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2876 | jermar | 1 | /* |
2 | * Copyright (c) 2008 Jakub Jermar |
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3 | * All rights reserved. |
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4 | * |
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5 | * Redistribution and use in source and binary forms, with or without |
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6 | * modification, are permitted provided that the following conditions |
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7 | * are met: |
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8 | * |
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9 | * - Redistributions of source code must retain the above copyright |
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10 | * notice, this list of conditions and the following disclaimer. |
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11 | * - Redistributions in binary form must reproduce the above copyright |
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12 | * notice, this list of conditions and the following disclaimer in the |
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13 | * documentation and/or other materials provided with the distribution. |
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14 | * - The name of the author may not be used to endorse or promote products |
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15 | * derived from this software without specific prior written permission. |
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16 | * |
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17 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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18 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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19 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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20 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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21 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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22 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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23 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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24 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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25 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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26 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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27 | */ |
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28 | |||
29 | /** @addtogroup fs |
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30 | * @{ |
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31 | */ |
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32 | |||
33 | /** |
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34 | * @file fat_idx.c |
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35 | * @brief Layer for translating FAT entities to VFS node indices. |
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36 | */ |
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37 | |||
38 | #include "fat.h" |
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2881 | jermar | 39 | #include "../../vfs/vfs.h" |
2876 | jermar | 40 | #include <errno.h> |
41 | #include <string.h> |
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42 | #include <libadt/hash_table.h> |
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43 | #include <libadt/list.h> |
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44 | #include <assert.h> |
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45 | #include <futex.h> |
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46 | |||
2881 | jermar | 47 | /** Each instance of this type describes one interval of freed VFS indices. */ |
48 | typedef struct { |
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49 | link_t link; |
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50 | fs_index_t first; |
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51 | fs_index_t last; |
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52 | } freed_t; |
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53 | |||
54 | /** |
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55 | * Each instance of this type describes state of all VFS indices that |
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56 | * are currently unused. |
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57 | */ |
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58 | typedef struct { |
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59 | link_t link; |
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60 | dev_handle_t dev_handle; |
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61 | |||
62 | /** Next unassigned index. */ |
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63 | fs_index_t next; |
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64 | /** Number of remaining unassigned indices. */ |
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65 | uint64_t remaining; |
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66 | |||
67 | /** Sorted list of intervals of freed indices. */ |
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68 | link_t freed_head; |
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69 | } unused_t; |
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70 | |||
2944 | jermar | 71 | /** Futex protecting the list of unused structures. */ |
72 | static futex_t unused_futex = FUTEX_INITIALIZER; |
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73 | |||
74 | /** List of unused structures. */ |
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2881 | jermar | 75 | static LIST_INITIALIZE(unused_head); |
76 | |||
3110 | jermar | 77 | static void unused_initialize(unused_t *u, dev_handle_t dev_handle) |
78 | { |
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79 | link_initialize(&u->link); |
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80 | u->dev_handle = dev_handle; |
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81 | u->next = 0; |
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82 | u->remaining = ((uint64_t)((fs_index_t)-1)) + 1; |
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83 | list_initialize(&u->freed_head); |
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84 | } |
