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lwip/core/mem.c@7:4e2468d7d5cb, 2010-12-15 (annotated)

Committer:: segundo
Date:: Wed Dec 15 18:01:30 2010 +0000
Revision:: 7:4e2468d7d5cb
Parent:: 0:ac1725ba162c

Who changed what in which revision?

User	Revision	Line number	New contents of line
segundo	0:ac1725ba162c	1	#pragma diag_remark 177
segundo	0:ac1725ba162c	2	/**
segundo	0:ac1725ba162c	3	* @file
segundo	0:ac1725ba162c	4	* Dynamic memory manager
segundo	0:ac1725ba162c	5	*
segundo	0:ac1725ba162c	6	* This is a lightweight replacement for the standard C library malloc().
segundo	0:ac1725ba162c	7	*
segundo	0:ac1725ba162c	8	* If you want to use the standard C library malloc() instead, define
segundo	0:ac1725ba162c	9	* MEM_LIBC_MALLOC to 1 in your lwipopts.h
segundo	0:ac1725ba162c	10	*
segundo	0:ac1725ba162c	11	* To let mem_malloc() use pools (prevents fragmentation and is much faster than
segundo	0:ac1725ba162c	12	* a heap but might waste some memory), define MEM_USE_POOLS to 1, define
segundo	0:ac1725ba162c	13	* MEM_USE_CUSTOM_POOLS to 1 and create a file "lwippools.h" that includes a list
segundo	0:ac1725ba162c	14	* of pools like this (more pools can be added between _START and _END):
segundo	0:ac1725ba162c	15	*
segundo	0:ac1725ba162c	16	* Define three pools with sizes 256, 512, and 1512 bytes
segundo	0:ac1725ba162c	17	* LWIP_MALLOC_MEMPOOL_START
segundo	0:ac1725ba162c	18	* LWIP_MALLOC_MEMPOOL(20, 256)
segundo	0:ac1725ba162c	19	* LWIP_MALLOC_MEMPOOL(10, 512)
segundo	0:ac1725ba162c	20	* LWIP_MALLOC_MEMPOOL(5, 1512)
segundo	0:ac1725ba162c	21	* LWIP_MALLOC_MEMPOOL_END
segundo	0:ac1725ba162c	22	*/
segundo	0:ac1725ba162c	23
segundo	0:ac1725ba162c	24	/*
segundo	0:ac1725ba162c	25	* Copyright (c) 2001-2004 Swedish Institute of Computer Science.
segundo	0:ac1725ba162c	26	* All rights reserved.
segundo	0:ac1725ba162c	27	*
segundo	0:ac1725ba162c	28	* Redistribution and use in source and binary forms, with or without modification,
segundo	0:ac1725ba162c	29	* are permitted provided that the following conditions are met:
segundo	0:ac1725ba162c	30	*
segundo	0:ac1725ba162c	31	* 1. Redistributions of source code must retain the above copyright notice,
segundo	0:ac1725ba162c	32	* this list of conditions and the following disclaimer.
segundo	0:ac1725ba162c	33	* 2. Redistributions in binary form must reproduce the above copyright notice,
segundo	0:ac1725ba162c	34	* this list of conditions and the following disclaimer in the documentation
segundo	0:ac1725ba162c	35	* and/or other materials provided with the distribution.
segundo	0:ac1725ba162c	36	* 3. The name of the author may not be used to endorse or promote products
segundo	0:ac1725ba162c	37	* derived from this software without specific prior written permission.
segundo	0:ac1725ba162c	38	*
segundo	0:ac1725ba162c	39	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
segundo	0:ac1725ba162c	40	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
segundo	0:ac1725ba162c	41	* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
segundo	0:ac1725ba162c	42	* SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
segundo	0:ac1725ba162c	43	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
segundo	0:ac1725ba162c	44	* OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
segundo	0:ac1725ba162c	45	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
segundo	0:ac1725ba162c	46	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
segundo	0:ac1725ba162c	47	* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
segundo	0:ac1725ba162c	48	* OF SUCH DAMAGE.
segundo	0:ac1725ba162c	49	*
segundo	0:ac1725ba162c	50	* This file is part of the lwIP TCP/IP stack.
