target/arm: Implement BLXNS
[qemu.git] / include / qemu / hbitmap.h
blob81e78043d189359f57748580bd81e22837584837
1 /*
2 * Hierarchical Bitmap Data Type
4 * Copyright Red Hat, Inc., 2012
6 * Author: Paolo Bonzini <pbonzini@redhat.com>
8 * This work is licensed under the terms of the GNU GPL, version 2 or
9 * later. See the COPYING file in the top-level directory.
12 #ifndef HBITMAP_H
13 #define HBITMAP_H
15 #include "bitops.h"
16 #include "host-utils.h"
18 typedef struct HBitmap HBitmap;
19 typedef struct HBitmapIter HBitmapIter;
21 #define BITS_PER_LEVEL (BITS_PER_LONG == 32 ? 5 : 6)
23 /* For 32-bit, the largest that fits in a 4 GiB address space.
24 * For 64-bit, the number of sectors in 1 PiB. Good luck, in
25 * either case... :)
27 #define HBITMAP_LOG_MAX_SIZE (BITS_PER_LONG == 32 ? 34 : 41)
29 /* We need to place a sentinel in level 0 to speed up iteration. Thus,
30 * we do this instead of HBITMAP_LOG_MAX_SIZE / BITS_PER_LEVEL. The
31 * difference is that it allocates an extra level when HBITMAP_LOG_MAX_SIZE
32 * is an exact multiple of BITS_PER_LEVEL.
34 #define HBITMAP_LEVELS ((HBITMAP_LOG_MAX_SIZE / BITS_PER_LEVEL) + 1)
36 struct HBitmapIter {
37 const HBitmap *hb;
39 /* Copied from hb for access in the inline functions (hb is opaque). */
40 int granularity;
42 /* Entry offset into the last-level array of longs. */
43 size_t pos;
45 /* The currently-active path in the tree. Each item of cur[i] stores
46 * the bits (i.e. the subtrees) yet to be processed under that node.
48 unsigned long cur[HBITMAP_LEVELS];
51 /**
52 * hbitmap_alloc:
53 * @size: Number of bits in the bitmap.
54 * @granularity: Granularity of the bitmap. Aligned groups of 2^@granularity
55 * bits will be represented by a single bit. Each operation on a
56 * range of bits first rounds the bits to determine which group they land
57 * in, and then affect the entire set; iteration will only visit the first
58 * bit of each group.
60 * Allocate a new HBitmap.
62 HBitmap *hbitmap_alloc(uint64_t size, int granularity);
64 /**
65 * hbitmap_truncate:
66 * @hb: The bitmap to change the size of.
67 * @size: The number of elements to change the bitmap to accommodate.
69 * truncate or grow an existing bitmap to accommodate a new number of elements.
70 * This may invalidate existing HBitmapIterators.
72 void hbitmap_truncate(HBitmap *hb, uint64_t size);
74 /**
75 * hbitmap_merge:
76 * @a: The bitmap to store the result in.
77 * @b: The bitmap to merge into @a.
78 * @return true if the merge was successful,
79 * false if it was not attempted.
81 * Merge two bitmaps together.
82 * A := A (BITOR) B.
83 * B is left unmodified.
85 bool hbitmap_merge(HBitmap *a, const HBitmap *b);
87 /**
88 * hbitmap_empty:
89 * @hb: HBitmap to operate on.
91 * Return whether the bitmap is empty.
93 bool hbitmap_empty(const HBitmap *hb);
95 /**
96 * hbitmap_granularity:
97 * @hb: HBitmap to operate on.
99 * Return the granularity of the HBitmap.
101 int hbitmap_granularity(const HBitmap *hb);
104 * hbitmap_count:
105 * @hb: HBitmap to operate on.
107 * Return the number of bits set in the HBitmap.
109 uint64_t hbitmap_count(const HBitmap *hb);
112 * hbitmap_set:
113 * @hb: HBitmap to operate on.
114 * @start: First bit to set (0-based).
115 * @count: Number of bits to set.
