2019-06-20 02:26:12 +03:00
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/* ----------------------------------------------------------------------------
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Copyright (c) 2018, Microsoft Research, Daan Leijen
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This is free software; you can redistribute it and/or modify it under the
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terms of the MIT license. A copy of the license can be found in the file
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2019-06-23 14:53:34 +03:00
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"LICENSE" at the root of this distribution.
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2019-06-20 02:26:12 +03:00
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-----------------------------------------------------------------------------*/
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#include "mimalloc.h"
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#include "mimalloc-internal.h"
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#include <string.h> // memcpy
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// Empty page used to initialize the small free pages array
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const mi_page_t _mi_page_empty = {
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2019-06-24 10:37:15 +03:00
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0, false, false, {0},
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2019-06-20 02:26:12 +03:00
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0, 0,
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NULL, 0, 0, // free, used, cookie
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NULL, 0, {0},
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0, NULL, NULL, NULL
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#if (MI_INTPTR_SIZE==4)
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, { NULL }
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#endif
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};
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#define MI_PAGE_EMPTY() ((mi_page_t*)&_mi_page_empty)
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#define MI_SMALL_PAGES_EMPTY \
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{ MI_INIT128(MI_PAGE_EMPTY), MI_PAGE_EMPTY(), MI_PAGE_EMPTY() }
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// Empty page queues for every bin
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#define QNULL(sz) { NULL, NULL, (sz)*sizeof(uintptr_t) }
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#define MI_PAGE_QUEUES_EMPTY \
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{ QNULL(1), \
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QNULL(1), QNULL(2), QNULL(3), QNULL(4), QNULL(5), QNULL(6), QNULL(7), QNULL(8), \
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QNULL(10), QNULL(12), QNULL(14), QNULL(16), QNULL(20), QNULL(24), QNULL(28), QNULL(32), \
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QNULL(40), QNULL(48), QNULL(56), QNULL(64), QNULL(80), QNULL(96), QNULL(112), QNULL(128), \
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QNULL(160), QNULL(192), QNULL(224), QNULL(256), QNULL(320), QNULL(384), QNULL(448), QNULL(512), \
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QNULL(640), QNULL(768), QNULL(896), QNULL(1024), QNULL(1280), QNULL(1536), QNULL(1792), QNULL(2048), \
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QNULL(2560), QNULL(3072), QNULL(3584), QNULL(4096), QNULL(5120), QNULL(6144), QNULL(7168), QNULL(8192), \
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QNULL(10240), QNULL(12288), QNULL(14336), QNULL(16384), QNULL(20480), QNULL(24576), QNULL(28672), QNULL(32768), \
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QNULL(40960), QNULL(49152), QNULL(57344), QNULL(65536), QNULL(81920), QNULL(98304), QNULL(114688), \
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QNULL(MI_LARGE_WSIZE_MAX + 1 /*131072, Huge queue */), \
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QNULL(MI_LARGE_WSIZE_MAX + 2) /* Full queue */ }
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#define MI_STAT_COUNT_NULL() {0,0,0,0}
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// Empty statistics
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#if MI_STAT>1
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#define MI_STAT_COUNT_END_NULL() , { MI_STAT_COUNT_NULL(), MI_INIT64(MI_STAT_COUNT_NULL) }
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#else
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#define MI_STAT_COUNT_END_NULL()
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#endif
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#define MI_STATS_NULL \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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2019-07-03 03:17:03 +03:00
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MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
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2019-06-20 02:26:12 +03:00
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{ 0, 0 } \
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MI_STAT_COUNT_END_NULL()
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// --------------------------------------------------------
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// Statically allocate an empty heap as the initial
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// thread local value for the default heap,
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// and statically allocate the backing heap for the main
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// thread so it can function without doing any allocation
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// itself (as accessing a thread local for the first time
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// may lead to allocation itself on some platforms)
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// --------------------------------------------------------
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const mi_heap_t _mi_heap_empty = {
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NULL,
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MI_SMALL_PAGES_EMPTY,
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MI_PAGE_QUEUES_EMPTY,
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NULL,
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0,
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0,
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0,
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0,
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false
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};
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mi_decl_thread mi_heap_t* _mi_heap_default = (mi_heap_t*)&_mi_heap_empty;
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#define tld_main_stats ((mi_stats_t*)((uint8_t*)&tld_main + offsetof(mi_tld_t,stats)))
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static mi_tld_t tld_main = {
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0,
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&_mi_heap_main,
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2019-06-24 09:15:42 +03:00
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{ { NULL, NULL }, 0, 0, 0, 0, {NULL,NULL}, tld_main_stats }, // segments
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2019-06-20 02:26:12 +03:00
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{ 0, NULL, NULL, 0, tld_main_stats }, // os
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{ MI_STATS_NULL } // stats
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};
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mi_heap_t _mi_heap_main = {
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&tld_main,
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MI_SMALL_PAGES_EMPTY,
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MI_PAGE_QUEUES_EMPTY,
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NULL,
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0,
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0,
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2019-07-04 00:52:32 +03:00
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#if MI_INTPTR_SIZE==8 // the cookie of the main heap can be fixed (unlike page cookies that need to be secure!)