segundo	0:ac1725ba162c	51	*
segundo	0:ac1725ba162c	52	* Author: Adam Dunkels <adam@sics.se>
segundo	0:ac1725ba162c	53	* Simon Goldschmidt
segundo	0:ac1725ba162c	54	*
segundo	0:ac1725ba162c	55	*/
segundo	0:ac1725ba162c	56
segundo	0:ac1725ba162c	57	#include "lwip/opt.h"
segundo	0:ac1725ba162c	58
segundo	0:ac1725ba162c	59	#if !MEM_LIBC_MALLOC /* don't build if not configured for use in lwipopts.h */
segundo	0:ac1725ba162c	60
segundo	0:ac1725ba162c	61	#include "lwip/def.h"
segundo	0:ac1725ba162c	62	#include "lwip/mem.h"
segundo	0:ac1725ba162c	63	#include "lwip/sys.h"
segundo	0:ac1725ba162c	64	#include "lwip/stats.h"
segundo	0:ac1725ba162c	65	#include "lwip/err.h"
segundo	0:ac1725ba162c	66
segundo	0:ac1725ba162c	67	#include <string.h>
segundo	0:ac1725ba162c	68
segundo	0:ac1725ba162c	69	#if MEM_USE_POOLS
segundo	0:ac1725ba162c	70	/* lwIP head implemented with different sized pools */
segundo	0:ac1725ba162c	71
segundo	0:ac1725ba162c	72	/**
segundo	0:ac1725ba162c	73	* Allocate memory: determine the smallest pool that is big enough
segundo	0:ac1725ba162c	74	* to contain an element of 'size' and get an element from that pool.
segundo	0:ac1725ba162c	75	*
segundo	0:ac1725ba162c	76	* @param size the size in bytes of the memory needed
segundo	0:ac1725ba162c	77	* @return a pointer to the allocated memory or NULL if the pool is empty
segundo	0:ac1725ba162c	78	*/
segundo	0:ac1725ba162c	79	void *
segundo	0:ac1725ba162c	80	mem_malloc(mem_size_t size)
segundo	0:ac1725ba162c	81	{
segundo	0:ac1725ba162c	82	struct memp_malloc_helper *element;
segundo	0:ac1725ba162c	83	memp_t poolnr;
segundo	0:ac1725ba162c	84	mem_size_t required_size = size + sizeof(struct memp_malloc_helper);
segundo	0:ac1725ba162c	85
segundo	0:ac1725ba162c	86	for (poolnr = MEMP_POOL_FIRST; poolnr <= MEMP_POOL_LAST; poolnr = (memp_t)(poolnr + 1)) {
segundo	0:ac1725ba162c	87	#if MEM_USE_POOLS_TRY_BIGGER_POOL
segundo	0:ac1725ba162c	88	again:
segundo	0:ac1725ba162c	89	#endif /* MEM_USE_POOLS_TRY_BIGGER_POOL */
segundo	0:ac1725ba162c	90	/* is this pool big enough to hold an element of the required size
segundo	0:ac1725ba162c	91	plus a struct memp_malloc_helper that saves the pool this element came from? */
segundo	0:ac1725ba162c	92	if (required_size <= memp_sizes[poolnr]) {
segundo	0:ac1725ba162c	93	break;
segundo	0:ac1725ba162c	94	}
segundo	0:ac1725ba162c	95	}
segundo	0:ac1725ba162c	96	if (poolnr > MEMP_POOL_LAST) {
segundo	0:ac1725ba162c	97	LWIP_ASSERT("mem_malloc(): no pool is that big!", 0);
segundo	0:ac1725ba162c	98	return NULL;
segundo	0:ac1725ba162c	99	}
segundo	0:ac1725ba162c	100	element = (struct memp_malloc_helper*)memp_malloc(poolnr);
segundo	0:ac1725ba162c	101	if (element == NULL) {
segundo	0:ac1725ba162c	102	/* No need to DEBUGF or ASSERT: This error is already
segundo	0:ac1725ba162c	103	taken care of in memp.c */
segundo	0:ac1725ba162c	104	#if MEM_USE_POOLS_TRY_BIGGER_POOL
segundo	0:ac1725ba162c	105	/** Try a bigger pool if this one is empty! */
segundo	0:ac1725ba162c	106	if (poolnr < MEMP_POOL_LAST) {
segundo	0:ac1725ba162c	107	poolnr++;
segundo	0:ac1725ba162c	108	goto again;
segundo	0:ac1725ba162c	109	}
segundo	0:ac1725ba162c	110	#endif /* MEM_USE_POOLS_TRY_BIGGER_POOL */
segundo	0:ac1725ba162c	111	return NULL;
segundo	0:ac1725ba162c	112	}
segundo	0:ac1725ba162c	113
segundo	0:ac1725ba162c	114	/* save the pool number this element came from */
segundo	0:ac1725ba162c	115	element->poolnr = poolnr;
segundo	0:ac1725ba162c	116	/* and return a pointer to the memory directly after the struct memp_malloc_helper */
segundo	0:ac1725ba162c	117	element++;
segundo	0:ac1725ba162c	118
segundo	0:ac1725ba162c	119	return element;
segundo	0:ac1725ba162c	120	}
segundo	0:ac1725ba162c	121
segundo	0:ac1725ba162c	122	/**
segundo	0:ac1725ba162c	123	* Free memory previously allocated by mem_malloc. Loads the pool number
segundo	0:ac1725ba162c	124	* and calls memp_free with that pool number to put the element back into
segundo	0:ac1725ba162c	125	* its pool
segundo	0:ac1725ba162c	126	*
segundo	0:ac1725ba162c	127	* @param rmem the memory element to free
segundo	0:ac1725ba162c	128	*/
segundo	0:ac1725ba162c	129	void
segundo	0:ac1725ba162c	130	mem_free(void *rmem)
segundo	0:ac1725ba162c	131	{
segundo	0:ac1725ba162c	132	struct memp_malloc_helper hmem = (struct memp_malloc_helper)rmem;
segundo	0:ac1725ba162c	133
segundo	0:ac1725ba162c	134	LWIP_ASSERT("rmem != NULL", (rmem != NULL));
segundo	0:ac1725ba162c	135	LWIP_ASSERT("rmem == MEM_ALIGN(rmem)", (rmem == LWIP_MEM_ALIGN(rmem)));
segundo	0:ac1725ba162c	136
segundo	0:ac1725ba162c	137	/* get the original struct memp_malloc_helper */
segundo	0:ac1725ba162c	138	hmem--;
segundo	0:ac1725ba162c	139
segundo	0:ac1725ba162c	140	LWIP_ASSERT("hmem != NULL", (hmem != NULL));
segundo	0:ac1725ba162c	141	LWIP_ASSERT("hmem == MEM_ALIGN(hmem)", (hmem == LWIP_MEM_ALIGN(hmem)));
segundo	0:ac1725ba162c	142	LWIP_ASSERT("hmem->poolnr < MEMP_MAX", (hmem->poolnr < MEMP_MAX));
segundo	0:ac1725ba162c	143
segundo	0:ac1725ba162c	144	/* and put it in the pool we saved earlier */
segundo	0:ac1725ba162c	145	memp_free(hmem->poolnr, hmem);
segundo	0:ac1725ba162c	146	}
segundo	0:ac1725ba162c	147
segundo	0:ac1725ba162c	148	#else /* MEM_USE_POOLS */
segundo	0:ac1725ba162c	149	/* lwIP replacement for your libc malloc() */
segundo	0:ac1725ba162c	150
segundo	0:ac1725ba162c	151	/**
segundo	0:ac1725ba162c	152	* The heap is made up as a list of structs of this type.
segundo	0:ac1725ba162c	153	* This does not have to be aligned since for getting its size,
segundo	0:ac1725ba162c	154	* we only use the macro SIZEOF_STRUCT_MEM, which automatically alignes.
segundo	0:ac1725ba162c	155	*/
segundo	0:ac1725ba162c	156	struct mem {
segundo	0:ac1725ba162c	157	/** index (-> ram[next]) of the next struct */
segundo	0:ac1725ba162c	158	mem_size_t next;
segundo	0:ac1725ba162c	159	/** index (-> ram[prev]) of the previous struct */
segundo	0:ac1725ba162c	160	mem_size_t prev;
segundo	0:ac1725ba162c	161	/** 1: this area is used; 0: this area is unused */
segundo	0:ac1725ba162c	162	u8_t used;
segundo	0:ac1725ba162c	163	};
segundo	0:ac1725ba162c	164
segundo	0:ac1725ba162c	165	/** All allocated blocks will be MIN_SIZE bytes big, at least!
segundo	0:ac1725ba162c	166	* MIN_SIZE can be overridden to suit your needs. Smaller values save space,
segundo	0:ac1725ba162c	167	* larger values could prevent too small blocks to fragment the RAM too much. */
segundo	0:ac1725ba162c	168	#ifndef MIN_SIZE
segundo	0:ac1725ba162c	169	#define MIN_SIZE 12
segundo	0:ac1725ba162c	170	#endif /* MIN_SIZE */
segundo	0:ac1725ba162c	171	/* some alignment macros: we define them here for better source code layout */
segundo	0:ac1725ba162c	172	#define MIN_SIZE_ALIGNED LWIP_MEM_ALIGN_SIZE(MIN_SIZE)
segundo	0:ac1725ba162c	173	#define SIZEOF_STRUCT_MEM LWIP_MEM_ALIGN_SIZE(sizeof(struct mem))
segundo	0:ac1725ba162c	174	#define MEM_SIZE_ALIGNED LWIP_MEM_ALIGN_SIZE(MEM_SIZE)
segundo	0:ac1725ba162c	175
segundo	0:ac1725ba162c	176	/** If you want to relocate the heap to external memory, simply define
segundo	0:ac1725ba162c	177	* LWIP_RAM_HEAP_POINTER as a void-pointer to that location.
segundo	0:ac1725ba162c	178	* If so, make sure the memory at that location is big enough (see below on
segundo	0:ac1725ba162c	179	* how that space is calculated). */
segundo	0:ac1725ba162c	180	#ifndef LWIP_RAM_HEAP_POINTER
segundo	0:ac1725ba162c	181	/** the heap. we need one struct mem at the end and some room for alignment */
segundo	0:ac1725ba162c	182	u8_t ram_heap[MEM_SIZE_ALIGNED + (2*SIZEOF_STRUCT_MEM) + MEM_ALIGNMENT] MEM_POSITION;
segundo	0:ac1725ba162c	183	#define LWIP_RAM_HEAP_POINTER ram_heap
segundo	0:ac1725ba162c	184	#endif /* LWIP_RAM_HEAP_POINTER */
segundo	0:ac1725ba162c	185
segundo	0:ac1725ba162c	186	/** pointer to the heap (ram_heap): for alignment, ram is now a pointer instead of an array */
segundo	0:ac1725ba162c	187	static u8_t *ram;
segundo	0:ac1725ba162c	188	/** the last entry, always unused! */
segundo	0:ac1725ba162c	189	static struct mem *ram_end;
segundo	0:ac1725ba162c	190	/** pointer to the lowest free block, this is used for faster search */
segundo	0:ac1725ba162c	191	static struct mem *lfree;
segundo	0:ac1725ba162c	192
segundo	0:ac1725ba162c	193	/** concurrent access protection */
segundo	0:ac1725ba162c	194	static sys_mutex_t mem_mutex;
segundo	0:ac1725ba162c	195
segundo	0:ac1725ba162c	196	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	197
segundo	0:ac1725ba162c	198	static volatile u8_t mem_free_count;
segundo	0:ac1725ba162c	199
segundo	0:ac1725ba162c	200	/* Allow mem_free from other (e.g. interrupt) context */
segundo	0:ac1725ba162c	201	#define LWIP_MEM_FREE_DECL_PROTECT() SYS_ARCH_DECL_PROTECT(lev_free)
segundo	0:ac1725ba162c	202	#define LWIP_MEM_FREE_PROTECT() SYS_ARCH_PROTECT(lev_free)
segundo	0:ac1725ba162c	203	#define LWIP_MEM_FREE_UNPROTECT() SYS_ARCH_UNPROTECT(lev_free)
segundo	0:ac1725ba162c	204	#define LWIP_MEM_ALLOC_DECL_PROTECT() SYS_ARCH_DECL_PROTECT(lev_alloc)
segundo	0:ac1725ba162c	205	#define LWIP_MEM_ALLOC_PROTECT() SYS_ARCH_PROTECT(lev_alloc)
segundo	0:ac1725ba162c	206	#define LWIP_MEM_ALLOC_UNPROTECT() SYS_ARCH_UNPROTECT(lev_alloc)
segundo	0:ac1725ba162c	207
segundo	0:ac1725ba162c	208	#else /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	209
segundo	0:ac1725ba162c	210	/* Protect the heap only by using a semaphore */
segundo	0:ac1725ba162c	211	#define LWIP_MEM_FREE_DECL_PROTECT()
segundo	0:ac1725ba162c	212	#define LWIP_MEM_FREE_PROTECT() sys_mutex_lock(&mem_mutex)
segundo	0:ac1725ba162c	213	#define LWIP_MEM_FREE_UNPROTECT() sys_mutex_unlock(&mem_mutex)
segundo	0:ac1725ba162c	214	/* mem_malloc is protected using semaphore AND LWIP_MEM_ALLOC_PROTECT */
segundo	0:ac1725ba162c	215	#define LWIP_MEM_ALLOC_DECL_PROTECT()
segundo	0:ac1725ba162c	216	#define LWIP_MEM_ALLOC_PROTECT()
segundo	0:ac1725ba162c	217	#define LWIP_MEM_ALLOC_UNPROTECT()
segundo	0:ac1725ba162c	218
segundo	0:ac1725ba162c	219	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	220
segundo	0:ac1725ba162c	221
segundo	0:ac1725ba162c	222	/**
segundo	0:ac1725ba162c	223	* "Plug holes" by combining adjacent empty struct mems.
segundo	0:ac1725ba162c	224	* After this function is through, there should not exist
segundo	0:ac1725ba162c	225	* one empty struct mem pointing to another empty struct mem.
segundo	0:ac1725ba162c	226	*
segundo	0:ac1725ba162c	227	* @param mem this points to a struct mem which just has been freed
segundo	0:ac1725ba162c	228	* @internal this function is only called by mem_free() and mem_trim()
segundo	0:ac1725ba162c	229	*
segundo	0:ac1725ba162c	230	* This assumes access to the heap is protected by the calling function
segundo	0:ac1725ba162c	231	* already.
segundo	0:ac1725ba162c	232	*/
segundo	0:ac1725ba162c	233	static void
segundo	0:ac1725ba162c	234	plug_holes(struct mem *mem)
segundo	0:ac1725ba162c	235	{
segundo	0:ac1725ba162c	236	struct mem *nmem;
segundo	0:ac1725ba162c	237	struct mem *pmem;
segundo	0:ac1725ba162c	238
segundo	0:ac1725ba162c	239	LWIP_ASSERT("plug_holes: mem >= ram", (u8_t *)mem >= ram);
segundo	0:ac1725ba162c	240	LWIP_ASSERT("plug_holes: mem < ram_end", (u8_t )mem < (u8_t )ram_end);
segundo	0:ac1725ba162c	241	LWIP_ASSERT("plug_holes: mem->used == 0", mem->used == 0);
segundo	0:ac1725ba162c	242
segundo	0:ac1725ba162c	243	/* plug hole forward */
segundo	0:ac1725ba162c	244	LWIP_ASSERT("plug_holes: mem->next <= MEM_SIZE_ALIGNED", mem->next <= MEM_SIZE_ALIGNED);
segundo	0:ac1725ba162c	245
segundo	0:ac1725ba162c	246	nmem = (struct mem )(void )&ram[mem->next];
segundo	0:ac1725ba162c	247	if (mem != nmem && nmem->used == 0 && (u8_t )nmem != (u8_t )ram_end) {
segundo	0:ac1725ba162c	248	/* if mem->next is unused and not end of ram, combine mem and mem->next */
segundo	0:ac1725ba162c	249	if (lfree == nmem) {
segundo	0:ac1725ba162c	250	lfree = mem;
segundo	0:ac1725ba162c	251	}
segundo	0:ac1725ba162c	252	mem->next = nmem->next;
segundo	0:ac1725ba162c	253	((struct mem )(void )&ram[nmem->next])->prev = (mem_size_t)((u8_t *)mem - ram);
segundo	0:ac1725ba162c	254	}
segundo	0:ac1725ba162c	255
segundo	0:ac1725ba162c	256	/* plug hole backward */
segundo	0:ac1725ba162c	257	pmem = (struct mem )(void )&ram[mem->prev];
segundo	0:ac1725ba162c	258	if (pmem != mem && pmem->used == 0) {
segundo	0:ac1725ba162c	259	/* if mem->prev is unused, combine mem and mem->prev */
segundo	0:ac1725ba162c	260	if (lfree == mem) {
segundo	0:ac1725ba162c	261	lfree = pmem;
segundo	0:ac1725ba162c	262	}
segundo	0:ac1725ba162c	263	pmem->next = mem->next;
segundo	0:ac1725ba162c	264	((struct mem )(void )&ram[mem->next])->prev = (mem_size_t)((u8_t *)pmem - ram);
segundo	0:ac1725ba162c	265	}
segundo	0:ac1725ba162c	266	}
segundo	0:ac1725ba162c	267
segundo	0:ac1725ba162c	268	/**
segundo	0:ac1725ba162c	269	* Zero the heap and initialize start, end and lowest-free
segundo	0:ac1725ba162c	270	*/
segundo	0:ac1725ba162c	271	void
segundo	0:ac1725ba162c	272	mem_init(void)
segundo	0:ac1725ba162c	273	{
segundo	0:ac1725ba162c	274	struct mem *mem;
segundo	0:ac1725ba162c	275
segundo	0:ac1725ba162c	276	LWIP_ASSERT("Sanity check alignment",
segundo	0:ac1725ba162c	277	(SIZEOF_STRUCT_MEM & (MEM_ALIGNMENT-1)) == 0);
segundo	0:ac1725ba162c	278
segundo	0:ac1725ba162c	279	/* align the heap */
segundo	0:ac1725ba162c	280	ram = (u8_t *)LWIP_MEM_ALIGN(LWIP_RAM_HEAP_POINTER);
segundo	0:ac1725ba162c	281	/* initialize the start of the heap */
segundo	0:ac1725ba162c	282	mem = (struct mem )(void )ram;
segundo	0:ac1725ba162c	283	mem->next = MEM_SIZE_ALIGNED;
segundo	0:ac1725ba162c	284	mem->prev = 0;
segundo	0:ac1725ba162c	285	mem->used = 0;
segundo	0:ac1725ba162c	286	/* initialize the end of the heap */
segundo	0:ac1725ba162c	287	ram_end = (struct mem )(void )&ram[MEM_SIZE_ALIGNED];
segundo	0:ac1725ba162c	288	ram_end->used = 1;
segundo	0:ac1725ba162c	289	ram_end->next = MEM_SIZE_ALIGNED;
segundo	0:ac1725ba162c	290	ram_end->prev = MEM_SIZE_ALIGNED;
segundo	0:ac1725ba162c	291
segundo	0:ac1725ba162c	292	/* initialize the lowest-free pointer to the start of the heap */
segundo	0:ac1725ba162c	293	lfree = (struct mem )(void )ram;
segundo	0:ac1725ba162c	294
segundo	0:ac1725ba162c	295	MEM_STATS_AVAIL(avail, MEM_SIZE_ALIGNED);
segundo	0:ac1725ba162c	296
segundo	0:ac1725ba162c	297	if(sys_mutex_new(&mem_mutex) != ERR_OK) {
segundo	0:ac1725ba162c	298	LWIP_ASSERT("failed to create mem_mutex", 0);
segundo	0:ac1725ba162c	299	}
segundo	0:ac1725ba162c	300	}
segundo	0:ac1725ba162c	301
segundo	0:ac1725ba162c	302	/**
segundo	0:ac1725ba162c	303	* Put a struct mem back on the heap
