📄 mem.c
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/** @file * * Dynamic memory manager * *//* * Copyright (c) 2001-2003 Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY * OF SUCH DAMAGE. * * This file is part of the lwIP TCP/IP stack. * * Author: Adam Dunkels <adam@sics.se> * */#include "lwip/arch.h"#include "lwip/opt.h"#include "lwip/def.h"#include "lwip/mem.h"#include "lwip/sys.h"#include "lwip/stats.h"struct mem { mem_size_t next, prev;#if MEM_ALIGNMENT == 1 u8_t used;#elif MEM_ALIGNMENT == 2 u16_t used;#elif MEM_ALIGNMENT == 4 u32_t used;#else#error "unhandled MEM_ALIGNMENT size"#endif /* MEM_ALIGNMENT */}; static struct mem *ram_end;static u8_t ram[MEM_SIZE + sizeof(struct mem) + MEM_ALIGNMENT];#define MIN_SIZE 12#if 0 /* this one does not align correctly for some, resulting in crashes */#define SIZEOF_STRUCT_MEM (unsigned int)MEM_ALIGN_SIZE(sizeof(struct mem))#else#define SIZEOF_STRUCT_MEM (sizeof(struct mem) + \ (((sizeof(struct mem) % MEM_ALIGNMENT) == 0)? 0 : \ (4 - (sizeof(struct mem) % MEM_ALIGNMENT))))#endifstatic struct mem *lfree; /* pointer to the lowest free block */static sys_sem_t mem_sem;static voidplug_holes(struct mem *mem){ struct mem *nmem; struct mem *pmem; LWIP_ASSERT("plug_holes: mem >= ram", (u8_t *)mem >= ram); LWIP_ASSERT("plug_holes: mem < ram_end", (u8_t *)mem < (u8_t *)ram_end); LWIP_ASSERT("plug_holes: mem->used == 0", mem->used == 0); /* plug hole forward */ LWIP_ASSERT("plug_holes: mem->next <= MEM_SIZE", mem->next <= MEM_SIZE); nmem = (struct mem *)&ram[mem->next]; if (mem != nmem && nmem->used == 0 && (u8_t *)nmem != (u8_t *)ram_end) { if (lfree == nmem) { lfree = mem; } mem->next = nmem->next; ((struct mem *)&ram[nmem->next])->prev = (u8_t *)mem - ram; } /* plug hole backward */ pmem = (struct mem *)&ram[mem->prev]; if (pmem != mem && pmem->used == 0) { if (lfree == mem) { lfree = pmem; } pmem->next = mem->next; ((struct mem *)&ram[mem->next])->prev = (u8_t *)pmem - ram; }}voidmem_init(void){ struct mem *mem; memset(ram, 0, MEM_SIZE); mem = (struct mem *)ram; mem->next = MEM_SIZE; mem->prev = 0; mem->used = 0; ram_end = (struct mem *)&ram[MEM_SIZE]; ram_end->used = 1; ram_end->next = MEM_SIZE; ram_end->prev = MEM_SIZE; mem_sem = sys_sem_new(1); lfree = (struct mem *)ram;#if MEM_STATS lwip_stats.mem.avail = MEM_SIZE;#endif /* MEM_STATS */}voidmem_free(void *rmem){ struct mem *mem; if (rmem == NULL) { LWIP_DEBUGF(MEM_DEBUG | DBG_TRACE | 2, ("mem_free(p == NULL) was called.\n")); return; } sys_sem_wait(mem_sem); LWIP_ASSERT("mem_free: legal memory", (u8_t *)rmem >= (u8_t *)ram && (u8_t *)rmem < (u8_t *)ram_end); if ((u8_t *)rmem < (u8_t *)ram || (u8_t *)rmem >= (u8_t *)ram_end) { LWIP_DEBUGF(MEM_DEBUG | 3, ("mem_free: illegal memory\n"));#if MEM_STATS ++lwip_stats.mem.err;#endif /* MEM_STATS */ sys_sem_signal(mem_sem); return; } mem = (struct mem *)((u8_t *)rmem - SIZEOF_STRUCT_MEM); LWIP_ASSERT("mem_free: mem->used", mem->used); mem->used = 0; if (mem < lfree) { lfree = mem; } #if MEM_STATS lwip_stats.mem.used -= mem->next - ((u8_t *)mem - ram); #endif /* MEM_STATS */ plug_holes(mem); sys_sem_signal(mem_sem);}void *mem_reallocm(void *rmem, mem_size_t newsize){ void *nmem; nmem = mem_malloc(newsize); if (nmem == NULL) { return mem_realloc(rmem, newsize); } memcpy(nmem, rmem, newsize); mem_free(rmem); return nmem;}void *mem_realloc(void *rmem, mem_size_t newsize){ mem_size_t size; mem_size_t ptr, ptr2; struct mem *mem, *mem2; /* Expand the size of the allocated memory region so that we can adjust for alignment. */ if ((newsize % MEM_ALIGNMENT) != 0) { newsize += MEM_ALIGNMENT - ((newsize + SIZEOF_STRUCT_MEM) % MEM_ALIGNMENT); } if (newsize > MEM_SIZE) { return NULL; } sys_sem_wait(mem_sem); LWIP_ASSERT("mem_realloc: legal memory", (u8_t *)rmem >= (u8_t *)ram && (u8_t *)rmem < (u8_t *)ram_end); if ((u8_t *)rmem < (u8_t *)ram || (u8_t *)rmem >= (u8_t *)ram_end) { LWIP_DEBUGF(MEM_DEBUG | 3, ("mem_realloc: illegal memory\n")); return rmem; } mem = (struct mem *)((u8_t *)rmem - SIZEOF_STRUCT_MEM); ptr = (u8_t *)mem - ram; size = mem->next - ptr - SIZEOF_STRUCT_MEM;#if MEM_STATS lwip_stats.mem.used -= (size - newsize);#endif /* MEM_STATS */ if (newsize + SIZEOF_STRUCT_MEM + MIN_SIZE < size) { ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize; mem2 = (struct mem *)&ram[ptr2]; mem2->used = 0; mem2->next = mem->next; mem2->prev = ptr; mem->next = ptr2; if (mem2->next != MEM_SIZE) { ((struct mem *)&ram[mem2->next])->prev = ptr2; } plug_holes(mem2); } sys_sem_signal(mem_sem); return rmem;}void *mem_malloc(mem_size_t size){ mem_size_t ptr, ptr2; struct mem *mem, *mem2; if (size == 0) { return NULL; } /* Expand the size of the allocated memory region so that we can adjust for alignment. */ if ((size % MEM_ALIGNMENT) != 0) { size += MEM_ALIGNMENT - ((size + SIZEOF_STRUCT_MEM) % MEM_ALIGNMENT); } if (size > MEM_SIZE) { return NULL; } sys_sem_wait(mem_sem); for (ptr = (u8_t *)lfree - ram; ptr < MEM_SIZE; ptr = ((struct mem *)&ram[ptr])->next) { mem = (struct mem *)&ram[ptr]; if (!mem->used && mem->next - (ptr + SIZEOF_STRUCT_MEM) >= size + SIZEOF_STRUCT_MEM) { ptr2 = ptr + SIZEOF_STRUCT_MEM + size; mem2 = (struct mem *)&ram[ptr2]; mem2->prev = ptr; mem2->next = mem->next; mem->next = ptr2; if (mem2->next != MEM_SIZE) { ((struct mem *)&ram[mem2->next])->prev = ptr2; } mem2->used = 0; mem->used = 1;#if MEM_STATS lwip_stats.mem.used += (size + SIZEOF_STRUCT_MEM); /* if (lwip_stats.mem.max < lwip_stats.mem.used) { lwip_stats.mem.max = lwip_stats.mem.used; } */ if (lwip_stats.mem.max < ptr2) { lwip_stats.mem.max = ptr2; } #endif /* MEM_STATS */ if (mem == lfree) { /* Find next free block after mem */ while (lfree->used && lfree != ram_end) { lfree = (struct mem *)&ram[lfree->next]; } LWIP_ASSERT("mem_malloc: !lfree->used", !lfree->used); } sys_sem_signal(mem_sem); LWIP_ASSERT("mem_malloc: allocated memory not above ram_end.", (u32_t)mem + SIZEOF_STRUCT_MEM + size <= (u32_t)ram_end); LWIP_ASSERT("mem_malloc: allocated memory properly aligned.", (unsigned long)((u8_t *)mem + SIZEOF_STRUCT_MEM) % MEM_ALIGNMENT == 0); return (u8_t *)mem + SIZEOF_STRUCT_MEM; } } LWIP_DEBUGF(MEM_DEBUG | 2, ("mem_malloc: could not allocate %d bytes\n", (int)size));#if MEM_STATS ++lwip_stats.mem.err;#endif /* MEM_STATS */ sys_sem_signal(mem_sem); return NULL;}⌨️ 快捷键说明
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