117 * Set a consecutive range of bits in an HBitmap.
119 void hbitmap_set(HBitmap *hb, uint64_t start, uint64_t count);
122 * hbitmap_reset:
123 * @hb: HBitmap to operate on.
124 * @start: First bit to reset (0-based).
125 * @count: Number of bits to reset.
127 * Reset a consecutive range of bits in an HBitmap.
129 void hbitmap_reset(HBitmap *hb, uint64_t start, uint64_t count);
132 * hbitmap_reset_all:
133 * @hb: HBitmap to operate on.
135 * Reset all bits in an HBitmap.
137 void hbitmap_reset_all(HBitmap *hb);
140 * hbitmap_get:
141 * @hb: HBitmap to operate on.
142 * @item: Bit to query (0-based).
144 * Return whether the @item-th bit in an HBitmap is set.
146 bool hbitmap_get(const HBitmap *hb, uint64_t item);
149 * hbitmap_is_serializable:
150 * @hb: HBitmap which should be (de-)serialized.
152 * Returns whether the bitmap can actually be (de-)serialized. Other
153 * (de-)serialization functions may only be invoked if this function returns
154 * true.
156 * Calling (de-)serialization functions does not affect a bitmap's
157 * (de-)serializability.
159 bool hbitmap_is_serializable(const HBitmap *hb);
162 * hbitmap_serialization_align:
163 * @hb: HBitmap to operate on.
165 * Required alignment of serialization chunks, used by other serialization
166 * functions. For every chunk:
167 * 1. Chunk start should be aligned to this granularity.
168 * 2. Chunk size should be aligned too, except for last chunk (for which
169 * start + count == hb->size)
171 uint64_t hbitmap_serialization_align(const HBitmap *hb);
174 * hbitmap_serialization_size:
175 * @hb: HBitmap to operate on.
176 * @start: Starting bit
177 * @count: Number of bits
179 * Return number of bytes hbitmap_(de)serialize_part needs
181 uint64_t hbitmap_serialization_size(const HBitmap *hb,
182 uint64_t start, uint64_t count);
185 * hbitmap_serialize_part
186 * @hb: HBitmap to operate on.
187 * @buf: Buffer to store serialized bitmap.
188 * @start: First bit to store.
189 * @count: Number of bits to store.
191 * Stores HBitmap data corresponding to given region. The format of saved data
192 * is linear sequence of bits, so it can be used by hbitmap_deserialize_part
193 * independently of endianness and size of HBitmap level array elements
195 void hbitmap_serialize_part(const HBitmap *hb, uint8_t *buf,
196 uint64_t start, uint64_t count);
199 * hbitmap_deserialize_part
200 * @hb: HBitmap to operate on.
201 * @buf: Buffer to restore bitmap data from.
202 * @start: First bit to restore.
203 * @count: Number of bits to restore.
204 * @finish: Whether to call hbitmap_deserialize_finish automatically.
206 * Restores HBitmap data corresponding to given region. The format is the same
207 * as for hbitmap_serialize_part.
209 * If @finish is false, caller must call hbitmap_serialize_finish before using
210 * the bitmap.
212 void hbitmap_deserialize_part(HBitmap *hb, uint8_t *buf,
213 uint64_t start, uint64_t count,
214 bool finish);
217 * hbitmap_deserialize_zeroes
218 * @hb: HBitmap to operate on.
219 * @start: First bit to restore.
220 * @count: Number of bits to restore.
221 * @finish: Whether to call hbitmap_deserialize_finish automatically.
223 * Fills the bitmap with zeroes.
225 * If @finish is false, caller must call hbitmap_serialize_finish before using
226 * the bitmap.
228 void hbitmap_deserialize_zeroes(HBitmap *hb, uint64_t start, uint64_t count,
229 bool finish);
232 * hbitmap_deserialize_ones
233 * @hb: HBitmap to operate on.
234 * @start: First bit to restore.
235 * @count: Number of bits to restore.
236 * @finish: Whether to call hbitmap_deserialize_finish automatically.