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0xCDCDCDCDCDCDCDCDUL,
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#else
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0xCDCDCDCDUL,
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#endif
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2019-06-20 02:26:12 +03:00
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0,
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false // can reclaim
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};
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bool _mi_process_is_initialized = false; // set to `true` in `mi_process_init`.
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mi_stats_t _mi_stats_main = { MI_STATS_NULL };
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/* -----------------------------------------------------------
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Initialization of random numbers
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----------------------------------------------------------- */
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2019-06-25 04:06:46 +03:00
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#if defined(_WIN32)
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2019-06-20 02:26:12 +03:00
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#include <windows.h>
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2019-06-25 04:06:46 +03:00
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#elif defined(__APPLE__)
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#include <mach/mach_time.h>
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2019-06-20 02:26:12 +03:00
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#else
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#include <time.h>
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#endif
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uintptr_t _mi_random_shuffle(uintptr_t x) {
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#if (MI_INTPTR_SIZE==8)
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// by Sebastiano Vigna, see: <http://xoshiro.di.unimi.it/splitmix64.c>
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x ^= x >> 30;
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x *= 0xbf58476d1ce4e5b9UL;
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x ^= x >> 27;
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x *= 0x94d049bb133111ebUL;
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x ^= x >> 31;
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#elif (MI_INTPTR_SIZE==4)
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// by Chris Wellons, see: <https://nullprogram.com/blog/2018/07/31/>
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x ^= x >> 16;
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x *= 0x7feb352dUL;
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x ^= x >> 15;
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x *= 0x846ca68bUL;
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x ^= x >> 16;
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#endif
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return x;
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}
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uintptr_t _mi_random_init(uintptr_t seed /* can be zero */) {
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// Hopefully, ASLR makes our function address random
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uintptr_t x = (uintptr_t)((void*)&_mi_random_init);
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x ^= seed;
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// xor with high res time
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#if defined(_WIN32)
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2019-06-20 02:26:12 +03:00
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LARGE_INTEGER pcount;
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QueryPerformanceCounter(&pcount);
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x ^= (uintptr_t)(pcount.QuadPart);
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2019-06-25 04:06:46 +03:00
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#elif defined(__APPLE__)
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x ^= (uintptr_t)mach_absolute_time();
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2019-06-20 02:26:12 +03:00
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#else
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struct timespec time;
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clock_gettime(CLOCK_MONOTONIC, &time);
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x ^= (uintptr_t)time.tv_sec;
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x ^= (uintptr_t)time.tv_nsec;
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#endif
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// and do a few randomization steps
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uintptr_t max = ((x ^ (x >> 17)) & 0x0F) + 1;
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for (uintptr_t i = 0; i < max; i++) {
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x = _mi_random_shuffle(x);
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}
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return x;
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}
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uintptr_t _mi_ptr_cookie(const void* p) {
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return ((uintptr_t)p ^ _mi_heap_main.cookie);
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}
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/* -----------------------------------------------------------
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Initialization and freeing of the thread local heaps
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----------------------------------------------------------- */
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typedef struct mi_thread_data_s {
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mi_heap_t heap; // must come first due to cast in `_mi_heap_done`
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mi_tld_t tld;
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} mi_thread_data_t;
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// Initialize the thread local default heap, called from `mi_thread_init`
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2019-06-25 13:16:36 +03:00
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static bool _mi_heap_init(void) {
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if (mi_heap_is_initialized(_mi_heap_default)) return true;
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if (_mi_is_main_thread()) {
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// the main heap is statically allocated
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_mi_heap_default = &_mi_heap_main;
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mi_assert_internal(_mi_heap_default->tld->heap_backing == _mi_heap_default);
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}
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else {
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// use `_mi_os_alloc` to allocate directly from the OS
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mi_thread_data_t* td = (mi_thread_data_t*)_mi_os_alloc(sizeof(mi_thread_data_t),&_mi_stats_main); // Todo: more efficient allocation?
