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rename must_free_whole -> has_partial_free
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@ -26,7 +26,7 @@ typedef struct mi_os_mem_config_s {
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size_t large_page_size; // 0 if not supported, usually 2MiB (4MiB on Windows)
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size_t large_page_size; // 0 if not supported, usually 2MiB (4MiB on Windows)
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size_t alloc_granularity; // smallest allocation size (usually 4KiB, on Windows 64KiB)
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size_t alloc_granularity; // smallest allocation size (usually 4KiB, on Windows 64KiB)
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bool has_overcommit; // can we reserve more memory than can be actually committed?
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bool has_overcommit; // can we reserve more memory than can be actually committed?
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bool must_free_whole; // must allocated blocks be freed as a whole (false for mmap, true for VirtualAlloc)
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bool has_partial_free; // can allocated blocks be freed partially? (true for mmap, false for VirtualAlloc)
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bool has_virtual_reserve; // supports virtual address space reservation? (if true we can reserve virtual address space without using commit or physical memory)
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bool has_virtual_reserve; // supports virtual address space reservation? (if true we can reserve virtual address space without using commit or physical memory)
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} mi_os_mem_config_t;
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} mi_os_mem_config_t;
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10
src/os.c
10
src/os.c
@ -12,8 +12,6 @@ terms of the MIT license. A copy of the license can be found in the file
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/* -----------------------------------------------------------
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/* -----------------------------------------------------------
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Initialization.
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Initialization.
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On windows initializes support for aligned allocation and
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large OS pages (if MIMALLOC_LARGE_OS_PAGES is true).
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----------------------------------------------------------- */
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----------------------------------------------------------- */
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static mi_os_mem_config_t mi_os_mem_config = {
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static mi_os_mem_config_t mi_os_mem_config = {
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@ -21,7 +19,7 @@ static mi_os_mem_config_t mi_os_mem_config = {
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0, // large page size (usually 2MiB)
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0, // large page size (usually 2MiB)
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4096, // allocation granularity
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4096, // allocation granularity
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true, // has overcommit? (if true we use MAP_NORESERVE on mmap systems)
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true, // has overcommit? (if true we use MAP_NORESERVE on mmap systems)
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false, // must free whole? (on mmap systems we can free anywhere in a mapped range, but on Windows we must free the entire span)
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false, // can we partially free allocated blocks? (on mmap systems we can free anywhere in a mapped range, but on Windows we must free the entire span)
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true // has virtual reserve? (if true we can reserve virtual address space without using commit or physical memory)
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true // has virtual reserve? (if true we can reserve virtual address space without using commit or physical memory)
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};
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};
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@ -254,7 +252,7 @@ static void* mi_os_prim_alloc_aligned(size_t size, size_t alignment, bool commit
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if (size >= (SIZE_MAX - alignment)) return NULL; // overflow
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if (size >= (SIZE_MAX - alignment)) return NULL; // overflow
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const size_t over_size = size + alignment;
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const size_t over_size = size + alignment;
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if (mi_os_mem_config.must_free_whole) { // win32 virtualAlloc cannot free parts of an allocate block
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if (!mi_os_mem_config.has_partial_free) { // win32 virtualAlloc cannot free parts of an allocated block
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// over-allocate uncommitted (virtual) memory
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// over-allocate uncommitted (virtual) memory
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p = mi_os_prim_alloc(over_size, 1 /*alignment*/, false /* commit? */, false /* allow_large */, is_large, is_zero, stats);
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p = mi_os_prim_alloc(over_size, 1 /*alignment*/, false /* commit? */, false /* allow_large */, is_large, is_zero, stats);
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if (p == NULL) return NULL;
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if (p == NULL) return NULL;
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@ -275,7 +273,7 @@ static void* mi_os_prim_alloc_aligned(size_t size, size_t alignment, bool commit
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p = mi_os_prim_alloc(over_size, 1, commit, false, is_large, is_zero, stats);
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p = mi_os_prim_alloc(over_size, 1, commit, false, is_large, is_zero, stats);
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if (p == NULL) return NULL;
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if (p == NULL) return NULL;
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// and selectively unmap parts around the over-allocated area. (noop on sbrk)
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// and selectively unmap parts around the over-allocated area.