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85 | |||
3111 | jermar | 86 | static unused_t *unused_find(dev_handle_t dev_handle, bool lock) |
87 | { |
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88 | unused_t *u; |
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89 | link_t *l; |
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90 | |||
91 | if (lock) |
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92 | futex_down(&unused_futex); |
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93 | for (l = unused_head.next; l != &unused_head; l = l->next) { |
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94 | u = list_get_instance(l, unused_t, link); |
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95 | if (u->dev_handle == dev_handle) |
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96 | return u; |
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97 | } |
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98 | if (lock) |
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99 | futex_up(&unused_futex); |
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100 | return NULL; |
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101 | } |
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102 | |||
2951 | jermar | 103 | /** Futex protecting the up_hash and ui_hash. */ |
2945 | jermar | 104 | static futex_t used_futex = FUTEX_INITIALIZER; |
105 | |||
2890 | jermar | 106 | /** |
107 | * Global hash table of all used fat_idx_t structures. |
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108 | * The index structures are hashed by the dev_handle, parent node's first |
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109 | * cluster and index within the parent directory. |
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110 | */ |
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111 | static hash_table_t up_hash; |
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2889 | jermar | 112 | |
2890 | jermar | 113 | #define UPH_BUCKETS_LOG 12 |
114 | #define UPH_BUCKETS (1 << UPH_BUCKETS_LOG) |
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2889 | jermar | 115 | |
2890 | jermar | 116 | #define UPH_DH_KEY 0 |
117 | #define UPH_PFC_KEY 1 |
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118 | #define UPH_PDI_KEY 2 |
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2889 | jermar | 119 | |
2890 | jermar | 120 | static hash_index_t pos_hash(unsigned long key[]) |
2889 | jermar | 121 | { |
2890 | jermar | 122 | dev_handle_t dev_handle = (dev_handle_t)key[UPH_DH_KEY]; |
123 | fat_cluster_t pfc = (fat_cluster_t)key[UPH_PFC_KEY]; |
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124 | unsigned pdi = (unsigned)key[UPH_PDI_KEY]; |
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2889 | jermar | 125 | |
126 | hash_index_t h; |
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127 | |||
128 | /* |
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129 | * The least significant half of all bits are the least significant bits |
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130 | * of the parent node's first cluster. |
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131 | * |
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132 | * The least significant half of the most significant half of all bits |
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133 | * are the least significant bits of the node's dentry index within the |
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134 | * parent directory node. |
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135 | * |
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136 | * The most significant half of the most significant half of all bits |
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137 | * are the least significant bits of the device handle. |
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138 | */ |
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2890 | jermar | 139 | h = pfc & ((1 << (UPH_BUCKETS_LOG / 2)) - 1); |
140 | h |= (pdi & ((1 << (UPH_BUCKETS_LOG / 4)) - 1)) << |
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141 | (UPH_BUCKETS_LOG / 2); |
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142 | h |= (dev_handle & ((1 << (UPH_BUCKETS_LOG / 4)) - 1)) << |
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143 | (3 * (UPH_BUCKETS_LOG / 4)); |
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2889 | jermar | 144 | |
145 | return h; |
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146 | } |
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147 | |||
2890 | jermar | 148 | static int pos_compare(unsigned long key[], hash_count_t keys, link_t *item) |
2889 | jermar | 149 | { |
2890 | jermar | 150 | dev_handle_t dev_handle = (dev_handle_t)key[UPH_DH_KEY]; |
151 | fat_cluster_t pfc = (fat_cluster_t)key[UPH_PFC_KEY]; |
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152 | unsigned pdi = (unsigned)key[UPH_PDI_KEY]; |
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153 | fat_idx_t *fidx = list_get_instance(item, fat_idx_t, uph_link); |
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2889 | jermar | 154 | |
155 | return (dev_handle == fidx->dev_handle) && (pfc == fidx->pfc) && |
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156 | (pdi == fidx->pdi); |
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157 | } |
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158 | |||
2890 | jermar | 159 | static void pos_remove_callback(link_t *item) |
160 | { |
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161 | /* nothing to do */ |
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162 | } |
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163 | |||
164 | static hash_table_operations_t uph_ops = { |
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165 | .hash = pos_hash, |
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166 | .compare = pos_compare, |
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167 | .remove_callback = pos_remove_callback, |
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168 | }; |
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169 | |||
170 | /** |
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171 | * Global hash table of all used fat_idx_t structures. |
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172 | * The index structures are hashed by the dev_handle and index. |
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173 | */ |
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174 | static hash_table_t ui_hash; |
