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759 | palkovsky | 1 | /* |
2 | * Copyright (C) 2006 Ondrej Palkovsky |
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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 | |||
769 | palkovsky | 29 | /* |
785 | jermar | 30 | * The SLAB allocator is closely modelled after OpenSolaris SLAB allocator |
769 | palkovsky | 31 | * http://www.usenix.org/events/usenix01/full_papers/bonwick/bonwick_html/ |
32 | * |
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33 | * with the following exceptions: |
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34 | * - empty SLABS are deallocated immediately |
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35 | * (in Linux they are kept in linked list, in Solaris ???) |
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36 | * - empty magazines are deallocated when not needed |
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37 | * (in Solaris they are held in linked list in slab cache) |
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38 | * |
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39 | * Following features are not currently supported but would be easy to do: |
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40 | * - cache coloring |
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41 | * - dynamic magazine growing (different magazine sizes are already |
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42 | * supported, but we would need to adjust allocating strategy) |
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43 | * |
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44 | * The SLAB allocator supports per-CPU caches ('magazines') to facilitate |
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45 | * good SMP scaling. |
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46 | * |
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47 | * When a new object is being allocated, it is first checked, if it is |
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48 | * available in CPU-bound magazine. If it is not found there, it is |
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49 | * allocated from CPU-shared SLAB - if partial full is found, it is used, |
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50 | * otherwise a new one is allocated. |
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51 | * |
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52 | * When an object is being deallocated, it is put to CPU-bound magazine. |
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53 | * If there is no such magazine, new one is allocated (if it fails, |
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54 | * the object is deallocated into SLAB). If the magazine is full, it is |
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55 | * put into cpu-shared list of magazines and new one is allocated. |
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56 | * |
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57 | * The CPU-bound magazine is actually a pair of magazine to avoid |
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58 | * thrashing when somebody is allocating/deallocating 1 item at the magazine |
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59 | * size boundary. LIFO order is enforced, which should avoid fragmentation |
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60 | * as much as possible. |
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61 | * |
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62 | * Every cache contains list of full slabs and list of partialy full slabs. |
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63 | * Empty SLABS are immediately freed (thrashing will be avoided because |
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64 | * of magazines). |
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65 | * |
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66 | * The SLAB information structure is kept inside the data area, if possible. |
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67 | * The cache can be marked that it should not use magazines. This is used |
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68 | * only for SLAB related caches to avoid deadlocks and infinite recursion |
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69 | * (the SLAB allocator uses itself for allocating all it's control structures). |
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70 | * |
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71 | * The SLAB allocator allocates lot of space and does not free it. When |
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72 | * frame allocator fails to allocate the frame, it calls slab_reclaim(). |
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73 | * It tries 'light reclaim' first, then brutal reclaim. The light reclaim |
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74 | * releases slabs from cpu-shared magazine-list, until at least 1 slab |
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75 | * is deallocated in each cache (this algorithm should probably change). |
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76 | * The brutal reclaim removes all cached objects, even from CPU-bound |
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77 | * magazines. |
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78 | * |
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775 | palkovsky | 79 | * TODO: For better CPU-scaling the magazine allocation strategy should |
80 | * be extended. Currently, if the cache does not have magazine, it asks |
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81 | * for non-cpu cached magazine cache to provide one. It might be feasible |
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82 | * to add cpu-cached magazine cache (which would allocate it's magazines |
