forked from luck/tmp_suning_uos_patched
pm: hibernation: simplify memory bitmap
This patch simplifies the memory bitmap manipulations. - remove the member size in struct bm_block It is not necessary for struct bm_block to have the number of bit chunks that can be calculated by using end_pfn and start_pfn. - use find_next_bit() for memory_bm_next_pfn No need to invent the bitmap library only for the memory bitmap. Signed-off-by: Akinobu Mita <akinobu.mita@gmail.com> Signed-off-by: Rafael J. Wysocki <rjw@sisk.pl> Acked-by: Pavel Machek <pavel@ucw.cz> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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@ -205,8 +205,7 @@ static void chain_free(struct chain_allocator *ca, int clear_page_nosave)
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* objects. The main list's elements are of type struct zone_bitmap
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* and each of them corresonds to one zone. For each zone bitmap
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* object there is a list of objects of type struct bm_block that
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* represent each blocks of bit chunks in which information is
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* stored.
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* represent each blocks of bitmap in which information is stored.
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*
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* struct memory_bitmap contains a pointer to the main list of zone
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* bitmap objects, a struct bm_position used for browsing the bitmap,
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@ -224,26 +223,27 @@ static void chain_free(struct chain_allocator *ca, int clear_page_nosave)
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* pfns that correspond to the start and end of the represented zone.
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*
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* struct bm_block contains a pointer to the memory page in which
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* information is stored (in the form of a block of bit chunks
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* of type unsigned long each). It also contains the pfns that
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* correspond to the start and end of the represented memory area and
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* the number of bit chunks in the block.
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* information is stored (in the form of a block of bitmap)
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* It also contains the pfns that correspond to the start and end of
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* the represented memory area.
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*/
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#define BM_END_OF_MAP (~0UL)
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#define BM_CHUNKS_PER_BLOCK (PAGE_SIZE / sizeof(long))
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#define BM_BITS_PER_CHUNK (sizeof(long) << 3)
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#define BM_BITS_PER_BLOCK (PAGE_SIZE << 3)
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struct bm_block {
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struct bm_block *next; /* next element of the list */
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unsigned long start_pfn; /* pfn represented by the first bit */
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unsigned long end_pfn; /* pfn represented by the last bit plus 1 */
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unsigned int size; /* number of bit chunks */
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unsigned long *data; /* chunks of bits representing pages */
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unsigned long *data; /* bitmap representing pages */
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};
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static inline unsigned long bm_block_bits(struct bm_block *bb)
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{
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return bb->end_pfn - bb->start_pfn;
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}
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struct zone_bitmap {
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struct zone_bitmap *next; /* next element of the list */
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unsigned long start_pfn; /* minimal pfn in this zone */
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@ -257,7 +257,6 @@ struct zone_bitmap {
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struct bm_position {
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struct zone_bitmap *zone_bm;
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struct bm_block *block;
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int chunk;
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int bit;
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};
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@ -272,12 +271,6 @@ struct memory_bitmap {
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/* Functions that operate on memory bitmaps */
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static inline void memory_bm_reset_chunk(struct memory_bitmap *bm)
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{
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bm->cur.chunk = 0;
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bm->cur.bit = -1;
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}
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static void memory_bm_position_reset(struct memory_bitmap *bm)
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{
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struct zone_bitmap *zone_bm;
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@ -285,7 +278,7 @@ static void memory_bm_position_reset(struct memory_bitmap *bm)
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zone_bm = bm->zone_bm_list;
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bm->cur.zone_bm = zone_bm;
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bm->cur.block = zone_bm->bm_blocks;
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memory_bm_reset_chunk(bm);
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bm->cur.bit = 0;
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}
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static void memory_bm_free(struct memory_bitmap *bm, int clear_nosave_free);
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@ -394,12 +387,10 @@ memory_bm_create(struct memory_bitmap *bm, gfp_t gfp_mask, int safe_needed)
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bb->start_pfn = pfn;
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if (nr >= BM_BITS_PER_BLOCK) {
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pfn += BM_BITS_PER_BLOCK;
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bb->size = BM_CHUNKS_PER_BLOCK;
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nr -= BM_BITS_PER_BLOCK;
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} else {
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/* This is executed only once in the loop */
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pfn += nr;
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bb->size = DIV_ROUND_UP(nr, BM_BITS_PER_CHUNK);
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}
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bb->end_pfn = pfn;
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bb = bb->next;
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@ -478,8 +469,8 @@ static int memory_bm_find_bit(struct memory_bitmap *bm, unsigned long pfn,
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}
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zone_bm->cur_block = bb;
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pfn -= bb->start_pfn;
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*bit_nr = pfn % BM_BITS_PER_CHUNK;
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*addr = bb->data + pfn / BM_BITS_PER_CHUNK;
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*bit_nr = pfn;
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*addr = bb->data;
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return 0;
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}
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@ -528,36 +519,6 @@ static int memory_bm_test_bit(struct memory_bitmap *bm, unsigned long pfn)
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return test_bit(bit, addr);
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}
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/* Two auxiliary functions for memory_bm_next_pfn */
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/* Find the first set bit in the given chunk, if there is one */
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static inline int next_bit_in_chunk(int bit, unsigned long *chunk_p)
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{
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bit++;
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while (bit < BM_BITS_PER_CHUNK) {
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if (test_bit(bit, chunk_p))
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return bit;
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bit++;
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}
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return -1;
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}
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/* Find a chunk containing some bits set in given block of bits */
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static inline int next_chunk_in_block(int n, struct bm_block *bb)
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{
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n++;
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while (n < bb->size) {
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if (bb->data[n])
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return n;
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n++;
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}
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return -1;
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}
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/**
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* memory_bm_next_pfn - find the pfn that corresponds to the next set bit
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* in the bitmap @bm. If the pfn cannot be found, BM_END_OF_MAP is
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@ -571,40 +532,33 @@ static unsigned long memory_bm_next_pfn(struct memory_bitmap *bm)
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{
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struct zone_bitmap *zone_bm;
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struct bm_block *bb;
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int chunk;
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int bit;
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do {
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bb = bm->cur.block;
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do {
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chunk = bm->cur.chunk;
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bit = bm->cur.bit;
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do {
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bit = next_bit_in_chunk(bit, bb->data + chunk);
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if (bit >= 0)
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goto Return_pfn;
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bit = find_next_bit(bb->data, bm_block_bits(bb), bit);
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if (bit < bm_block_bits(bb))
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goto Return_pfn;
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chunk = next_chunk_in_block(chunk, bb);
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bit = -1;
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} while (chunk >= 0);
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bb = bb->next;
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bm->cur.block = bb;
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memory_bm_reset_chunk(bm);
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bm->cur.bit = 0;
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} while (bb);
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zone_bm = bm->cur.zone_bm->next;
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if (zone_bm) {
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bm->cur.zone_bm = zone_bm;
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bm->cur.block = zone_bm->bm_blocks;
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memory_bm_reset_chunk(bm);
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bm->cur.bit = 0;
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}
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} while (zone_bm);
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memory_bm_position_reset(bm);
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return BM_END_OF_MAP;
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Return_pfn:
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bm->cur.chunk = chunk;
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bm->cur.bit = bit;
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return bb->start_pfn + chunk * BM_BITS_PER_CHUNK + bit;
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bm->cur.bit = bit + 1;
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return bb->start_pfn + bit;
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}
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/**
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