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175 | |||
176 | #define UIH_BUCKETS_LOG 12 |
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177 | #define UIH_BUCKETS (1 << UIH_BUCKETS_LOG) |
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178 | |||
179 | #define UIH_DH_KEY 0 |
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180 | #define UIH_INDEX_KEY 1 |
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181 | |||
182 | static hash_index_t idx_hash(unsigned long key[]) |
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183 | { |
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184 | dev_handle_t dev_handle = (dev_handle_t)key[UIH_DH_KEY]; |
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185 | fs_index_t index = (fs_index_t)key[UIH_INDEX_KEY]; |
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186 | |||
187 | hash_index_t h; |
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188 | |||
189 | h = dev_handle & ((1 << (UIH_BUCKETS_LOG / 2)) - 1); |
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190 | h |= (index & ((1 << (UIH_BUCKETS_LOG / 2)) - 1)) << |
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191 | (UIH_BUCKETS_LOG / 2); |
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192 | |||
193 | return h; |
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194 | } |
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195 | |||
196 | static int idx_compare(unsigned long key[], hash_count_t keys, link_t *item) |
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197 | { |
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198 | dev_handle_t dev_handle = (dev_handle_t)key[UIH_DH_KEY]; |
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199 | fs_index_t index = (fs_index_t)key[UIH_INDEX_KEY]; |
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200 | fat_idx_t *fidx = list_get_instance(item, fat_idx_t, uih_link); |
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201 | |||
202 | return (dev_handle == fidx->dev_handle) && (index == fidx->index); |
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203 | } |
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204 | |||
2889 | jermar | 205 | static void idx_remove_callback(link_t *item) |
206 | { |
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207 | /* nothing to do */ |
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208 | } |
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209 | |||
2890 | jermar | 210 | static hash_table_operations_t uih_ops = { |
2889 | jermar | 211 | .hash = idx_hash, |
212 | .compare = idx_compare, |
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213 | .remove_callback = idx_remove_callback, |
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214 | }; |
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215 | |||
2881 | jermar | 216 | /** Allocate a VFS index which is not currently in use. */ |
217 | static bool fat_idx_alloc(dev_handle_t dev_handle, fs_index_t *index) |
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2876 | jermar | 218 | { |
2881 | jermar | 219 | unused_t *u; |
220 | |||
221 | assert(index); |
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3111 | jermar | 222 | u = unused_find(dev_handle, true); |
223 | if (!u) |
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224 | return false; |
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2881 | jermar | 225 | |
226 | if (list_empty(&u->freed_head)) { |
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227 | if (u->remaining) { |
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228 | /* |
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229 | * There are no freed indices, allocate one directly |
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230 | * from the counter. |
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231 | */ |
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232 | *index = u->next++; |
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233 | --u->remaining; |
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2944 | jermar | 234 | futex_up(&unused_futex); |
2881 | jermar | 235 | return true; |
236 | } |
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237 | } else { |
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238 | /* There are some freed indices which we can reuse. */ |
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239 | freed_t *f = list_get_instance(u->freed_head.next, freed_t, |
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240 | link); |
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241 | *index = f->first; |
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242 | if (f->first++ == f->last) { |
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243 | /* Destroy the interval. */ |
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244 | list_remove(&f->link); |
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245 | free(f); |
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246 | } |
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2944 | jermar | 247 | futex_up(&unused_futex); |
2881 | jermar | 248 | return true; |
249 | } |
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250 | /* |
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251 | * We ran out of indices, which is extremely unlikely with FAT16, but |
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252 | * theoretically still possible (e.g. too many open unlinked nodes or |
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253 | * too many zero-sized nodes). |
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254 | */ |
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2944 | jermar | 255 | futex_up(&unused_futex); |
2881 | jermar | 256 | return false; |
257 | } |
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258 | |||
2884 | jermar | 259 | /** If possible, coalesce two intervals of freed indices. */ |
260 | static void try_coalesce_intervals(link_t *l, link_t *r, link_t *cur) |
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2881 | jermar | 261 | { |
262 | freed_t *fl = list_get_instance(l, freed_t, link); |
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263 | freed_t *fr = list_get_instance(r, freed_t, link); |
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264 | |||
265 | if (fl->last + 1 == fr->first) { |
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266 | if (cur == l) { |
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267 | fl->last = fr->last; |
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268 | list_remove(r); |
