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1 /*
2  * Copyright (C) 2016 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include <atomicBitset.h>
18 #include <stdio.h>
19 #include <heap.h>
20 #include <slab.h>
21 
22 struct SlabAllocator {
23 
24     uint32_t itemSz;
25     uint8_t *dataChunks;
26     struct AtomicBitset bitset[0];
27 };
28 
slabAllocatorNew(uint32_t itemSz,uint32_t itemAlign,uint32_t numItems)29 struct SlabAllocator* slabAllocatorNew(uint32_t itemSz, uint32_t itemAlign, uint32_t numItems)
30 {
31     struct SlabAllocator *allocator;
32     uint32_t bitsetSz, dataSz;
33 
34     /* calcualte size */
35     bitsetSz = ATOMIC_BITSET_SZ(numItems);
36     bitsetSz = ((bitsetSz + itemAlign - 1) / itemAlign) * itemAlign;
37 
38     itemSz = ((itemSz + itemAlign - 1) / itemAlign) * itemAlign;
39     dataSz = itemSz * numItems;
40 
41     /* allocate & init*/
42     allocator = (struct SlabAllocator*)heapAlloc(sizeof(struct SlabAllocator) + bitsetSz + dataSz);
43     if (allocator) {
44         allocator->itemSz = itemSz;
45         allocator->dataChunks = ((uint8_t*)allocator->bitset) + bitsetSz;
46         atomicBitsetInit(allocator->bitset, numItems);
47     }
48 
49     return allocator;
50 }
51 
slabAllocatorDestroy(struct SlabAllocator * allocator)52 void slabAllocatorDestroy(struct SlabAllocator *allocator)
53 {
54     heapFree(allocator);
55 }
56 
slabAllocatorAlloc(struct SlabAllocator * allocator)57 void* slabAllocatorAlloc(struct SlabAllocator *allocator)
58 {
59     int32_t itemIdx = atomicBitsetFindClearAndSet(allocator->bitset);
60 
61     if (itemIdx < 0)
62         return NULL;
63 
64     return allocator->dataChunks + allocator->itemSz * itemIdx;
65 }
66 
slabAllocatorFree(struct SlabAllocator * allocator,void * ptrP)67 void slabAllocatorFree(struct SlabAllocator *allocator, void* ptrP)
68 {
69     uint8_t *ptr = (uint8_t*)ptrP;
70     uint32_t itemOffset = ptr - allocator->dataChunks;
71     uint32_t itemIdx = itemOffset / allocator->itemSz;
72 
73     //check for invalid inputs
74     if ((itemOffset % allocator->itemSz) || (itemIdx >= atomicBitsetGetNumBits(allocator->bitset)) || !atomicBitsetGetBit(allocator->bitset, itemIdx))
75         return;
76 
77     atomicBitsetClearBit(allocator->bitset, itemIdx);
78 }
79 
slabAllocatorGetNth(struct SlabAllocator * allocator,uint32_t idx)80 void* slabAllocatorGetNth(struct SlabAllocator *allocator, uint32_t idx)
81 {
82     if (!atomicBitsetGetBit(allocator->bitset, idx))
83         return NULL;
84 
85     return allocator->dataChunks + allocator->itemSz * idx;
86 }
87 
slabAllocatorGetIndex(struct SlabAllocator * allocator,void * ptrP)88 uint32_t slabAllocatorGetIndex(struct SlabAllocator *allocator, void* ptrP)
89 {
90     uint8_t *ptr = (uint8_t*)ptrP;
91     uint32_t itemOffset = ptr - allocator->dataChunks;
92     uint32_t itemIdx = itemOffset / allocator->itemSz;
93 
94     if ((itemOffset % allocator->itemSz) || (itemIdx >= atomicBitsetGetNumBits(allocator->bitset)) || !atomicBitsetGetBit(allocator->bitset, itemIdx))
95         return -1;
96 
97     return itemIdx;
98 }
99 
slabAllocatorGetNumItems(struct SlabAllocator * allocator)100 uint32_t slabAllocatorGetNumItems(struct SlabAllocator *allocator)
101 {
102     return atomicBitsetGetNumBits(allocator->bitset);
103 }
104 
105 
106