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83 | * from non-cpu-cached mag. cache). This would provide a nice per-cpu |
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84 | * buffer. The other possibility is to use the per-cache |
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85 | * 'empty-magazine-list', which decreases competing for 1 per-system |
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86 | * magazine cache. |
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87 | * |
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776 | palkovsky | 88 | * - it might be good to add granularity of locks even to slab level, |
89 | * we could then try_spinlock over all partial slabs and thus improve |
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90 | * scalability even on slab level |
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769 | palkovsky | 91 | */ |
92 | |||
93 | |||
759 | palkovsky | 94 | #include <synch/spinlock.h> |
95 | #include <mm/slab.h> |
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788 | jermar | 96 | #include <adt/list.h> |
759 | palkovsky | 97 | #include <memstr.h> |
98 | #include <align.h> |
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99 | #include <mm/heap.h> |
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762 | palkovsky | 100 | #include <mm/frame.h> |
759 | palkovsky | 101 | #include <config.h> |
102 | #include <print.h> |
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103 | #include <arch.h> |
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104 | #include <panic.h> |
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762 | palkovsky | 105 | #include <debug.h> |
771 | palkovsky | 106 | #include <bitops.h> |
759 | palkovsky | 107 | |
108 | SPINLOCK_INITIALIZE(slab_cache_lock); |
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769 | palkovsky | 109 | static LIST_INITIALIZE(slab_cache_list); |
759 | palkovsky | 110 | |
769 | palkovsky | 111 | /** Magazine cache */ |
112 | static slab_cache_t mag_cache; |
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113 | /** Cache for cache descriptors */ |
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114 | static slab_cache_t slab_cache_cache; |
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759 | palkovsky | 115 | |
769 | palkovsky | 116 | /** Cache for external slab descriptors |
117 | * This time we want per-cpu cache, so do not make it static |
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118 | * - using SLAB for internal SLAB structures will not deadlock, |
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119 | * as all slab structures are 'small' - control structures of |
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120 | * their caches do not require further allocation |
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121 | */ |
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122 | static slab_cache_t *slab_extern_cache; |
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771 | palkovsky | 123 | /** Caches for malloc */ |
124 | static slab_cache_t *malloc_caches[SLAB_MAX_MALLOC_W-SLAB_MIN_MALLOC_W+1]; |
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125 | char *malloc_names[] = { |
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126 | "malloc-8","malloc-16","malloc-32","malloc-64","malloc-128", |
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127 | "malloc-256","malloc-512","malloc-1K","malloc-2K", |
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128 | "malloc-4K","malloc-8K","malloc-16K","malloc-32K", |
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129 | "malloc-64K","malloc-128K" |
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130 | }; |
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762 | palkovsky | 131 | |
769 | palkovsky | 132 | /** Slab descriptor */ |
762 | palkovsky | 133 | typedef struct { |
134 | slab_cache_t *cache; /**< Pointer to parent cache */ |
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135 | link_t link; /* List of full/partial slabs */ |
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136 | void *start; /**< Start address of first available item */ |
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137 | count_t available; /**< Count of available items in this slab */ |
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138 | index_t nextavail; /**< The index of next available item */ |
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139 | }slab_t; |
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140 | |||
759 | palkovsky | 141 | /**************************************/ |
762 | palkovsky | 142 | /* SLAB allocation functions */ |
759 | palkovsky | 143 | |
762 | palkovsky | 144 | /** |
145 | * Allocate frames for slab space and initialize |
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146 | * |
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147 | */ |
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148 | static slab_t * slab_space_alloc(slab_cache_t *cache, int flags) |
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149 | { |
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150 | void *data; |
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151 | slab_t *slab; |
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152 | size_t fsize; |
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153 | int i; |
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154 | zone_t *zone = NULL; |
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155 | int status; |
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764 | palkovsky | 156 | frame_t *frame; |
759 | palkovsky | 157 | |
786 | bondari | 158 | data = (void *)frame_alloc_rc_zone(cache->order, FRAME_KA | flags, &status, &zone); |
764 | palkovsky | 159 | if (status != FRAME_OK) { |
762 | palkovsky | 160 | return NULL; |
764 | palkovsky | 161 | } |
768 | palkovsky | 162 | if (! (cache->flags & SLAB_CACHE_SLINSIDE)) { |
769 | palkovsky | 163 | slab = slab_alloc(slab_extern_cache, flags); |
762 | palkovsky | 164 | if (!slab) { |
165 | frame_free((__address)data); |
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166 | return NULL; |
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167 | } |
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168 | } else { |
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169 | fsize = (PAGE_SIZE << cache->order); |
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170 | slab = data + fsize - sizeof(*slab); |
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171 | } |
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764 | palkovsky | 172 | |
762 | palkovsky | 173 | /* Fill in slab structures */ |
763 | jermar | 174 | /* TODO: some better way of accessing the frame */ |
766 | palkovsky | 175 | for (i=0; i < (1 << cache->order); i++) { |
764 | palkovsky | 176 | frame = ADDR2FRAME(zone, KA2PA((__address)(data+i*PAGE_SIZE))); |
177 | frame->parent = slab; |
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762 | palkovsky | 178 | } |
179 | |||
180 | slab->start = data; |
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181 | slab->available = cache->objects; |
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182 | slab->nextavail = 0; |
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767 | palkovsky | 183 | slab->cache = cache; |
762 | palkovsky | 184 | |
185 | for (i=0; i<cache->objects;i++) |
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186 | *((int *) (slab->start + i*cache->size)) = i+1; |
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764 | palkovsky | 187 | |
188 | atomic_inc(&cache->allocated_slabs); |
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762 | palkovsky | 189 | return slab; |
190 | } |
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191 | |||
759 | palkovsky | 192 | /** |
766 | palkovsky | 193 | * Deallocate space associated with SLAB |
762 | palkovsky | 194 | * |
195 | * @return number of freed frames |
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196 | */ |
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197 | static count_t slab_space_free(slab_cache_t *cache, slab_t *slab) |
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198 | { |
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199 | frame_free((__address)slab->start); |
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768 | palkovsky | 200 | if (! (cache->flags & SLAB_CACHE_SLINSIDE)) |
769 | palkovsky | 201 | slab_free(slab_extern_cache, slab); |
764 | palkovsky | 202 | |
203 | atomic_dec(&cache->allocated_slabs); |
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204 | |||
762 | palkovsky | 205 | return 1 << cache->order; |
206 | } |
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207 | |||
208 | /** Map object to slab structure */ |
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209 | static slab_t * obj2slab(void *obj) |
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210 | { |
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211 | frame_t *frame; |
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212 | |||
213 | frame = frame_addr2frame((__address)obj); |
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214 | return (slab_t *)frame->parent; |
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215 | } |
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216 | |||
217 | /**************************************/ |
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218 | /* SLAB functions */ |
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219 | |||
220 | |||
221 | /** |
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759 | palkovsky | 222 | * Return object to slab and call a destructor |
223 | * |
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762 | palkovsky | 224 | * @param slab If the caller knows directly slab of the object, otherwise NULL |
225 | * |
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759 | palkovsky | 226 | * @return Number of freed pages |
227 | */ |
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762 | palkovsky | 228 | static count_t slab_obj_destroy(slab_cache_t *cache, void *obj, |
229 | slab_t *slab) |
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759 | palkovsky | 230 | { |
787 | palkovsky | 231 | int freed = 0; |
232 | |||
762 | palkovsky | 233 | if (!slab) |
234 | slab = obj2slab(obj); |
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235 | |||
767 | palkovsky | 236 | ASSERT(slab->cache == cache); |
780 | palkovsky | 237 | ASSERT(slab->available < cache->objects); |
767 | palkovsky | 238 | |
787 | palkovsky | 239 | if (cache->destructor) |
240 | freed = cache->destructor(obj); |
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241 | |||
776 | palkovsky | 242 | spinlock_lock(&cache->slablock); |
243 | |||
762 | palkovsky | 244 | *((int *)obj) = slab->nextavail; |
245 | slab->nextavail = (obj - slab->start)/cache->size; |
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246 | slab->available++; |
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247 | |||
248 | /* Move it to correct list */ |
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249 | if (slab->available == cache->objects) { |
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250 | /* Free associated memory */ |
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251 | list_remove(&slab->link); |
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782 | palkovsky | 252 | spinlock_unlock(&cache->slablock); |
253 | |||
787 | palkovsky | 254 | return freed + slab_space_free(cache, slab); |
782 | palkovsky | 255 | |
780 | palkovsky | 256 | } else if (slab->available == 1) { |
257 | /* It was in full, move to partial */ |
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258 | list_remove(&slab->link); |
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259 | list_prepend(&slab->link, &cache->partial_slabs); |
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762 | palkovsky | 260 | } |
783 | palkovsky | 261 | spinlock_unlock(&cache->slablock); |
787 | palkovsky | 262 | return freed; |
759 | palkovsky | 263 | } |
264 | |||
265 | /** |
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266 | * Take new object from slab or create new if needed |
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267 | * |
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268 | * @return Object address or null |
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269 | */ |
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270 | static void * slab_obj_create(slab_cache_t *cache, int flags) |
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271 | { |
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762 | palkovsky | 272 | slab_t *slab; |
273 | void *obj; |
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274 | |||
776 | palkovsky | 275 | spinlock_lock(&cache->slablock); |
276 | |||
762 | palkovsky | 277 | if (list_empty(&cache->partial_slabs)) { |
278 | /* Allow recursion and reclaiming |
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279 | * - this should work, as the SLAB control structures |
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280 | * are small and do not need to allocte with anything |
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281 | * other ten frame_alloc when they are allocating, |
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282 | * that's why we should get recursion at most 1-level deep |
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283 | */ |
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776 | palkovsky | 284 | spinlock_unlock(&cache->slablock); |
762 | palkovsky | 285 | slab = slab_space_alloc(cache, flags); |
780 | palkovsky | 286 | if (!slab) |
287 | return NULL; |
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776 | palkovsky | 288 | spinlock_lock(&cache->slablock); |
762 | palkovsky | 289 | } else { |
290 | slab = list_get_instance(cache->partial_slabs.next, |
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291 | slab_t, |
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292 | link); |
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293 | list_remove(&slab->link); |
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294 | } |
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295 | obj = slab->start + slab->nextavail * cache->size; |
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296 | slab->nextavail = *((int *)obj); |
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297 | slab->available--; |
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787 | palkovsky | 298 | |
762 | palkovsky | 299 | if (! slab->available) |
764 | palkovsky | 300 | list_prepend(&slab->link, &cache->full_slabs); |
762 | palkovsky | 301 | else |
764 | palkovsky | 302 | list_prepend(&slab->link, &cache->partial_slabs); |
776 | palkovsky | 303 | |
304 | spinlock_unlock(&cache->slablock); |
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787 | palkovsky | 305 | |
306 | if (cache->constructor && cache->constructor(obj, flags)) { |
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307 | /* Bad, bad, construction failed */ |
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308 | slab_obj_destroy(cache, obj, slab); |
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309 | return NULL; |
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310 | } |
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762 | palkovsky | 311 | return obj; |
759 | palkovsky | 312 | } |
313 | |||
314 | /**************************************/ |
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315 | /* CPU-Cache slab functions */ |
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316 | |||
317 | /** |
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781 | palkovsky | 318 | * Finds a full magazine in cache, takes it from list |
319 | * and returns it |
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320 | * |
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321 | * @param first If true, return first, else last mag |
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322 | */ |
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323 | static slab_magazine_t * get_mag_from_cache(slab_cache_t *cache, |
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324 | int first) |
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325 | { |
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326 | slab_magazine_t *mag = NULL; |
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327 | link_t *cur; |
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328 | |||
329 | spinlock_lock(&cache->maglock); |
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330 | if (!list_empty(&cache->magazines)) { |
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331 | if (first) |
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332 | cur = cache->magazines.next; |
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333 | else |
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334 | cur = cache->magazines.prev; |
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335 | mag = list_get_instance(cur, slab_magazine_t, link); |
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336 | list_remove(&mag->link); |
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337 | atomic_dec(&cache->magazine_counter); |
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338 | } |
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339 | spinlock_unlock(&cache->maglock); |
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340 | return mag; |
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341 | } |
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342 | |||
343 | /** Prepend magazine to magazine list in cache */ |
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344 | static void put_mag_to_cache(slab_cache_t *cache, slab_magazine_t *mag) |
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345 | { |
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346 | spinlock_lock(&cache->maglock); |
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347 | |||
348 | list_prepend(&mag->link, &cache->magazines); |
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349 | atomic_inc(&cache->magazine_counter); |
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350 | |||
351 | spinlock_unlock(&cache->maglock); |
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352 | } |
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353 | |||
354 | /** |
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759 | palkovsky | 355 | * Free all objects in magazine and free memory associated with magazine |
356 | * |
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357 | * @return Number of freed pages |
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358 | */ |
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359 | static count_t magazine_destroy(slab_cache_t *cache, |
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360 | slab_magazine_t *mag) |
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361 | { |
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362 | int i; |
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363 | count_t frames = 0; |
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364 | |||
767 | palkovsky | 365 | for (i=0;i < mag->busy; i++) { |
762 | palkovsky | 366 | frames += slab_obj_destroy(cache, mag->objs[i], NULL); |
767 | palkovsky | 367 | atomic_dec(&cache->cached_objs); |
368 | } |
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759 | palkovsky | 369 | |
370 | slab_free(&mag_cache, mag); |
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371 | |||
372 | return frames; |
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373 | } |
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374 | |||
375 | /** |
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769 | palkovsky | 376 | * Find full magazine, set it as current and return it |
377 | * |
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378 | * Assume cpu_magazine lock is held |
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379 | */ |
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380 | static slab_magazine_t * get_full_current_mag(slab_cache_t *cache) |
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381 | { |
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382 | slab_magazine_t *cmag, *lastmag, *newmag; |
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383 | |||
384 | cmag = cache->mag_cache[CPU->id].current; |
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385 | lastmag = cache->mag_cache[CPU->id].last; |
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386 | if (cmag) { /* First try local CPU magazines */ |
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387 | if (cmag->busy) |
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388 | return cmag; |
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389 | |||
390 | if (lastmag && lastmag->busy) { |
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391 | cache->mag_cache[CPU->id].current = lastmag; |
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392 | cache->mag_cache[CPU->id].last = cmag; |
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393 | return lastmag; |
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394 | } |
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395 | } |
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396 | /* Local magazines are empty, import one from magazine list */ |
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781 | palkovsky | 397 | newmag = get_mag_from_cache(cache, 1); |
398 | if (!newmag) |
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769 | palkovsky | 399 | return NULL; |
400 | |||
401 | if (lastmag) |
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781 | palkovsky | 402 | magazine_destroy(cache, lastmag); |
403 | |||
769 | palkovsky | 404 | cache->mag_cache[CPU->id].last = cmag; |
405 | cache->mag_cache[CPU->id].current = newmag; |
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406 | return newmag; |
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407 | } |
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408 | |||
409 | /** |
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759 | palkovsky | 410 | * Try to find object in CPU-cache magazines |
411 | * |
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412 | * @return Pointer to object or NULL if not available |
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413 | */ |
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414 | static void * magazine_obj_get(slab_cache_t *cache) |
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415 | { |
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416 | slab_magazine_t *mag; |
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767 | palkovsky | 417 | void *obj; |
759 | palkovsky | 418 | |
772 | palkovsky | 419 | if (!CPU) |
420 | return NULL; |
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421 | |||
759 | palkovsky | 422 | spinlock_lock(&cache->mag_cache[CPU->id].lock); |
423 | |||
769 | palkovsky | 424 | mag = get_full_current_mag(cache); |
425 | if (!mag) { |
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426 | spinlock_unlock(&cache->mag_cache[CPU->id].lock); |
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427 | return NULL; |
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759 | palkovsky | 428 | } |
767 | palkovsky | 429 | obj = mag->objs[--mag->busy]; |
759 | palkovsky | 430 | spinlock_unlock(&cache->mag_cache[CPU->id].lock); |
767 | palkovsky | 431 | atomic_dec(&cache->cached_objs); |
432 | |||
433 | return obj; |
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759 | palkovsky | 434 | } |
435 | |||
436 | /** |
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768 | palkovsky | 437 | * Assure that the current magazine is empty, return pointer to it, or NULL if |
769 | palkovsky | 438 | * no empty magazine is available and cannot be allocated |
759 | palkovsky | 439 | * |
773 | palkovsky | 440 | * Assume mag_cache[CPU->id].lock is held |
441 | * |
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759 | palkovsky | 442 | * We have 2 magazines bound to processor. |
443 | * First try the current. |
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444 | * If full, try the last. |
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445 | * If full, put to magazines list. |
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446 | * allocate new, exchange last & current |
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447 | * |
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768 | palkovsky | 448 | */ |
449 | static slab_magazine_t * make_empty_current_mag(slab_cache_t *cache) |
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450 | { |
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451 | slab_magazine_t *cmag,*lastmag,*newmag; |
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452 | |||
453 | cmag = cache->mag_cache[CPU->id].current; |
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454 | lastmag = cache->mag_cache[CPU->id].last; |
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455 | |||
456 | if (cmag) { |
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457 | if (cmag->busy < cmag->size) |
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458 | return cmag; |
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459 | if (lastmag && lastmag->busy < lastmag->size) { |
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460 | cache->mag_cache[CPU->id].last = cmag; |
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461 | cache->mag_cache[CPU->id].current = lastmag; |
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462 | return lastmag; |
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463 | } |
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464 | } |
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465 | /* current | last are full | nonexistent, allocate new */ |
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466 | /* We do not want to sleep just because of caching */ |
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467 | /* Especially we do not want reclaiming to start, as |
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468 | * this would deadlock */ |
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469 | newmag = slab_alloc(&mag_cache, FRAME_ATOMIC | FRAME_NO_RECLAIM); |
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470 | if (!newmag) |
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471 | return NULL; |
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472 | newmag->size = SLAB_MAG_SIZE; |
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473 | newmag->busy = 0; |
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474 | |||
475 | /* Flush last to magazine list */ |
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781 | palkovsky | 476 | if (lastmag) |
477 | put_mag_to_cache(cache, lastmag); |
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478 | |||
768 | palkovsky | 479 | /* Move current as last, save new as current */ |
480 | cache->mag_cache[CPU->id].last = cmag; |
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481 | cache->mag_cache[CPU->id].current = newmag; |
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482 | |||
483 | return newmag; |
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484 | } |
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485 | |||
486 | /** |
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487 | * Put object into CPU-cache magazine |
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488 | * |
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759 | palkovsky | 489 | * @return 0 - success, -1 - could not get memory |
490 | */ |
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491 | static int magazine_obj_put(slab_cache_t *cache, void *obj) |
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492 | { |
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493 | slab_magazine_t *mag; |
||
494 | |||
772 | palkovsky | 495 | if (!CPU) |
496 | return -1; |
||
497 | |||
759 | palkovsky | 498 | spinlock_lock(&cache->mag_cache[CPU->id].lock); |
768 | palkovsky | 499 | |
500 | mag = make_empty_current_mag(cache); |
||
769 | palkovsky | 501 | if (!mag) { |
502 | spinlock_unlock(&cache->mag_cache[CPU->id].lock); |
||
503 | return -1; |
||
504 | } |
||
759 | palkovsky | 505 | |
506 | mag->objs[mag->busy++] = obj; |
||
507 | |||
508 | spinlock_unlock(&cache->mag_cache[CPU->id].lock); |
||
767 | palkovsky | 509 | atomic_inc(&cache->cached_objs); |
759 | palkovsky | 510 | return 0; |
511 | } |
||
512 | |||
513 | |||
514 | /**************************************/ |
||
762 | palkovsky | 515 | /* SLAB CACHE functions */ |
759 | palkovsky | 516 | |
762 | palkovsky | 517 | /** Return number of objects that fit in certain cache size */ |
518 | static int comp_objects(slab_cache_t *cache) |
||
519 | { |
||
520 | if (cache->flags & SLAB_CACHE_SLINSIDE) |
||
521 | return ((PAGE_SIZE << cache->order) - sizeof(slab_t)) / cache->size; |
||
522 | else |
||
523 | return (PAGE_SIZE << cache->order) / cache->size; |
||
524 | } |
||
525 | |||
526 | /** Return wasted space in slab */ |
||
527 | static int badness(slab_cache_t *cache) |
||
528 | { |
||
529 | int objects; |
||
530 | int ssize; |
||
531 | |||
532 | objects = comp_objects(cache); |
||
533 | ssize = PAGE_SIZE << cache->order; |
||
534 | if (cache->flags & SLAB_CACHE_SLINSIDE) |
||
535 | ssize -= sizeof(slab_t); |
||
536 | return ssize - objects*cache->size; |
||
537 | } |
||
538 | |||
759 | palkovsky | 539 | /** Initialize allocated memory as a slab cache */ |
540 | static void |
||
541 | _slab_cache_create(slab_cache_t *cache, |
||
542 | char *name, |
||
543 | size_t size, |
||
544 | size_t align, |
||
545 | int (*constructor)(void *obj, int kmflag), |
||
787 | palkovsky | 546 | int (*destructor)(void *obj), |
759 | palkovsky | 547 | int flags) |
548 | { |
||
549 | int i; |
||
771 | palkovsky | 550 | int pages; |
783 | palkovsky | 551 | ipl_t ipl; |
759 | palkovsky | 552 | |
553 | memsetb((__address)cache, sizeof(*cache), 0); |
||
554 | cache->name = name; |
||
555 | |||
766 | palkovsky | 556 | if (align < sizeof(__native)) |
557 | align = sizeof(__native); |
||
558 | size = ALIGN_UP(size, align); |
||
559 | |||
762 | palkovsky | 560 | cache->size = size; |
759 | palkovsky | 561 | |
562 | cache->constructor = constructor; |
||
563 | cache->destructor = destructor; |
||
564 | cache->flags = flags; |
||
565 | |||
566 | list_initialize(&cache->full_slabs); |
||
567 | list_initialize(&cache->partial_slabs); |
||
568 | list_initialize(&cache->magazines); |
||
776 | palkovsky | 569 | spinlock_initialize(&cache->slablock, "slab_lock"); |
570 | spinlock_initialize(&cache->maglock, "slab_maglock"); |
||
768 | palkovsky | 571 | if (! (cache->flags & SLAB_CACHE_NOMAGAZINE)) { |
773 | palkovsky | 572 | for (i=0; i < config.cpu_count; i++) { |
772 | palkovsky | 573 | memsetb((__address)&cache->mag_cache[i], |
574 | sizeof(cache->mag_cache[i]), 0); |
||
759 | palkovsky | 575 | spinlock_initialize(&cache->mag_cache[i].lock, |
776 | palkovsky | 576 | "slab_maglock_cpu"); |
772 | palkovsky | 577 | } |
759 | palkovsky | 578 | } |
579 | |||
580 | /* Compute slab sizes, object counts in slabs etc. */ |
||
581 | if (cache->size < SLAB_INSIDE_SIZE) |
||
582 | cache->flags |= SLAB_CACHE_SLINSIDE; |
||
583 | |||
762 | palkovsky | 584 | /* Minimum slab order */ |
771 | palkovsky | 585 | pages = ((cache->size-1) >> PAGE_WIDTH) + 1; |
586 | cache->order = fnzb(pages); |
||
766 | palkovsky | 587 | |
762 | palkovsky | 588 | while (badness(cache) > SLAB_MAX_BADNESS(cache)) { |
589 | cache->order += 1; |
||
590 | } |
||
591 | cache->objects = comp_objects(cache); |
||
766 | palkovsky | 592 | /* If info fits in, put it inside */ |
593 | if (badness(cache) > sizeof(slab_t)) |
||
594 | cache->flags |= SLAB_CACHE_SLINSIDE; |
||
762 | palkovsky | 595 | |
783 | palkovsky | 596 | /* Add cache to cache list */ |
597 | ipl = interrupts_disable(); |
||
759 | palkovsky | 598 | spinlock_lock(&slab_cache_lock); |
599 | |||
600 | list_append(&cache->link, &slab_cache_list); |
||
601 | |||
602 | spinlock_unlock(&slab_cache_lock); |
||
783 | palkovsky | 603 | interrupts_restore(ipl); |
759 | palkovsky | 604 | } |
605 | |||
606 | /** Create slab cache */ |
||
607 | slab_cache_t * slab_cache_create(char *name, |
||
608 | size_t size, |
||
609 | size_t align, |
||
610 | int (*constructor)(void *obj, int kmflag), |
||
787 | palkovsky | 611 | int (*destructor)(void *obj), |
759 | palkovsky | 612 | int flags) |
613 | { |
||
614 | slab_cache_t *cache; |
||
615 | |||
769 | palkovsky | 616 | cache = slab_alloc(&slab_cache_cache, 0); |
759 | palkovsky | 617 | _slab_cache_create(cache, name, size, align, constructor, destructor, |
618 | flags); |
||
619 | return cache; |
||
620 | } |
||
621 | |||
622 | /** |
||
623 | * Reclaim space occupied by objects that are already free |
||
624 | * |
||
625 | * @param flags If contains SLAB_RECLAIM_ALL, do aggressive freeing |
||
626 | * @return Number of freed pages |
||
627 | */ |
||
628 | static count_t _slab_reclaim(slab_cache_t *cache, int flags) |
||
629 | { |
||
630 | int i; |
||
631 | slab_magazine_t *mag; |
||
632 | count_t frames = 0; |
||
781 | palkovsky | 633 | int magcount; |
759 | palkovsky | 634 | |
635 | if (cache->flags & SLAB_CACHE_NOMAGAZINE) |
||
636 | return 0; /* Nothing to do */ |
||
781 | palkovsky | 637 | |
638 | /* We count up to original magazine count to avoid |
||
639 | * endless loop |
||
640 | */ |
||
641 | magcount = atomic_get(&cache->magazine_counter); |
||
642 | while (magcount-- && (mag=get_mag_from_cache(cache,0))) { |
||
643 | frames += magazine_destroy(cache,mag); |
||
644 | if (!(flags & SLAB_RECLAIM_ALL) && frames) |
||
645 | break; |
||
769 | palkovsky | 646 | } |
759 | palkovsky | 647 | |
648 | if (flags & SLAB_RECLAIM_ALL) { |
||
781 | palkovsky | 649 | /* Free cpu-bound magazines */ |
759 | palkovsky | 650 | /* Destroy CPU magazines */ |
651 | for (i=0; i<config.cpu_count; i++) { |
||
781 | palkovsky | 652 | spinlock_lock(&cache->mag_cache[i].lock); |
653 | |||
759 | palkovsky | 654 | mag = cache->mag_cache[i].current; |
655 | if (mag) |
||
656 | frames += magazine_destroy(cache, mag); |
||
657 | cache->mag_cache[i].current = NULL; |
||
658 | |||
659 | mag = cache->mag_cache[i].last; |
||
660 | if (mag) |
||
661 | frames += magazine_destroy(cache, mag); |
||
662 | cache->mag_cache[i].last = NULL; |
||
781 | palkovsky | 663 | |
664 | spinlock_unlock(&cache->mag_cache[i].lock); |
||
759 | palkovsky | 665 | } |
666 | } |
||
767 | palkovsky | 667 | |
759 | palkovsky | 668 | return frames; |
669 | } |
||
670 | |||
671 | /** Check that there are no slabs and remove cache from system */ |
||
672 | void slab_cache_destroy(slab_cache_t *cache) |
||
673 | { |
||
781 | palkovsky | 674 | ipl_t ipl; |
675 | |||
676 | /* First remove cache from link, so that we don't need |
||
677 | * to disable interrupts later |
||
678 | */ |
||
679 | |||
680 | ipl = interrupts_disable(); |
||
681 | spinlock_lock(&slab_cache_lock); |
||
682 | |||
683 | list_remove(&cache->link); |
||
684 | |||
685 | spinlock_unlock(&slab_cache_lock); |
||
686 | interrupts_restore(ipl); |
||
687 | |||
759 | palkovsky | 688 | /* Do not lock anything, we assume the software is correct and |
689 | * does not touch the cache when it decides to destroy it */ |
||
690 | |||
691 | /* Destroy all magazines */ |
||
692 | _slab_reclaim(cache, SLAB_RECLAIM_ALL); |
||
693 | |||
694 | /* All slabs must be empty */ |
||
695 | if (!list_empty(&cache->full_slabs) \ |
||
696 | || !list_empty(&cache->partial_slabs)) |
||
697 | panic("Destroying cache that is not empty."); |
||
698 | |||
769 | palkovsky | 699 | slab_free(&slab_cache_cache, cache); |
759 | palkovsky | 700 | } |
701 | |||
702 | /** Allocate new object from cache - if no flags given, always returns |
||
703 | memory */ |
||
704 | void * slab_alloc(slab_cache_t *cache, int flags) |
||
705 | { |
||
706 | ipl_t ipl; |
||
707 | void *result = NULL; |
||
773 | palkovsky | 708 | |
759 | palkovsky | 709 | /* Disable interrupts to avoid deadlocks with interrupt handlers */ |
710 | ipl = interrupts_disable(); |
||
771 | palkovsky | 711 | |
772 | palkovsky | 712 | if (!(cache->flags & SLAB_CACHE_NOMAGAZINE)) |
759 | palkovsky | 713 | result = magazine_obj_get(cache); |
776 | palkovsky | 714 | if (!result) |
759 | palkovsky | 715 | result = slab_obj_create(cache, flags); |
716 | |||
769 | palkovsky | 717 | interrupts_restore(ipl); |
718 | |||
764 | palkovsky | 719 | if (result) |
720 | atomic_inc(&cache->allocated_objs); |
||
721 | |||
759 | palkovsky | 722 | return result; |
723 | } |
||
724 | |||
771 | palkovsky | 725 | /** Return object to cache, use slab if known */ |
726 | static void _slab_free(slab_cache_t *cache, void *obj, slab_t *slab) |
||
759 | palkovsky | 727 | { |
728 | ipl_t ipl; |
||
729 | |||
730 | ipl = interrupts_disable(); |
||
731 | |||
762 | palkovsky | 732 | if ((cache->flags & SLAB_CACHE_NOMAGAZINE) \ |
733 | || magazine_obj_put(cache, obj)) { |
||
776 | palkovsky | 734 | |
771 | palkovsky | 735 | slab_obj_destroy(cache, obj, slab); |
776 | palkovsky | 736 | |
759 | palkovsky | 737 | } |
769 | palkovsky | 738 | interrupts_restore(ipl); |
764 | palkovsky | 739 | atomic_dec(&cache->allocated_objs); |
759 | palkovsky | 740 | } |
741 | |||
771 | palkovsky | 742 | /** Return slab object to cache */ |
743 | void slab_free(slab_cache_t *cache, void *obj) |
||
744 | { |
||
745 | _slab_free(cache,obj,NULL); |
||
746 | } |
||
747 | |||
759 | palkovsky | 748 | /* Go through all caches and reclaim what is possible */ |
749 | count_t slab_reclaim(int flags) |
||
750 | { |
||
751 | slab_cache_t *cache; |
||
752 | link_t *cur; |
||
753 | count_t frames = 0; |
||
754 | |||
755 | spinlock_lock(&slab_cache_lock); |
||
756 | |||
776 | palkovsky | 757 | /* TODO: Add assert, that interrupts are disabled, otherwise |
758 | * memory allocation from interrupts can deadlock. |
||
759 | */ |
||
760 | |||
759 | palkovsky | 761 | for (cur = slab_cache_list.next;cur!=&slab_cache_list; cur=cur->next) { |
762 | cache = list_get_instance(cur, slab_cache_t, link); |
||
763 | frames += _slab_reclaim(cache, flags); |
||
764 | } |
||
765 | |||
766 | spinlock_unlock(&slab_cache_lock); |
||
767 | |||
768 | return frames; |
||
769 | } |
||
770 | |||
771 | |||
772 | /* Print list of slabs */ |
||
773 | void slab_print_list(void) |
||
774 | { |
||
775 | slab_cache_t *cache; |
||
776 | link_t *cur; |
||
783 | palkovsky | 777 | ipl_t ipl; |
778 | |||
779 | ipl = interrupts_disable(); |
||
759 | palkovsky | 780 | spinlock_lock(&slab_cache_lock); |
767 | palkovsky | 781 | printf("SLAB name\tOsize\tPages\tObj/pg\tSlabs\tCached\tAllocobjs\tCtl\n"); |
759 | palkovsky | 782 | for (cur = slab_cache_list.next;cur!=&slab_cache_list; cur=cur->next) { |
783 | cache = list_get_instance(cur, slab_cache_t, link); |
||
767 | palkovsky | 784 | printf("%s\t%d\t%d\t%d\t%d\t%d\t%d\t\t%s\n", cache->name, cache->size, |
766 | palkovsky | 785 | (1 << cache->order), cache->objects, |
767 | palkovsky | 786 | atomic_get(&cache->allocated_slabs), |
787 | atomic_get(&cache->cached_objs), |
||
766 | palkovsky | 788 | atomic_get(&cache->allocated_objs), |
789 | cache->flags & SLAB_CACHE_SLINSIDE ? "In" : "Out"); |
||
759 | palkovsky | 790 | } |
791 | spinlock_unlock(&slab_cache_lock); |
||
783 | palkovsky | 792 | interrupts_restore(ipl); |
759 | palkovsky | 793 | } |
794 | |||
778 | palkovsky | 795 | #ifdef CONFIG_DEBUG |
796 | static int _slab_initialized = 0; |
||
797 | #endif |
||
798 | |||
759 | palkovsky | 799 | void slab_cache_init(void) |
800 | { |
||
771 | palkovsky | 801 | int i, size; |
802 | |||
759 | palkovsky | 803 | /* Initialize magazine cache */ |
804 | _slab_cache_create(&mag_cache, |
||
805 | "slab_magazine", |
||
806 | sizeof(slab_magazine_t)+SLAB_MAG_SIZE*sizeof(void*), |
||
807 | sizeof(__address), |
||
808 | NULL, NULL, |
||
769 | palkovsky | 809 | SLAB_CACHE_NOMAGAZINE | SLAB_CACHE_SLINSIDE); |
810 | /* Initialize slab_cache cache */ |
||
811 | _slab_cache_create(&slab_cache_cache, |
||
812 | "slab_cache", |
||
813 | sizeof(slab_cache_cache) + config.cpu_count*sizeof(slab_cache_cache.mag_cache[0]), |
||
814 | sizeof(__address), |
||
815 | NULL, NULL, |
||
816 | SLAB_CACHE_NOMAGAZINE | SLAB_CACHE_SLINSIDE); |
||
817 | /* Initialize external slab cache */ |
||
818 | slab_extern_cache = slab_cache_create("slab_extern", |
||
819 | sizeof(slab_t), |
||
820 | 0, NULL, NULL, |
||
821 | SLAB_CACHE_SLINSIDE); |
||
759 | palkovsky | 822 | |
823 | /* Initialize structures for malloc */ |
||
771 | palkovsky | 824 | for (i=0, size=(1<<SLAB_MIN_MALLOC_W); |
825 | i < (SLAB_MAX_MALLOC_W-SLAB_MIN_MALLOC_W+1); |
||
826 | i++, size <<= 1) { |
||
827 | malloc_caches[i] = slab_cache_create(malloc_names[i], |
||
828 | size, 0, |
||
829 | NULL,NULL,0); |
||
830 | } |
||
778 | palkovsky | 831 | #ifdef CONFIG_DEBUG |
832 | _slab_initialized = 1; |
||
833 | #endif |
||
759 | palkovsky | 834 | } |
771 | palkovsky | 835 | |
836 | /**************************************/ |
||
837 | /* kalloc/kfree functions */ |
||
838 | void * kalloc(unsigned int size, int flags) |
||
839 | { |
||
840 | int idx; |
||
778 | palkovsky | 841 | |
842 | ASSERT(_slab_initialized); |
||
771 | palkovsky | 843 | ASSERT( size && size <= (1 << SLAB_MAX_MALLOC_W)); |
844 | |||
845 | if (size < (1 << SLAB_MIN_MALLOC_W)) |
||
846 | size = (1 << SLAB_MIN_MALLOC_W); |
||
847 | |||
848 | idx = fnzb(size-1) - SLAB_MIN_MALLOC_W + 1; |
||
849 | |||
850 | return slab_alloc(malloc_caches[idx], flags); |
||
851 | } |
||
852 | |||
853 | |||
854 | void kfree(void *obj) |
||
855 | { |
||
781 | palkovsky | 856 | slab_t *slab; |
857 | |||
858 | if (!obj) return; |
||
859 | |||
860 | slab = obj2slab(obj); |
||
771 | palkovsky | 861 | _slab_free(slab->cache, obj, slab); |
862 | } |