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269 | free(r); |
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270 | } else { |
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271 | fr->first = fl->first; |
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272 | list_remove(l); |
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273 | free(l); |
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274 | } |
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275 | } |
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276 | } |
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277 | |||
278 | /** Free a VFS index, which is no longer in use. */ |
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279 | static void fat_idx_free(dev_handle_t dev_handle, fs_index_t index) |
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280 | { |
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281 | unused_t *u; |
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282 | |||
3111 | jermar | 283 | u = unused_find(dev_handle, true); |
284 | assert(u); |
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2881 | jermar | 285 | |
286 | if (u->next == index + 1) { |
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287 | /* The index can be returned directly to the counter. */ |
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288 | u->next--; |
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289 | u->remaining++; |
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290 | } else { |
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291 | /* |
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292 | * The index must be returned either to an existing freed |
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293 | * interval or a new interval must be created. |
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294 | */ |
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295 | link_t *lnk; |
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296 | freed_t *n; |
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297 | for (lnk = u->freed_head.next; lnk != &u->freed_head; |
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298 | lnk = lnk->next) { |
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299 | freed_t *f = list_get_instance(lnk, freed_t, link); |
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300 | if (f->first == index + 1) { |
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301 | f->first--; |
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302 | if (lnk->prev != &u->freed_head) |
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2884 | jermar | 303 | try_coalesce_intervals(lnk->prev, lnk, |
2881 | jermar | 304 | lnk); |
2944 | jermar | 305 | futex_up(&unused_futex); |
2881 | jermar | 306 | return; |
307 | } |
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308 | if (f->last == index - 1) { |
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309 | f->last++; |
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310 | if (lnk->next != &u->freed_head) |
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2884 | jermar | 311 | try_coalesce_intervals(lnk, lnk->next, |
2881 | jermar | 312 | lnk); |
2944 | jermar | 313 | futex_up(&unused_futex); |
2881 | jermar | 314 | return; |
315 | } |
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316 | if (index > f->first) { |
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317 | n = malloc(sizeof(freed_t)); |
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318 | /* TODO: sleep until allocation succeeds */ |
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319 | assert(n); |
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320 | link_initialize(&n->link); |
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321 | n->first = index; |
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322 | n->last = index; |
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323 | list_insert_before(&n->link, lnk); |
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2944 | jermar | 324 | futex_up(&unused_futex); |
2881 | jermar | 325 | return; |
326 | } |
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327 | |||
328 | } |
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329 | /* The index will form the last interval. */ |
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330 | n = malloc(sizeof(freed_t)); |
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331 | /* TODO: sleep until allocation succeeds */ |
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332 | assert(n); |
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333 | link_initialize(&n->link); |
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334 | n->first = index; |
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335 | n->last = index; |
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336 | list_append(&n->link, &u->freed_head); |
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337 | } |
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2944 | jermar | 338 | futex_up(&unused_futex); |
2881 | jermar | 339 | } |
340 | |||
2890 | jermar | 341 | fat_idx_t * |
342 | fat_idx_get_by_pos(dev_handle_t dev_handle, fat_cluster_t pfc, unsigned pdi) |
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2881 | jermar | 343 | { |
2889 | jermar | 344 | fat_idx_t *fidx; |
345 | link_t *l; |
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2890 | jermar | 346 | unsigned long pkey[] = { |
347 | [UPH_DH_KEY] = dev_handle, |
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348 | [UPH_PFC_KEY] = pfc, |
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349 | [UPH_PDI_KEY] = pdi, |
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2889 | jermar | 350 | }; |
351 | |||
2945 | jermar | 352 | futex_down(&used_futex); |
2890 | jermar | 353 | l = hash_table_find(&up_hash, pkey); |
2889 | jermar | 354 | if (l) { |
2890 | jermar | 355 | fidx = hash_table_get_instance(l, fat_idx_t, uph_link); |
2889 | jermar | 356 | } else { |
357 | fidx = (fat_idx_t *) malloc(sizeof(fat_idx_t)); |
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358 | if (!fidx) { |
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2951 | jermar | 359 | futex_up(&used_futex); |
2889 | jermar | 360 | return NULL; |
361 | } |
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362 | if (!fat_idx_alloc(dev_handle, &fidx->index)) { |
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363 | free(fidx); |
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2951 | jermar | 364 | futex_up(&used_futex); |
2889 | jermar | 365 | return NULL; |
366 | } |
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2890 | jermar | 367 | |
368 | unsigned long ikey[] = { |
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369 | [UIH_DH_KEY] = dev_handle, |
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370 | [UIH_INDEX_KEY] = fidx->index, |
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371 | }; |
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372 | |||
373 | link_initialize(&fidx->uph_link); |
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374 | link_initialize(&fidx->uih_link); |
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2951 | jermar | 375 | futex_initialize(&fidx->lock, 1); |
2889 | jermar | 376 | fidx->dev_handle = dev_handle; |
377 | fidx->pfc = pfc; |
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378 | fidx->pdi = pdi; |
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379 | fidx->nodep = NULL; |
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2890 | jermar | 380 | |
381 | hash_table_insert(&up_hash, pkey, &fidx->uph_link); |
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382 | hash_table_insert(&ui_hash, ikey, &fidx->uih_link); |
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2889 | jermar | 383 | } |
2951 | jermar | 384 | futex_down(&fidx->lock); |
385 | futex_up(&used_futex); |
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2889 | jermar | 386 | |
387 | return fidx; |
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2876 | jermar | 388 | } |
2889 | jermar | 389 | |
2890 | jermar | 390 | fat_idx_t * |
391 | fat_idx_get_by_index(dev_handle_t dev_handle, fs_index_t index) |
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392 | { |
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393 | fat_idx_t *fidx = NULL; |
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394 | link_t *l; |
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395 | unsigned long ikey[] = { |
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396 | [UIH_DH_KEY] = dev_handle, |
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397 | [UIH_INDEX_KEY] = index, |
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398 | }; |
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399 | |||
2945 | jermar | 400 | futex_down(&used_futex); |
2890 | jermar | 401 | l = hash_table_find(&ui_hash, ikey); |
402 | if (l) { |
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403 | fidx = hash_table_get_instance(l, fat_idx_t, uih_link); |
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2951 | jermar | 404 | futex_down(&fidx->lock); |
2890 | jermar | 405 | } |
2951 | jermar | 406 | futex_up(&used_futex); |
2890 | jermar | 407 | |
408 | return fidx; |
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409 | } |
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410 | |||
3110 | jermar | 411 | int fat_idx_init(void) |
412 | { |
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413 | if (!hash_table_create(&up_hash, UPH_BUCKETS, 3, &uph_ops)) |
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414 | return ENOMEM; |
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415 | if (!hash_table_create(&ui_hash, UIH_BUCKETS, 2, &uih_ops)) { |
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416 | hash_table_destroy(&up_hash); |
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417 | return ENOMEM; |
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418 | } |
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419 | return EOK; |
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420 | } |
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421 | |||
422 | void fat_idx_fini(void) |
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423 | { |
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424 | /* We assume the hash tables are empty. */ |
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425 | hash_table_destroy(&up_hash); |
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426 | hash_table_destroy(&ui_hash); |
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427 | } |
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428 | |||
429 | int fat_idx_init_by_dev_handle(dev_handle_t dev_handle) |
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430 | { |
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3111 | jermar | 431 | unused_t *u; |
432 | int rc = EOK; |
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433 | |||
434 | u = (unused_t *) malloc(sizeof(unused_t)); |
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3110 | jermar | 435 | if (!u) |
436 | return ENOMEM; |
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437 | unused_initialize(u, dev_handle); |
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438 | futex_down(&unused_futex); |
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3111 | jermar | 439 | if (!unused_find(dev_handle, false)) |
440 | list_append(&u->link, &unused_head); |
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441 | else |
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442 | rc = EEXIST; |
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3110 | jermar | 443 | futex_up(&unused_futex); |
3111 | jermar | 444 | return rc; |
3110 | jermar | 445 | } |
446 | |||
447 | void fat_idx_fini_by_dev_handle(dev_handle_t dev_handle) |
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448 | { |
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449 | unused_t *u; |
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450 | |||
3111 | jermar | 451 | u = unused_find(dev_handle, true); |
452 | assert(u); |
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3110 | jermar | 453 | list_remove(&u->link); |
454 | futex_up(&unused_futex); |
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455 | |||
456 | while (!list_empty(&u->freed_head)) { |
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457 | freed_t *f; |
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458 | f = list_get_instance(u->freed_head.next, freed_t, link); |
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459 | list_remove(&f->link); |
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460 | free(f); |
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461 | } |
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462 | free(u); |
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463 | } |
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464 | |||
465 | /** |
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466 | * @} |
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467 | */ |