segundo	0:ac1725ba162c	304	*
segundo	0:ac1725ba162c	305	* @param rmem is the data portion of a struct mem as returned by a previous
segundo	0:ac1725ba162c	306	* call to mem_malloc()
segundo	0:ac1725ba162c	307	*/
segundo	0:ac1725ba162c	308	void
segundo	0:ac1725ba162c	309	mem_free(void *rmem)
segundo	0:ac1725ba162c	310	{
segundo	0:ac1725ba162c	311	struct mem *mem;
segundo	0:ac1725ba162c	312	LWIP_MEM_FREE_DECL_PROTECT();
segundo	0:ac1725ba162c	313
segundo	0:ac1725ba162c	314	if (rmem == NULL) {
segundo	0:ac1725ba162c	315	LWIP_DEBUGF(MEM_DEBUG \| LWIP_DBG_TRACE \| LWIP_DBG_LEVEL_SERIOUS, ("mem_free(p == NULL) was called.\n"));
segundo	0:ac1725ba162c	316	return;
segundo	0:ac1725ba162c	317	}
segundo	0:ac1725ba162c	318	LWIP_ASSERT("mem_free: sanity check alignment", (((mem_ptr_t)rmem) & (MEM_ALIGNMENT-1)) == 0);
segundo	0:ac1725ba162c	319
segundo	0:ac1725ba162c	320	LWIP_ASSERT("mem_free: legal memory", (u8_t )rmem >= (u8_t )ram &&
segundo	0:ac1725ba162c	321	(u8_t )rmem < (u8_t )ram_end);
segundo	0:ac1725ba162c	322
segundo	0:ac1725ba162c	323	if ((u8_t )rmem < (u8_t )ram \|\| (u8_t )rmem >= (u8_t )ram_end) {
segundo	0:ac1725ba162c	324	SYS_ARCH_DECL_PROTECT(lev);
segundo	0:ac1725ba162c	325	LWIP_DEBUGF(MEM_DEBUG \| LWIP_DBG_LEVEL_SEVERE, ("mem_free: illegal memory\n"));
segundo	0:ac1725ba162c	326	/* protect mem stats from concurrent access */
segundo	0:ac1725ba162c	327	SYS_ARCH_PROTECT(lev);
segundo	0:ac1725ba162c	328	MEM_STATS_INC(illegal);
segundo	0:ac1725ba162c	329	SYS_ARCH_UNPROTECT(lev);
segundo	0:ac1725ba162c	330	return;
segundo	0:ac1725ba162c	331	}
segundo	0:ac1725ba162c	332	/* protect the heap from concurrent access */
segundo	0:ac1725ba162c	333	LWIP_MEM_FREE_PROTECT();
segundo	0:ac1725ba162c	334	/* Get the corresponding struct mem ... */
segundo	0:ac1725ba162c	335	mem = (struct mem )(void )((u8_t *)rmem - SIZEOF_STRUCT_MEM);
segundo	0:ac1725ba162c	336	/* ... which has to be in a used state ... */
segundo	0:ac1725ba162c	337	LWIP_ASSERT("mem_free: mem->used", mem->used);
segundo	0:ac1725ba162c	338	/* ... and is now unused. */
segundo	0:ac1725ba162c	339	mem->used = 0;
segundo	0:ac1725ba162c	340
segundo	0:ac1725ba162c	341	if (mem < lfree) {
segundo	0:ac1725ba162c	342	/* the newly freed struct is now the lowest */
segundo	0:ac1725ba162c	343	lfree = mem;
segundo	0:ac1725ba162c	344	}
segundo	0:ac1725ba162c	345
segundo	0:ac1725ba162c	346	MEM_STATS_DEC_USED(used, mem->next - (mem_size_t)(((u8_t *)mem - ram)));
segundo	0:ac1725ba162c	347
segundo	0:ac1725ba162c	348	/* finally, see if prev or next are free also */
segundo	0:ac1725ba162c	349	plug_holes(mem);
segundo	0:ac1725ba162c	350	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	351	mem_free_count = 1;
segundo	0:ac1725ba162c	352	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	353	LWIP_MEM_FREE_UNPROTECT();
segundo	0:ac1725ba162c	354	}
segundo	0:ac1725ba162c	355
segundo	0:ac1725ba162c	356	/**
segundo	0:ac1725ba162c	357	* Shrink memory returned by mem_malloc().
