f81857f08c
git-svn-id: svn://kolibrios.org@7537 a494cfbc-eb01-0410-851d-a64ba20cac60
411 lines
11 KiB
C
411 lines
11 KiB
C
/*
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* Easy and fast memory allocator from
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* https://wiki.osdev.org/Memory_Allocation
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* Coded by Siemargl, 2018
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*
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* No Garbage Collector
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*/
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#include <stddef.h>
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#include <stdint.h>
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#include <string.h>
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#include <assert.h>
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#include <stdlib.h>
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#define UINT_MAX (4294967295U)
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#ifndef NDEBUG
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#include <stdio.h>
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# ifdef __TINYC__
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# include <kolibrisys.h>
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# define TRACE1(s, a) { char buf[400]; sprintf(buf, s, a); debug_out_str(buf); }
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# define TRACE2(s, a, b) { char buf[400]; sprintf(buf, s, a, b); debug_out_str(buf); }
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# else
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# define TRACE1(s, a) printf(s, a)
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# define TRACE2(s, a, b) printf(s, a, b)
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# endif
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#else
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# define TRACE1(s, a) (void)0
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# define TRACE2(s, a, b) (void)0
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#endif
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// get address, fromwhere function was called
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#define CALLEDFROM(param1) (*(int*)((char*)¶m1-4)-5)
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const uint32_t c_used = 0x44455355; //'USED'
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const uint32_t c_free = 0x45455246; //'FREE'
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struct hdrfree {
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uint32_t mark; // 'FREE'
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size_t size; // including header
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struct hdrfree *prev;
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struct hdrfree *next;
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};
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struct hdrused {
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uint32_t mark; // 'USED'
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size_t size;
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};
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static char *__freebase = NULL; // begin of free area
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static char *__freetop = NULL; // after last byte of free area
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static struct hdrfree *__firstfree = NULL; // ptr to first node in dual-link list
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static struct {
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uint32_t malloc_calls;
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uint32_t malloc_max;
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uint32_t malloc_sum;
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uint32_t sysalloc_calls;
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uint32_t sysalloc_max;
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uint32_t sysalloc_sum;
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uint32_t crtfreeblocks; // number of free blocks, checking corruptions
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uint32_t freeblocks_sum;
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} wtalloc_stat;
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void *wtmalloc(size_t sz)
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{
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struct hdrfree *fndnode, *newnode;
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sz = (sizeof(struct hdrused) + sz + 15) & ~15; // align 16bytes
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//TRACE1("_call alloc(%d)\n", sz);
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//statistics
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wtalloc_stat.malloc_calls++;
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if (sz > wtalloc_stat.malloc_max) wtalloc_stat.malloc_max = sz;
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wtalloc_stat.malloc_sum += sz;
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// try to find free block enough size
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fndnode = __firstfree;
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while(fndnode)
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{
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#ifndef NDEBUG
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if (fndnode->mark != c_free)
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{
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TRACE2("heap free block list corrupt %x EIP@%x\n", fndnode, CALLEDFROM(sz));
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assert(0);
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}
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#endif
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if (fndnode->size >= sz) break;
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fndnode = fndnode->next;
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}
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if (fndnode) // found free block
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{
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if (fndnode->size - sz > 15) // split smaller size, move free node
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{
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//TRACE2("alloc(%d) split (%x)\n", sz, fndnode);
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wtalloc_stat.freeblocks_sum -= sz;
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newnode = (struct hdrfree*)((char*)fndnode + sz);
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newnode->mark = c_free;
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newnode->size = fndnode->size - sz;
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newnode->next = fndnode->next;
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newnode->prev = fndnode->prev;
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if (fndnode->next)
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fndnode->next->prev = newnode;
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//перед может быть не нода, а 1й указатель
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if (fndnode->prev)
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newnode->prev->next = newnode;
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else
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__firstfree = newnode;
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} else // nothing to split, just exclude
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{
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//TRACE1("alloc(%d) remove freenode\n", sz);
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wtalloc_stat.crtfreeblocks--;
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wtalloc_stat.freeblocks_sum -= fndnode->size;
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if (fndnode->next)
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fndnode->next->prev = fndnode->prev;
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//перед может быть не нода, а 1й указатель
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if (fndnode->prev)
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fndnode->prev->next = fndnode->next;
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else
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__firstfree = fndnode->next;
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}
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fndnode->mark = c_used;
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fndnode->size = sz;
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return (char*)fndnode + sizeof(struct hdrused);
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}
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char *ptr;
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// free block not found, try to add @end
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if (__freetop - __freebase < sz) // not enough memory - call system
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{
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if (sz > UINT_MAX - 16) return NULL; // check 32-bit heap overflow
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// size_t new_heap_size = (__freetop - __freebase + sz + 4095) & ~4095;
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size_t new_heap_size = (sz + sz / 5 + 4095) & ~4095; // 20% reserved
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//statistics
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wtalloc_stat.sysalloc_calls++;
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if (new_heap_size > wtalloc_stat.malloc_max) wtalloc_stat.sysalloc_max = new_heap_size;
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wtalloc_stat.sysalloc_sum += new_heap_size;
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//хвост сунуть в свободные, а фритоп и базу перености на новый кусок
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ptr = sysmalloc(new_heap_size); // rounded 4k
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//TRACE2("call systemalloc(%d) returned %x\n", new_heap_size, ptr);
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if (!ptr)
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{
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TRACE2("sysmalloc failed trying to allocate %u bytes EIP@%x\n", sz, CALLEDFROM(sz));
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return NULL;
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}
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// add new free block in front of list
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if (__freetop - __freebase > 15)
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{
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newnode = (struct hdrfree*)__freebase;
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newnode->mark = c_free;
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newnode->size = __freetop - __freebase;
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newnode->next = __firstfree;
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newnode->prev = NULL;
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if (__firstfree)
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__firstfree->prev = newnode;
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__firstfree = newnode;
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wtalloc_stat.crtfreeblocks++;
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wtalloc_stat.freeblocks_sum += newnode->size;
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//TRACE2("alloc(%d) add tail %d to freenode", sz, newnode->size);
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//TRACE1(".tail [%x]\n", newnode);
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}
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// we don't save allocated block from system, so cant free them ltr
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__freebase = ptr;
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__freetop = __freebase + new_heap_size;
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}
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ptr = __freebase + sizeof(struct hdrused);
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((struct hdrused*)__freebase)->mark = c_used;
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((struct hdrused*)__freebase)->size = sz;
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__freebase += sz;
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//TRACE1("__freebase [%x]\n", __freebase);
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// check list availability
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/*
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int maxfree = 0;
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for (fndnode = __firstfree; fndnode; fndnode = fndnode->next)
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{
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if (fndnode->size > maxfree) maxfree = fndnode->size;
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}
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TRACE2("alloc(%d) from freebase, maxfree = %d,", sz, maxfree);
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TRACE1(" freelist len = %u \n", wtalloc_stat.crtfreeblocks);
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*/
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return ptr;
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}
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void wtfree(void *ptr)
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{
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if (!ptr) return;
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//TRACE1("free() to freenode, sized %d\n", ((struct hdrused*)((char*)ptr - 8))->size);
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#ifndef NDEBUG
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if (((struct hdrused*)((char*)ptr - 8))->mark != c_used)
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{
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TRACE2("try free unallocated block ptr = %x bytes EIP@%x\n", ptr, CALLEDFROM(ptr));
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assert(0);
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}
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#endif
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struct hdrfree *newnode = (struct hdrfree*)((char*)ptr - 8);
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newnode->mark = c_free;
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//size stays
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newnode->next = NULL;
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newnode->prev = NULL;
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// experimental - try to merge, if adjanced from bottom is also freeblock
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int reorganized = 0;
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struct hdrfree *higher;
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{
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struct hdrfree *p1;
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higher = NULL;
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for (p1 = __firstfree; p1; p1 = p1->next)
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{
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higher = (struct hdrfree *)((char*)p1 + p1->size);
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if (higher == newnode) break;
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}
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if (p1) // yes, it is
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{
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wtalloc_stat.freeblocks_sum += newnode->size;
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p1->size += newnode->size;
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// p1->prev, p1->next already OK
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newnode->mark = 0; // for safety
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newnode = p1; // continue optimization
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//TRACE2("free block merged w/bottom sized %u bytes, list len %u\n", p1->size, wtalloc_stat.crtfreeblocks);
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reorganized = 1;
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}
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}
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/* removed, as very seldom succeeds */
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// experimental - try to merge, if adjanced from top is also freeblock
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higher = (struct hdrfree *)((char*)newnode + newnode->size);
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// dont work - we try to read after our memory
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// if ((char*)higher < (char*)__freetop && // saves from reading out of our memory
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// higher->mark == c_free) // only suspisious, must be in list
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{
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struct hdrfree *p1;
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for (p1 = __firstfree; p1 && p1 != higher; p1 = p1->next);
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if (p1) // yes, it is
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{
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if (newnode->next || newnode->prev) // optimized 1st stage, must remove from list and readd later
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{
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wtalloc_stat.crtfreeblocks--;
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wtalloc_stat.freeblocks_sum -= newnode->size;
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if (newnode->next)
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newnode->next->prev = newnode->prev;
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if (newnode->prev)
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newnode->prev->next = newnode->next;
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else
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__firstfree = newnode->next;
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}
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wtalloc_stat.freeblocks_sum += newnode->size;
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newnode->size += higher->size;
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newnode->prev = higher->prev;
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newnode->next = higher->next;
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higher->mark = 0; // for safety
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if (higher->next)
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higher->next->prev = newnode;
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if (higher->prev)
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higher->prev->next = newnode;
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else
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__firstfree = newnode;
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//TRACE1("free block merged w/top\n", 0);
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reorganized = 1;
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}
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}
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if (reorganized) return; // experimental reorganized do all work
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//TRACE1("free block added\n", 0);
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wtalloc_stat.crtfreeblocks++;
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wtalloc_stat.freeblocks_sum += newnode->size;
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newnode->next = __firstfree;
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newnode->prev = NULL;
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if (__firstfree)
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__firstfree->prev = newnode;
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__firstfree = newnode;
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}
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void *wtrealloc(void *ptr, size_t sz)
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{
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if (!ptr) return wtmalloc(sz);
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struct hdrused* oldptr = (struct hdrused*)((char*)ptr - 8);
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#ifndef NDEBUG
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if (oldptr->mark != c_used)
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{
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TRACE2("try realloc unallocated block ptr = %x EIP@%x\n", ptr, CALLEDFROM(ptr));
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assert(0);
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}
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#endif
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if (oldptr->size - 8 >= sz) return ptr; // enough room in this block, ex from freelist
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/* experimental growth last block */
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int growth = (oldptr->size + sz + 15) & ~15;
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if ((char*)oldptr + oldptr->size == __freebase &&
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__freetop - __freebase + oldptr->size >= growth ) // we at top, can grow up
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{
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wtalloc_stat.malloc_sum += growth - oldptr->size;
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__freebase += growth - oldptr->size;
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oldptr->size = growth;
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return ptr;
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}
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void *newptr = wtmalloc(sz);
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if (newptr)
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{
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memcpy(newptr, (char*)oldptr +8, oldptr->size -8); // why forgeting -8 dont fail test?!?
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wtfree((char*)oldptr +8);
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return newptr;
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}
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return NULL;
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}
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void* wtcalloc( size_t num, size_t size )
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{
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void *newptr = wtmalloc(num * size);
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if (newptr)
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memset(newptr, 0, num * size);
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return newptr;
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}
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int wtmalloc_freelist_check()
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//контроль целостности списка фри OK == 1
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{
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int cnt = 0;
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struct hdrfree *ptr = __firstfree;
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if(ptr && ptr->prev)
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{
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TRACE1("allocated memory freelist 1st block fail, ptr = %x\n", ptr);
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return 0;
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}
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for(;ptr; ptr = ptr->next)
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{
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//TRACE1("(%x)", ptr);
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cnt++;
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if (ptr->mark != c_free)
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{
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TRACE1("allocated memory freelist check fail, ptr = %x\n", ptr);
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return 0;
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}
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}
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if (cnt != wtalloc_stat.crtfreeblocks)
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{
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TRACE2("allocated memory freelist check fail, length must be = %u but is %u\n", wtalloc_stat.crtfreeblocks, cnt);
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return 0;
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}
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return 1;
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}
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void wtmalloc_freelist_print()
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{
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struct hdrfree *ptr = __firstfree;
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for(;ptr; ptr = ptr->next)
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{
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TRACE2("(%x[%u])", ptr, ptr->size);
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}
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TRACE1("\n", 0);
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}
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int wtmalloc_poiner_check(void *ptr)
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//контроль указателя - mark OK == 1
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{
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if (((struct hdrused*)((char*)ptr - 8))->mark != c_used)
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{
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TRACE2("pointer watermark check fail ptr = %x bytes EIP@%x\n", ptr, CALLEDFROM(ptr));
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return 0;
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}
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return 1;
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}
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void wtdump_alloc_stats()
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{
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TRACE1("----Watermark allocator stats:----\n", 0);
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TRACE2("allocated %u calls, max of %u bytes\n", wtalloc_stat.malloc_calls, wtalloc_stat.malloc_max);
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TRACE2("total %u bytes, average call %u bytes\n", wtalloc_stat.malloc_sum, wtalloc_stat.malloc_sum / wtalloc_stat.malloc_calls);
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TRACE1("SYSTEM:\n", 0);
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TRACE2("allocated %u calls, max of %u bytes\n", wtalloc_stat.sysalloc_calls, wtalloc_stat.sysalloc_max);
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TRACE2("total %u bytes, average call %u bytes\n", wtalloc_stat.sysalloc_sum, wtalloc_stat.sysalloc_sum / wtalloc_stat.sysalloc_calls);
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TRACE2("free list %u bytes, length %u chunks\n", wtalloc_stat.freeblocks_sum, wtalloc_stat.crtfreeblocks);
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}
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