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if (td == NULL) {
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_mi_error_message("failed to allocate thread local heap memory\n");
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return false;
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}
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mi_tld_t* tld = &td->tld;
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mi_heap_t* heap = &td->heap;
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memcpy(heap, &_mi_heap_empty, sizeof(*heap));
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2019-06-24 10:37:15 +03:00
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heap->thread_id = _mi_thread_id();
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heap->random = _mi_random_init(heap->thread_id);
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heap->cookie = ((uintptr_t)heap ^ _mi_heap_random(heap)) | 1;
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heap->tld = tld;
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memset(tld, 0, sizeof(*tld));
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tld->heap_backing = heap;
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tld->segments.stats = &tld->stats;
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tld->os.stats = &tld->stats;
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_mi_heap_default = heap;
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}
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return false;
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}
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// Free the thread local default heap (called from `mi_thread_done`)
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2019-06-25 13:16:36 +03:00
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static bool _mi_heap_done(void) {
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mi_heap_t* heap = _mi_heap_default;
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if (!mi_heap_is_initialized(heap)) return true;
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// reset default heap
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_mi_heap_default = (_mi_is_main_thread() ? &_mi_heap_main : (mi_heap_t*)&_mi_heap_empty);
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// todo: delete all non-backing heaps?
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// switch to backing heap and free it
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heap = heap->tld->heap_backing;
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if (!mi_heap_is_initialized(heap)) return false;
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_mi_stats_done(&heap->tld->stats);
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// free if not the main thread (or in debug mode)
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if (heap != &_mi_heap_main) {
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if (heap->page_count > 0) {
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_mi_heap_collect_abandon(heap);
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}
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_mi_os_free(heap, sizeof(mi_thread_data_t), &_mi_stats_main);
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}
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2019-06-25 16:59:20 +03:00
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#if (MI_DEBUG > 0)
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else {
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2019-06-20 02:26:12 +03:00
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_mi_heap_destroy_pages(heap);
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mi_assert_internal(heap->tld->heap_backing == &_mi_heap_main);
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}
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2019-06-25 16:59:20 +03:00
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#endif
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2019-06-20 02:26:12 +03:00
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return false;
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}
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// --------------------------------------------------------
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// Try to run `mi_thread_done()` automatically so any memory
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// owned by the thread but not yet released can be abandoned
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// and re-owned by another thread.
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//
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// 1. windows dynamic library:
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// call from DllMain on DLL_THREAD_DETACH
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// 2. windows static library:
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// use `FlsAlloc` to call a destructor when the thread is done
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// 3. unix, pthreads:
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// use a pthread key to call a destructor when a pthread is done
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//
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// In the last two cases we also need to call `mi_process_init`
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// to set up the thread local keys.
