap_size)
1045 /* swapping not enabled */
1046 return -ENXIO;
1047 stram_disk = alloc_disk(1);
1048 if (!stram_disk)
1049 return -ENOMEM;
1051 if (register_blkdev(STRAM_MAJOR, "stram")) {
1052 put_disk(stram_disk);
1053 return -ENXIO;
1056 stram_queue = blk_init_queue(do_stram_request, &stram_lock);
1057 if (!stram_queue) {
1058 unregister_blkdev(STRAM_MAJOR, "stram");
1059 put_disk(stram_disk);
1060 return -ENOMEM;
1063 stram_disk->major = STRAM_MAJOR;
1064 stram_disk->first_minor = STRAM_MINOR;
1065 stram_disk->fops = &stram_fops;
1066 stram_disk->queue = stram_queue;
1067 sprintf(stram_disk->disk_name, "stram");
1068 set_capacity(stram_disk, (swap_end - swap_start)/512);
1069 add_disk(stram_disk);
1070 return 0;
1075 /* ------------------------------------------------------------------------ */
1076 /* Misc Utility Functions */
1077 /* ------------------------------------------------------------------------ */
1079 /* reserve a range of pages */
1080 static void reserve_region(void *start, void *end)
1082 reserve_bootmem (virt_to_phys(start), end - start);
1085 #endif /* CONFIG_STRAM_SWAP */
1088 /* ------------------------------------------------------------------------ */
1089 /* Region Management */
1090 /* ------------------------------------------------------------------------ */
1093 /* insert a region into the alloced list (sorted) */
1094 static BLOCK *add_region( void *addr, unsigned long size )
1096 BLOCK **p, *n = NULL;
1097 int i;
1099 for( i = 0; i < N_STATIC_BLOCKS; ++i ) {
1100 if (static_blocks[i].flags & BLOCK_FREE) {
1101 n = &static_blocks[i];
1102 n->flags = 0;
1103 break;
1106 if (!n && mem_init_done) {
1107 /* if statics block pool exhausted and we can call kmalloc() already
1108 * (after mem_init()), try that */
1109 n = kmalloc( sizeof(BLOCK), GFP_KERNEL );
1110 if (n)
1111 n->flags = BLOCK_KMALLOCED;
1113 if (!n) {
1114 printk( KERN_ERR "Out of memory for ST-RAM descriptor blocks\n" );
1115 return( NULL );
1117 n->start = addr;
1118 n->size = size;
1120 for( p = &alloc_list; *p; p = &((*p)->next) )
1121 if ((*p)->start > addr) break;
1122 n->next = *p;
1123 *p = n;
1125 return( n );
1129 /* find a region (by start addr) in the alloced list */
1130 static BLOCK *find_region( void *addr )
1132 BLOCK *p;
1134 for( p = alloc_list; p; p = p->next ) {
1135 if (p->start == addr)
1136 return( p );
1137 if (p->start > addr)
1138 break;
1140 return( NULL );
1144 /* remove a block from the alloced list */
1145 static int remove_region( BLOCK *block )
1147 BLOCK **p;
1149 for( p = &alloc_list; *p; p = &((*p)->next) )
1150 if (*p == block) break;
1151 if (!*p)
1152 return( 0 );
1154 *p = block->next;
1155 if (block->flags & BLOCK_KMALLOCED)
1156 kfree( block );
1157 else
1158 block->flags |= BLOCK_FREE;
1159 return( 1 );
1164 /* ------------------------------------------------------------------------ */
1165 /* /proc statistics file stuff */
1166 /* ------------------------------------------------------------------------ */
1168 #ifdef DO_PROC
1170 #define PRINT_PROC(fmt,args...) len += sprintf( buf+len, fmt, ##args )
1172 int get_stram_list( char *buf )
1174 int len = 0;
1175 BLOCK *p;
1176 #ifdef CONFIG_STRAM_SWAP
1177 int i;
1178 unsigned short *map = stram_swap_info->swap_map;
1179 unsigned long max = stram_swap_info->max;
1180 unsigned free = 0, used = 0, rsvd = 0;
1181 #endif
1183 #ifdef CONFIG_STRAM_SWAP
1184 if (max_swap_size) {
1185 for( i = 1; i < max; ++i ) {
1186 if (!map[i])
1187 ++free;
1188 else if (map[i] == SWAP_MAP_BAD)
1189 ++rsvd;
1190 else
1191 ++used;
1193 PRINT_PROC(
1194 "Total ST-RAM: %8u kB\n"
1195 "Total ST-RAM swap: %8lu kB\n"
1196 "Free swap: %8u kB\n"
1197 "Used swap: %8u kB\n"
1198 "Allocated swap: %8u kB\n"
1199 "Swap Reads: %8u\n"
1200 "Swap Writes: %8u\n"
1201 "Swap Forced Reads: %8u\n",
1202 (stram_end - stram_start) >> 10,
1203 (max-1) << (PAGE_SHIFT-10),
1204 free << (PAGE_SHIFT-10),
1205 used << (PAGE_SHIFT-10),
1206 rsvd << (PAGE_SHIFT-10),
1207 stat_swap_read,
1208 stat_swap_write,
1209 stat_swap_force );
1211 else {
1212 #endif
1213 PRINT_PROC( "ST-RAM swapping disabled\n" );
1214 PRINT_PROC("Total ST-RAM: %8u kB\n",
1215 (stram_end - stram_start) >> 10);
1216 #ifdef CONFIG_STRAM_SWAP
1218 #endif
1220 PRINT_PROC( "Allocated regions:\n" );
1221 for( p = alloc_list; p; p = p->next ) {
1222 if (len + 50 >= PAGE_SIZE)
1223 break;
1224 PRINT_PROC("0x%08lx-0x%08lx: %s (",
1225 virt_to_phys(p->start),
1226 virt_to_phys(p->start+p->size-1),
1227 p->owner);
1228 if (p->flags & BLOCK_GFP)
1229 PRINT_PROC( "page-alloced)\n" );
1230 else if (p->flags & BLOCK_INSWAP)
1231 PRINT_PROC( "in swap)\n" );
1232 else
1233 PRINT_PROC( "??)\n" );
1236 return( len );
1239 #endif
1243 * Local variables:
1244 * c-indent-level: 4
1245 * tab-width: 4
1246 * End: