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1 /*
2  * Copyright 2012, The Android Open Source Project
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions
6  * are met:
7  *  * Redistributions of source code must retain the above copyright
8  *    notice, this list of conditions and the following disclaimer.
9  *  * Redistributions in binary form must reproduce the above copyright
10  *    notice, this list of conditions and the following disclaimer in the
11  *    documentation and/or other materials provided with the distribution.
12  *
13  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
14  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
15  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
16  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR
17  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
18  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
19  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
20  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
21  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
22  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
23  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
24  */
25 
26 #define LOG_NDEBUG 1
27 
28 #include "utils/LinearAllocator.h"
29 
30 #include <stdlib.h>
31 #include <utils/Log.h>
32 
33 
34 // The ideal size of a page allocation (these need to be multiples of 8)
35 #define INITIAL_PAGE_SIZE ((size_t)512) // 512b
36 #define MAX_PAGE_SIZE ((size_t)131072) // 128kb
37 
38 // The maximum amount of wasted space we can have per page
39 // Allocations exceeding this will have their own dedicated page
40 // If this is too low, we will malloc too much
41 // Too high, and we may waste too much space
42 // Must be smaller than INITIAL_PAGE_SIZE
43 #define MAX_WASTE_RATIO (0.5f)
44 
45 #if ALIGN_DOUBLE
46 #define ALIGN_SZ (sizeof(double))
47 #else
48 #define ALIGN_SZ (sizeof(int))
49 #endif
50 
51 #define ALIGN(x) ((x + ALIGN_SZ - 1 ) & ~(ALIGN_SZ - 1))
52 #define ALIGN_PTR(p) ((void*)(ALIGN((size_t)p)))
53 
54 #if LOG_NDEBUG
55 #define ADD_ALLOCATION()
56 #define RM_ALLOCATION()
57 #else
58 #include <utils/Thread.h>
59 #include <utils/Timers.h>
60 static size_t s_totalAllocations = 0;
61 static nsecs_t s_nextLog = 0;
62 static android::Mutex s_mutex;
63 
_logUsageLocked()64 static void _logUsageLocked() {
65     nsecs_t now = systemTime(SYSTEM_TIME_MONOTONIC);
66     if (now > s_nextLog) {
67         s_nextLog = now + milliseconds_to_nanoseconds(10);
68         ALOGV("Total pages allocated: %zu", s_totalAllocations);
69     }
70 }
71 
_addAllocation(int count)72 static void _addAllocation(int count) {
73     android::AutoMutex lock(s_mutex);
74     s_totalAllocations += count;
75     _logUsageLocked();
76 }
77 
78 #define ADD_ALLOCATION(size) _addAllocation(1);
79 #define RM_ALLOCATION(size) _addAllocation(-1);
80 #endif
81 
82 #define min(x,y) (((x) < (y)) ? (x) : (y))
83 
84 namespace android {
85 namespace uirenderer {
86 
87 class LinearAllocator::Page {
88 public:
next()89     Page* next() { return mNextPage; }
setNext(Page * next)90     void setNext(Page* next) { mNextPage = next; }
91 
Page()92     Page()
93         : mNextPage(0)
94     {}
95 
operator new(size_t,void * buf)96     void* operator new(size_t /*size*/, void* buf) { return buf; }
97 
start()98     void* start() {
99         return (void*) (((size_t)this) + sizeof(Page));
100     }
101 
end(int pageSize)102     void* end(int pageSize) {
103         return (void*) (((size_t)start()) + pageSize);
104     }
105 
106 private:
Page(const Page &)107     Page(const Page& /*other*/) {}
108     Page* mNextPage;
109 };
110 
LinearAllocator()111 LinearAllocator::LinearAllocator()
112     : mPageSize(INITIAL_PAGE_SIZE)
113     , mMaxAllocSize(INITIAL_PAGE_SIZE * MAX_WASTE_RATIO)
114     , mNext(0)
115     , mCurrentPage(0)
116     , mPages(0)
117     , mTotalAllocated(0)
118     , mWastedSpace(0)
119     , mPageCount(0)
120     , mDedicatedPageCount(0) {}
121 
~LinearAllocator(void)122 LinearAllocator::~LinearAllocator(void) {
123     while (mDtorList) {
124         auto node = mDtorList;
125         mDtorList = node->next;
126         node->dtor(node->addr);
127     }
128     Page* p = mPages;
129     while (p) {
130         Page* next = p->next();
131         p->~Page();
132         free(p);
133         RM_ALLOCATION();
134         p = next;
135     }
136 }
137 
start(Page * p)138 void* LinearAllocator::start(Page* p) {
139     return ALIGN_PTR((size_t)p + sizeof(Page));
140 }
141 
end(Page * p)142 void* LinearAllocator::end(Page* p) {
143     return ((char*)p) + mPageSize;
144 }
145 
fitsInCurrentPage(size_t size)146 bool LinearAllocator::fitsInCurrentPage(size_t size) {
147     return mNext && ((char*)mNext + size) <= end(mCurrentPage);
148 }
149 
ensureNext(size_t size)150 void LinearAllocator::ensureNext(size_t size) {
151     if (fitsInCurrentPage(size)) return;
152 
153     if (mCurrentPage && mPageSize < MAX_PAGE_SIZE) {
154         mPageSize = min(MAX_PAGE_SIZE, mPageSize * 2);
155         mMaxAllocSize = mPageSize * MAX_WASTE_RATIO;
156         mPageSize = ALIGN(mPageSize);
157     }
158     mWastedSpace += mPageSize;
159     Page* p = newPage(mPageSize);
160     if (mCurrentPage) {
161         mCurrentPage->setNext(p);
162     }
163     mCurrentPage = p;
164     if (!mPages) {
165         mPages = mCurrentPage;
166     }
167     mNext = start(mCurrentPage);
168 }
169 
allocImpl(size_t size)170 void* LinearAllocator::allocImpl(size_t size) {
171     size = ALIGN(size);
172     if (size > mMaxAllocSize && !fitsInCurrentPage(size)) {
173         ALOGV("Exceeded max size %zu > %zu", size, mMaxAllocSize);
174         // Allocation is too large, create a dedicated page for the allocation
175         Page* page = newPage(size);
176         mDedicatedPageCount++;
177         page->setNext(mPages);
178         mPages = page;
179         if (!mCurrentPage)
180             mCurrentPage = mPages;
181         return start(page);
182     }
183     ensureNext(size);
184     void* ptr = mNext;
185     mNext = ((char*)mNext) + size;
186     mWastedSpace -= size;
187     return ptr;
188 }
189 
addToDestructionList(Destructor dtor,void * addr)190 void LinearAllocator::addToDestructionList(Destructor dtor, void* addr) {
191     static_assert(std::is_standard_layout<DestructorNode>::value,
192                   "DestructorNode must have standard layout");
193     static_assert(std::is_trivially_destructible<DestructorNode>::value,
194                   "DestructorNode must be trivially destructable");
195     auto node = new (allocImpl(sizeof(DestructorNode))) DestructorNode();
196     node->dtor = dtor;
197     node->addr = addr;
198     node->next = mDtorList;
199     mDtorList = node;
200 }
201 
runDestructorFor(void * addr)202 void LinearAllocator::runDestructorFor(void* addr) {
203     auto node = mDtorList;
204     DestructorNode* previous = nullptr;
205     while (node) {
206         if (node->addr == addr) {
207             if (previous) {
208                 previous->next = node->next;
209             } else {
210                 mDtorList = node->next;
211             }
212             node->dtor(node->addr);
213             rewindIfLastAlloc(node, sizeof(DestructorNode));
214             break;
215         }
216         previous = node;
217         node = node->next;
218     }
219 }
220 
rewindIfLastAlloc(void * ptr,size_t allocSize)221 void LinearAllocator::rewindIfLastAlloc(void* ptr, size_t allocSize) {
222     // First run the destructor as running the destructor will
223     // also rewind for the DestructorNode allocation which will
224     // have been allocated after this void* if it has a destructor
225     runDestructorFor(ptr);
226     // Don't bother rewinding across pages
227     allocSize = ALIGN(allocSize);
228     if (ptr >= start(mCurrentPage) && ptr < end(mCurrentPage)
229             && ptr == ((char*)mNext - allocSize)) {
230         mWastedSpace += allocSize;
231         mNext = ptr;
232     }
233 }
234 
newPage(size_t pageSize)235 LinearAllocator::Page* LinearAllocator::newPage(size_t pageSize) {
236     pageSize = ALIGN(pageSize + sizeof(LinearAllocator::Page));
237     ADD_ALLOCATION();
238     mTotalAllocated += pageSize;
239     mPageCount++;
240     void* buf = malloc(pageSize);
241     return new (buf) Page();
242 }
243 
toSize(size_t value,float & result)244 static const char* toSize(size_t value, float& result) {
245     if (value < 2000) {
246         result = value;
247         return "B";
248     }
249     if (value < 2000000) {
250         result = value / 1024.0f;
251         return "KB";
252     }
253     result = value / 1048576.0f;
254     return "MB";
255 }
256 
dumpMemoryStats(const char * prefix)257 void LinearAllocator::dumpMemoryStats(const char* prefix) {
258     float prettySize;
259     const char* prettySuffix;
260     prettySuffix = toSize(mTotalAllocated, prettySize);
261     ALOGD("%sTotal allocated: %.2f%s", prefix, prettySize, prettySuffix);
262     prettySuffix = toSize(mWastedSpace, prettySize);
263     ALOGD("%sWasted space: %.2f%s (%.1f%%)", prefix, prettySize, prettySuffix,
264           (float) mWastedSpace / (float) mTotalAllocated * 100.0f);
265     ALOGD("%sPages %zu (dedicated %zu)", prefix, mPageCount, mDedicatedPageCount);
266 }
267 
268 }; // namespace uirenderer
269 }; // namespace android
270