238 * Fills the bitmap with ones.
240 * If @finish is false, caller must call hbitmap_serialize_finish before using
241 * the bitmap.
243 void hbitmap_deserialize_ones(HBitmap *hb, uint64_t start, uint64_t count,
244 bool finish);
247 * hbitmap_deserialize_finish
248 * @hb: HBitmap to operate on.
250 * Repair HBitmap after calling hbitmap_deserialize_data. Actually, all HBitmap
251 * layers are restored here.
253 void hbitmap_deserialize_finish(HBitmap *hb);
256 * hbitmap_sha256:
257 * @bitmap: HBitmap to operate on.
259 * Returns SHA256 hash of the last level.
261 char *hbitmap_sha256(const HBitmap *bitmap, Error **errp);
264 * hbitmap_free:
265 * @hb: HBitmap to operate on.
267 * Free an HBitmap and all of its associated memory.
269 void hbitmap_free(HBitmap *hb);
272 * hbitmap_iter_init:
273 * @hbi: HBitmapIter to initialize.
274 * @hb: HBitmap to iterate on.
275 * @first: First bit to visit (0-based, must be strictly less than the
276 * size of the bitmap).
278 * Set up @hbi to iterate on the HBitmap @hb. hbitmap_iter_next will return
279 * the lowest-numbered bit that is set in @hb, starting at @first.
281 * Concurrent setting of bits is acceptable, and will at worst cause the
282 * iteration to miss some of those bits.
284 * The concurrent resetting of bits is OK.
286 void hbitmap_iter_init(HBitmapIter *hbi, const HBitmap *hb, uint64_t first);
288 /* hbitmap_iter_skip_words:
289 * @hbi: HBitmapIter to operate on.
291 * Internal function used by hbitmap_iter_next and hbitmap_iter_next_word.
293 unsigned long hbitmap_iter_skip_words(HBitmapIter *hbi);
295 /* hbitmap_create_meta:
296 * Create a "meta" hbitmap to track dirtiness of the bits in this HBitmap.
297 * The caller owns the created bitmap and must call hbitmap_free_meta(hb) to
298 * free it.
300 * Currently, we only guarantee that if a bit in the hbitmap is changed it
301 * will be reflected in the meta bitmap, but we do not yet guarantee the
302 * opposite.
304 * @hb: The HBitmap to operate on.
305 * @chunk_size: How many bits in @hb does one bit in the meta track.
307 HBitmap *hbitmap_create_meta(HBitmap *hb, int chunk_size);
309 /* hbitmap_free_meta:
310 * Free the meta bitmap of @hb.
312 * @hb: The HBitmap whose meta bitmap should be freed.
314 void hbitmap_free_meta(HBitmap *hb);
317 * hbitmap_iter_next:
318 * @hbi: HBitmapIter to operate on.
320 * Return the next bit that is set in @hbi's associated HBitmap,
321 * or -1 if all remaining bits are zero.
323 int64_t hbitmap_iter_next(HBitmapIter *hbi);
326 * hbitmap_iter_next_word:
327 * @hbi: HBitmapIter to operate on.
328 * @p_cur: Location where to store the next non-zero word.
330 * Return the index of the next nonzero word that is set in @hbi's
331 * associated HBitmap, and set *p_cur to the content of that word
332 * (bits before the index that was passed to hbitmap_iter_init are
333 * trimmed on the first call). Return -1, and set *p_cur to zero,
334 * if all remaining words are zero.
336 static inline size_t hbitmap_iter_next_word(HBitmapIter *hbi, unsigned long *p_cur)
338 unsigned long cur = hbi->cur[HBITMAP_LEVELS - 1];
340 if (cur == 0) {
341 cur = hbitmap_iter_skip_words(hbi);
342 if (cur == 0) {
343 *p_cur = 0;
344 return -1;
348 /* The next call will resume work from the next word. */
349 hbi->cur[HBITMAP_LEVELS - 1] = 0;
350 *p_cur = cur;
351 return hbi->pos;
355 #endif