mirror of
https://github.com/Fledge68/WiiFlow_Lite.git
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2bb24b2575
mem2 experiments
273 lines
4.5 KiB
C++
273 lines
4.5 KiB
C++
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#include <malloc.h>
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#include <string.h>
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#include <ogc/system.h>
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#include "mem2.hpp"
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#include "mem2alloc.hpp"
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#include "gecko/gecko.hpp"
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#include "loader/utils.h"
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#define MEM2_PRIORITY_SIZE 0x1000
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// Forbid the use of MEM2 through malloc
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u32 MALLOC_MEM2 = 0;
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void *MEM1_lo_start = (void*)0x80004000;
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void *MEM1_lo_end = (void*)0x80620000;
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/*void *MEM2_lo_start = (void*)0x90000000;
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void *MEM2_lo_end = (void*)0x90600000;*/
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void *MEM2_start = (void*)0x90200000;
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void *MEM2_end = (void*)0x93100000;
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static CMEM2Alloc g_mem1lo;
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/*static CMEM2Alloc g_mem2lo_gp;*/
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static CMEM2Alloc g_mem2gp;
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extern "C"
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{
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extern __typeof(malloc) __real_malloc;
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extern __typeof(calloc) __real_calloc;
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extern __typeof(realloc) __real_realloc;
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extern __typeof(memalign) __real_memalign;
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extern __typeof(free) __real_free;
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extern __typeof(malloc_usable_size) __real_malloc_usable_size;
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void MEM_init()
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{
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g_mem1lo.init(MEM1_lo_start, MEM1_lo_end); //about 6mb
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g_mem1lo.clear();
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/*g_mem2lo_gp.init(MEM2_lo_start, MEM2_lo_end); //about 6mb
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g_mem2lo_gp.clear();*/
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g_mem2gp.init(MEM2_start, MEM2_end); //about 47mb
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g_mem2gp.clear();
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}
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void *MEM1_lo_alloc(unsigned int s)
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{
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return g_mem1lo.allocate(s);
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}
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void MEM1_lo_free(void *p)
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{
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if(!p)
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return;
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g_mem1lo.release(p);
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}
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unsigned int MEM1_lo_freesize()
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{
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return g_mem1lo.FreeSize();
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}
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void *MEM1_alloc(unsigned int s)
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{
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return __real_malloc(s);
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}
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void *MEM1_memalign(unsigned int a, unsigned int s)
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{
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return __real_memalign(a, s);
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}
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void *MEM1_realloc(void *p, unsigned int s)
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{
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return __real_realloc(p, s);
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}
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void MEM1_free(void *p)
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{
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if(!p)
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return;
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__real_free(p);
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}
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unsigned int MEM1_freesize()
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{
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return SYS_GetArena1Size();
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}
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void *MEM2_lo_alloc(unsigned int s)
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{
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return MEM2_alloc(s);
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/*return g_mem2lo_gp.allocate(s);*/
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}
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void *MEM2_lo_realloc(void *p, unsigned int s)
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{
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return MEM2_realloc(p, s);
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/*return g_mem2lo_gp.reallocate(p, s);*/
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}
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void MEM2_lo_free(void *p)
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{
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MEM2_free(p);
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/*if(!p)
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return;
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g_mem2lo_gp.release(p);*/
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}
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unsigned int MEM2_lo_freesize()
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{
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return 0;//g_mem2lo_gp.FreeSize();
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}
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void MEM2_free(void *p)
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{
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if(!p)
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return;
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g_mem2gp.release(p);
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}
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void *MEM2_alloc(unsigned int s)
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{
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return g_mem2gp.allocate(s);
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}
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/* Placeholder, will be needed with new memory manager */
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void *MEM2_memalign(unsigned int /* alignment */, unsigned int s)
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{
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return MEM2_alloc(s);
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}
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void *MEM2_realloc(void *p, unsigned int s)
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{
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return g_mem2gp.reallocate(p, s);
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}
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unsigned int MEM2_usableSize(void *p)
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{
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return g_mem2gp.usableSize(p);
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}
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unsigned int MEM2_freesize()
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{
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return g_mem2gp.FreeSize();
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}
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void *__wrap_malloc(size_t size)
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{
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void *p;
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if(size >= MEM2_PRIORITY_SIZE)
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{
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p = g_mem2gp.allocate(size);
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if(p != 0)
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return p;
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return __real_malloc(size);
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}
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p = __real_malloc(size);
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if(p != 0)
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return p;
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return g_mem2gp.allocate(size);
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}
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void *__wrap_calloc(size_t n, size_t size)
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{
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void *p;
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if((n * size) >= MEM2_PRIORITY_SIZE)
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{
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p = g_mem2gp.allocate(n * size);
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if (p != 0)
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{
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memset(p, 0, n * size);
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return p;
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}
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return __real_calloc(n, size);
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}
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p = __real_calloc(n, size);
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if (p != 0) return p;
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p = g_mem2gp.allocate(n * size);
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if (p != 0)
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memset(p, 0, n * size);
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return p;
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}
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void *__wrap_memalign(size_t a, size_t size)
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{
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void *p;
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if(size >= MEM2_PRIORITY_SIZE)
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{
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if(a <= 32 && 32 % a == 0)
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{
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p = g_mem2gp.allocate(size);
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if (p != 0)
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return p;
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}
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return __real_memalign(a, size);
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}
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p = __real_memalign(a, size);
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if(p != 0 || a > 32 || 32 % a != 0)
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return p;
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return g_mem2gp.allocate(size);
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}
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void __wrap_free(void *p)
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{
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if(!p)
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return;
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if(((u32)p & 0x10000000) != 0)
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{
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//if(p > MEM2_start)
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g_mem2gp.release(p);
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//else
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//g_mem2lo_gp.release(p);
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}
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else
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MEM1_free(p);
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}
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void *__wrap_realloc(void *p, size_t size)
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{
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void *n;
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// ptr from mem2
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if(((u32)p & 0x10000000) != 0 || (p == 0 && size > MEM2_PRIORITY_SIZE))
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{
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n = g_mem2gp.reallocate(p, size);
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if(n != 0)
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return n;
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n = __real_malloc(size);
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if(n == 0)
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return 0;
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if(p != 0)
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{
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memcpy(n, p, MEM2_usableSize(p) < size ? MEM2_usableSize(p) : size);
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g_mem2gp.release(p);
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}
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return n;
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}
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// ptr from malloc
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n = __real_realloc(p, size);
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if(n != 0)
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return n;
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n = g_mem2gp.allocate(size);
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if(n == 0)
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return 0;
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if(p != 0)
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{
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memcpy(n, p, __real_malloc_usable_size(p) < size ? __real_malloc_usable_size(p) : size);
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__real_free(p);
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}
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return n;
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}
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size_t __wrap_malloc_usable_size(void *p)
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{
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if(((u32)p & 0x10000000) != 0)
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return CMEM2Alloc::usableSize(p);
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return __real_malloc_usable_size(p);
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}
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} ///extern "C"
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