1 | //////////////////////////////////////////////////////////////////////////////// |
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2 | // File : malloc.h |
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3 | // Date : 05/03/2013 |
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4 | // Author : Jean-Baptiste Bréjon / alain greiner |
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5 | // Copyright (c) UPMC-LIP6 |
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6 | //////////////////////////////////////////////////////////////////////////////// |
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7 | // Initialisation policy: |
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8 | // The user application must initialize the heap(x,y) structure before |
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9 | // using the malloc() or remote_malloc() functions, and this initialization |
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10 | // must be done by a single task. |
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11 | //////////////////////////////////////////////////////////////////////////////// |
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12 | // Free blocks organisation: |
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13 | // - All free blocks have a size that is a power of 2, larger or equal |
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14 | // to MIN_BLOCK_SIZE (typically 64 bytes). |
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15 | // - All free blocks are aligned. |
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16 | // - They are pre-classed in NB_SIZES linked lists, where all blocks in a |
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17 | // given list have the same size. |
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18 | // - The NEXT pointer implementing those linked lists is written |
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19 | // in the 4 first bytes of the block itself, using the unsigned int type. |
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20 | // - The pointers on the first free block for each size are stored in an |
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21 | // array of pointers free[32] in the heap(x,y) descriptor. |
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22 | //////////////////////////////////////////////////////////////////////////////// |
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23 | // Allocation policy: |
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24 | // - The block size required by the user can be any value, but the allocated |
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25 | // block size can be larger than the requested size: |
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26 | // - The allocator computes actual_size, that is the smallest power of 2 |
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27 | // value larger or equal to the requested size AND larger or equal to |
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28 | // MIN_BLOCK_SIZE. |
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29 | // - It pop the linked list of free blocks corresponding to actual_size, |
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30 | // and returns the block B if the list[actual_size] is not empty. |
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31 | // - If the list[actual_size] is empty, it pop the list[actual_size * 2]. |
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32 | // If a block B' is found, it break this block in 2 B/2 blocks, returns |
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33 | // the first B/2 block and push the other B/2 block into list[actual_size]. |
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34 | // - If the list[actual_size * 2] is empty, it pop the list[actual_size * 4]. |
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35 | // If a block B is found, it break this block in 3 blocks B/4, B/4 and B/2, |
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36 | // returns the first B/4 block, push the other blocks B/4 and B/2 into |
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37 | // the proper lists. etc... |
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38 | // - If no block satisfying the request is available it returns a failure |
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39 | // (NULL pointer). |
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40 | // - This allocation policy has the nice following property: |
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41 | // If the heap segment is aligned (the heap_base is a multiple of the |
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42 | // heap_size), all allocated blocks are aligned on the actual_size. |
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43 | //////////////////////////////////////////////////////////////////////////////// |
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44 | // Free policy: |
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45 | // - Each allocated block is registered in an alloc[] array of unsigned char. |
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46 | // - This registration is required by the free() operation, because the size |
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47 | // of the allocated block must be obtained from the base address of the block. |
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48 | // - The number of entries in this array is equal to the max number |
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49 | // of allocated block is : heap_size / MIN_BLOCK_SIZE. |
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50 | // - For each allocated block, the value registered in the alloc[] array |
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51 | // is log2( size_of_allocated_block ). |
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52 | // - The index in this array is computed from the allocated block base address: |
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53 | // index = (block_base - heap_base) / MIN_BLOCK_SIZE |
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54 | // - The alloc[] array is stored at the end of heap segment. This consume |
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55 | // (1 / MIN_BLOCK_SIZE) of the total heap storage capacity. |
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56 | //////////////////////////////////////////////////////////////////////////////// |
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57 | |
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58 | #ifndef _MALLOC_H_ |
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59 | #define _MALLOC_H_ |
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60 | |
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61 | #include "user_lock.h" |
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62 | |
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63 | //////////////////////////////////////////////////////////////////////////////// |
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64 | // magic number indicating that heap(x,y) has been initialized. |
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65 | //////////////////////////////////////////////////////////////////////////////// |
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66 | |
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67 | #define HEAP_INITIALIZED 0xDEADBEEF |
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68 | |
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69 | #define MIN_BLOCK_SIZE 0x40 |
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70 | |
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71 | //////////////////////////////////////////////////////////////////////////////// |
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72 | // heap(x,y) descriptor (one per cluster) |
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73 | //////////////////////////////////////////////////////////////////////////////// |
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74 | |
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75 | typedef struct giet_heap_s |
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76 | { |
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77 | user_lock_t lock; // lock protecting exclusive access |
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78 | unsigned int init; // initialised <=> value == HEAP_INITIALIZED |
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79 | unsigned int x; // cluster X coordinate |
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80 | unsigned int y; // cluster Y coordinate |
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81 | unsigned int heap_base; // heap base address |
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82 | unsigned int heap_size; // heap size (bytes) |
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83 | unsigned int alloc_base; // alloc[] array base address |
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84 | unsigned int alloc_size; // alloc[] array size (bytes) |
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85 | unsigned int free[32]; // array of base addresses of free blocks |
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86 | // (address of first block of a given size) |
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87 | } giet_heap_t; |
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88 | |
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89 | ///////// user functions ///////////////// |
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90 | |
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91 | extern void heap_init( unsigned int x, |
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92 | unsigned int y ); |
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93 | |
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94 | extern void * malloc( int size ); |
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95 | extern void * calloc( int nbmem, |
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96 | int size ); |
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97 | extern void * realloc ( void * ptr, |
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98 | int size ); |
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99 | |
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100 | extern void * remote_malloc( int size, |
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101 | unsigned int x, |
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102 | unsigned int y ); |
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103 | |
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104 | extern void free(void * ptr); |
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105 | |
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106 | #endif |
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107 | |
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108 | // Local Variables: |
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109 | // tab-width: 4 |
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110 | // c-basic-offset: 4 |
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111 | // c-file-offsets:((innamespace . 0)(inline-open . 0)) |
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112 | // indent-tabs-mode: nil |
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113 | // End: |
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114 | // vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4 |
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115 | |
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