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void* aligned_p = mi_align_up_ptr(p, alignment);
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void* aligned_p = mi_align_up_ptr(p, alignment);
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size_t pre_size = (uint8_t*)aligned_p - (uint8_t*)p;
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size_t pre_size = (uint8_t*)aligned_p - (uint8_t*)p;
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size_t mid_size = _mi_align_up(size, _mi_os_page_size());
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size_t mid_size = _mi_align_up(size, _mi_os_page_size());
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@ -283,7 +281,7 @@ static void* mi_os_prim_alloc_aligned(size_t size, size_t alignment, bool commit
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mi_assert_internal(pre_size < over_size&& post_size < over_size&& mid_size >= size);
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mi_assert_internal(pre_size < over_size&& post_size < over_size&& mid_size >= size);
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if (pre_size > 0) { mi_os_prim_free(p, pre_size, commit, stats); }
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if (pre_size > 0) { mi_os_prim_free(p, pre_size, commit, stats); }
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if (post_size > 0) { mi_os_prim_free((uint8_t*)aligned_p + mid_size, post_size, commit, stats); }
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if (post_size > 0) { mi_os_prim_free((uint8_t*)aligned_p + mid_size, post_size, commit, stats); }
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// we can return the aligned pointer on `mmap` (and sbrk) systems
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// we can return the aligned pointer on `mmap` systems
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p = aligned_p;
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p = aligned_p;
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*base = aligned_p; // since we freed the pre part, `*base == p`.
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*base = aligned_p; // since we freed the pre part, `*base == p`.
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}
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}
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@ -51,7 +51,7 @@ void _mi_prim_mem_init( mi_os_mem_config_t* config) {
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config->page_size = 64*MI_KiB; // WebAssembly has a fixed page size: 64KiB
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config->page_size = 64*MI_KiB; // WebAssembly has a fixed page size: 64KiB
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config->alloc_granularity = 16;
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config->alloc_granularity = 16;
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config->has_overcommit = false;
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config->has_overcommit = false;
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config->must_free_whole = true;
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config->has_partial_free = false;
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config->has_virtual_reserve = false;
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config->has_virtual_reserve = false;
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}
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}
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@ -144,7 +144,7 @@ void _mi_prim_mem_init( mi_os_mem_config_t* config )
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}
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}
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config->large_page_size = 2*MI_MiB; // TODO: can we query the OS for this?
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config->large_page_size = 2*MI_MiB; // TODO: can we query the OS for this?
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config->has_overcommit = unix_detect_overcommit();
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config->has_overcommit = unix_detect_overcommit();
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config->must_free_whole = false; // mmap can free in parts
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config->has_partial_free = true; // mmap can free in parts
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config->has_virtual_reserve = true; // todo: check if this true for NetBSD? (for anonymous mmap with PROT_NONE)
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config->has_virtual_reserve = true; // todo: check if this true for NetBSD? (for anonymous mmap with PROT_NONE)
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// disable transparent huge pages for this process?
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// disable transparent huge pages for this process?
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@ -23,7 +23,7 @@ void _mi_prim_mem_init( mi_os_mem_config_t* config ) {
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config->page_size = 64*MI_KiB; // WebAssembly has a fixed page size: 64KiB
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config->page_size = 64*MI_KiB; // WebAssembly has a fixed page size: 64KiB
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config->alloc_granularity = 16;
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config->alloc_granularity = 16;
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config->has_overcommit = false;
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config->has_overcommit = false;
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config->must_free_whole = true;
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config->has_partial_free = false;
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config->has_virtual_reserve = false;
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config->has_virtual_reserve = false;
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}
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}
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@ -112,7 +112,7 @@ static bool win_enable_large_os_pages(size_t* large_page_size)
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void _mi_prim_mem_init( mi_os_mem_config_t* config )
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void _mi_prim_mem_init( mi_os_mem_config_t* config )
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{
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{
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config->has_overcommit = false;
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config->has_overcommit = false;
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config->must_free_whole = true;
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config->has_partial_free = false;
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config->has_virtual_reserve = true;
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config->has_virtual_reserve = true;
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// get the page size
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// get the page size
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SYSTEM_INFO si;
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SYSTEM_INFO si;
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