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// --------------------------------------------------------
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#ifndef _WIN32
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#define MI_USE_PTHREADS
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#endif
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#if defined(_WIN32) && defined(MI_SHARED_LIB)
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// nothing to do as it is done in DllMain
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#elif defined(_WIN32) && !defined(MI_SHARED_LIB)
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// use thread local storage keys to detect thread ending
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#include <windows.h>
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2019-06-24 10:37:15 +03:00
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#include <fibersapi.h>
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2019-06-20 02:26:12 +03:00
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static DWORD mi_fls_key;
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static void NTAPI mi_fls_done(PVOID value) {
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if (value!=NULL) mi_thread_done();
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}
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#elif defined(MI_USE_PTHREADS)
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// use pthread locol storage keys to detect thread ending
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#include <pthread.h>
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static pthread_key_t mi_pthread_key;
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static void mi_pthread_done(void* value) {
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if (value!=NULL) mi_thread_done();
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}
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#else
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#pragma message("define a way to call mi_thread_done when a thread is done")
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#endif
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// Set up handlers so `mi_thread_done` is called automatically
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2019-06-25 13:16:36 +03:00
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static void mi_process_setup_auto_thread_done(void) {
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2019-06-20 02:26:12 +03:00
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static bool tls_initialized = false; // fine if it races
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if (tls_initialized) return;
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tls_initialized = true;
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#if defined(_WIN32) && defined(MI_SHARED_LIB)
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// nothing to do as it is done in DllMain
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#elif defined(_WIN32) && !defined(MI_SHARED_LIB)
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mi_fls_key = FlsAlloc(&mi_fls_done);
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#elif defined(MI_USE_PTHREADS)
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pthread_key_create(&mi_pthread_key, &mi_pthread_done);
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#endif
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}
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2019-06-25 13:16:36 +03:00
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bool _mi_is_main_thread(void) {
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2019-06-20 02:26:12 +03:00
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return (_mi_heap_main.thread_id==0 || _mi_heap_main.thread_id == _mi_thread_id());
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}
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// This is called from the `mi_malloc_generic`
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2019-06-25 13:16:36 +03:00
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void mi_thread_init(void) mi_attr_noexcept
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2019-06-20 02:26:12 +03:00
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{
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// ensure our process has started already
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mi_process_init();
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// initialize the thread local default heap
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if (_mi_heap_init()) return; // returns true if already initialized
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// don't further initialize for the main thread
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if (_mi_is_main_thread()) return;
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mi_stat_increase(mi_get_default_heap()->tld->stats.threads, 1);
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// set hooks so our mi_thread_done() will be called
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#if defined(_WIN32) && defined(MI_SHARED_LIB)
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// nothing to do as it is done in DllMain
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#elif defined(_WIN32) && !defined(MI_SHARED_LIB)
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FlsSetValue(mi_fls_key, (void*)(_mi_thread_id()|1)); // set to a dummy value so that `mi_fls_done` is called
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#elif defined(MI_USE_PTHREADS)
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pthread_setspecific(mi_pthread_key, (void*)(_mi_thread_id()|1)); // set to a dummy value so that `mi_pthread_done` is called
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#endif
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2019-07-04 22:04:56 +03:00
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#if (MI_DEBUG>0) // not in release mode as that leads to crashes on Windows dynamic override
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2019-06-20 02:26:12 +03:00
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_mi_verbose_message("thread init: 0x%zx\n", _mi_thread_id());
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2019-07-04 22:04:56 +03:00
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#endif
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2019-06-20 02:26:12 +03:00
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}
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2019-06-25 13:16:36 +03:00
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void mi_thread_done(void) mi_attr_noexcept {
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2019-06-20 02:26:12 +03:00
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// stats
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mi_heap_t* heap = mi_get_default_heap();
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if (!_mi_is_main_thread() && mi_heap_is_initialized(heap)) {
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mi_stat_decrease(heap->tld->stats.threads, 1);
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}
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// abandon the thread local heap
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if (_mi_heap_done()) return; // returns true if already ran
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2019-07-04 22:04:56 +03:00
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#if (MI_DEBUG>0)
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2019-06-20 02:26:12 +03:00
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if (!_mi_is_main_thread()) {
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_mi_verbose_message("thread done: 0x%zx\n", _mi_thread_id());
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}
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2019-07-04 22:04:56 +03:00
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#endif
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2019-06-20 02:26:12 +03:00
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}
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// --------------------------------------------------------
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// Run functions on process init/done, and thread init/done
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// --------------------------------------------------------
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static void mi_process_done(void);
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2019-06-25 13:16:36 +03:00
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void mi_process_init(void) mi_attr_noexcept {
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2019-06-20 02:26:12 +03:00
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// ensure we are called once
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if (_mi_process_is_initialized) return;
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2019-07-02 22:49:28 +03:00
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// access _mi_heap_default before setting _mi_process_is_initialized to ensure
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// that the TLS slot is allocated without getting into recursion on macOS
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// when using dynamic linking with interpose.
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mi_heap_t* h = _mi_heap_default;
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2019-06-20 02:26:12 +03:00
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_mi_process_is_initialized = true;
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_mi_heap_main.thread_id = _mi_thread_id();
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_mi_verbose_message("process init: 0x%zx\n", _mi_heap_main.thread_id);
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2019-07-02 22:49:28 +03:00
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uintptr_t random = _mi_random_init(_mi_heap_main.thread_id) ^ (uintptr_t)h;
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2019-07-02 22:57:12 +03:00
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#ifndef __APPLE__
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2019-06-20 02:26:12 +03:00
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_mi_heap_main.cookie = (uintptr_t)&_mi_heap_main ^ random;
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2019-07-02 22:53:53 +03:00
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#endif
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2019-06-20 02:26:12 +03:00
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_mi_heap_main.random = _mi_random_shuffle(random);
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#if (MI_DEBUG)
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_mi_verbose_message("debug level : %d\n", MI_DEBUG);
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#endif
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atexit(&mi_process_done);
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mi_process_setup_auto_thread_done();
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mi_stats_reset();
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2019-06-29 08:35:57 +03:00
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_mi_os_init();
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2019-06-20 02:26:12 +03:00
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}
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static void mi_process_done(void) {
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// only shutdown if we were initialized
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if (!_mi_process_is_initialized) return;
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// ensure we are called once
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static bool process_done = false;
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if (process_done) return;
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process_done = true;
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#ifndef NDEBUG
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mi_collect(true);
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#endif
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if (mi_option_is_enabled(mi_option_show_stats) ||
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mi_option_is_enabled(mi_option_verbose)) {
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mi_stats_print(NULL);
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}
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_mi_verbose_message("process done: 0x%zx\n", _mi_heap_main.thread_id);
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}
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#if defined(_WIN32) && defined(MI_SHARED_LIB)
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// Windows DLL: easy to hook into process_init and thread_done
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2019-06-24 09:17:44 +03:00
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#include <windows.h>
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2019-06-20 02:26:12 +03:00
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__declspec(dllexport) BOOL WINAPI DllMain(HINSTANCE inst, DWORD reason, LPVOID reserved) {
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2019-06-24 10:37:15 +03:00
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UNUSED(reserved);
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2019-06-24 10:42:45 +03:00
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UNUSED(inst);
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2019-06-20 02:26:12 +03:00
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if (reason==DLL_PROCESS_ATTACH) {
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mi_process_init();
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}
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else if (reason==DLL_THREAD_DETACH) {
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mi_thread_done();
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}
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return TRUE;
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}
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#elif defined(__cplusplus)
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// C++: use static initialization to detect process start
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2019-06-25 13:16:36 +03:00
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static bool _mi_process_init(void) {
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2019-06-20 02:26:12 +03:00
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mi_process_init();
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return (mi_main_thread_id != 0);
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}
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static bool mi_initialized = _mi_process_init();
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#elif defined(__GNUC__) || defined(__clang__)
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// GCC,Clang: use the constructor attribute
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2019-06-25 13:16:36 +03:00
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static void __attribute__((constructor)) _mi_process_init(void) {
|
2019-06-20 02:26:12 +03:00
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|
|
mi_process_init();
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}
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#elif defined(_MSC_VER)
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// MSVC: use data section magic for static libraries
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// See <https://www.codeguru.com/cpp/misc/misc/applicationcontrol/article.php/c6945/Running-Code-Before-and-After-Main.htm>
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static int _mi_process_init(void) {
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|
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mi_process_init();
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return 0;
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|
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}
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typedef int(*_crt_cb)(void);
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|
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#ifdef _M_X64
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__pragma(comment(linker, "/include:" "_mi_msvc_initu"))
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|
#pragma section(".CRT$XIU", long, read)
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#else
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__pragma(comment(linker, "/include:" "__mi_msvc_initu"))
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#endif
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#pragma data_seg(".CRT$XIU")
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_crt_cb _mi_msvc_initu[] = { &_mi_process_init };
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#pragma data_seg()
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#else
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#pragma message("define a way to call mi_process_init/done on your platform")
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#endif
|