segundo	0:ac1725ba162c	358	*
segundo	0:ac1725ba162c	359	* @param rmem pointer to memory allocated by mem_malloc the is to be shrinked
segundo	0:ac1725ba162c	360	* @param newsize required size after shrinking (needs to be smaller than or
segundo	0:ac1725ba162c	361	* equal to the previous size)
segundo	0:ac1725ba162c	362	* @return for compatibility reasons: is always == rmem, at the moment
segundo	0:ac1725ba162c	363	* or NULL if newsize is > old size, in which case rmem is NOT touched
segundo	0:ac1725ba162c	364	* or freed!
segundo	0:ac1725ba162c	365	*/
segundo	0:ac1725ba162c	366	void *
segundo	0:ac1725ba162c	367	mem_trim(void *rmem, mem_size_t newsize)
segundo	0:ac1725ba162c	368	{
segundo	0:ac1725ba162c	369	mem_size_t size;
segundo	0:ac1725ba162c	370	mem_size_t ptr, ptr2;
segundo	0:ac1725ba162c	371	struct mem mem, mem2;
segundo	0:ac1725ba162c	372	/* use the FREE_PROTECT here: it protects with sem OR SYS_ARCH_PROTECT */
segundo	0:ac1725ba162c	373	LWIP_MEM_FREE_DECL_PROTECT();
segundo	0:ac1725ba162c	374
segundo	0:ac1725ba162c	375	/* Expand the size of the allocated memory region so that we can
segundo	0:ac1725ba162c	376	adjust for alignment. */
segundo	0:ac1725ba162c	377	newsize = LWIP_MEM_ALIGN_SIZE(newsize);
segundo	0:ac1725ba162c	378
segundo	0:ac1725ba162c	379	if(newsize < MIN_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	380	/* every data block must be at least MIN_SIZE_ALIGNED long */
segundo	0:ac1725ba162c	381	newsize = MIN_SIZE_ALIGNED;
segundo	0:ac1725ba162c	382	}
segundo	0:ac1725ba162c	383
segundo	0:ac1725ba162c	384	if (newsize > MEM_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	385	return NULL;
segundo	0:ac1725ba162c	386	}
segundo	0:ac1725ba162c	387
segundo	0:ac1725ba162c	388	LWIP_ASSERT("mem_trim: legal memory", (u8_t )rmem >= (u8_t )ram &&
segundo	0:ac1725ba162c	389	(u8_t )rmem < (u8_t )ram_end);
segundo	0:ac1725ba162c	390
segundo	0:ac1725ba162c	391	if ((u8_t )rmem < (u8_t )ram \|\| (u8_t )rmem >= (u8_t )ram_end) {
segundo	0:ac1725ba162c	392	SYS_ARCH_DECL_PROTECT(lev);
segundo	0:ac1725ba162c	393	LWIP_DEBUGF(MEM_DEBUG \| LWIP_DBG_LEVEL_SEVERE, ("mem_trim: illegal memory\n"));
segundo	0:ac1725ba162c	394	/* protect mem stats from concurrent access */
segundo	0:ac1725ba162c	395	SYS_ARCH_PROTECT(lev);
segundo	0:ac1725ba162c	396	MEM_STATS_INC(illegal);
segundo	0:ac1725ba162c	397	SYS_ARCH_UNPROTECT(lev);
segundo	0:ac1725ba162c	398	return rmem;
segundo	0:ac1725ba162c	399	}
segundo	0:ac1725ba162c	400	/* Get the corresponding struct mem ... */
segundo	0:ac1725ba162c	401	mem = (struct mem )(void )((u8_t *)rmem - SIZEOF_STRUCT_MEM);
segundo	0:ac1725ba162c	402	/* ... and its offset pointer */
segundo	0:ac1725ba162c	403	ptr = (mem_size_t)((u8_t *)mem - ram);
segundo	0:ac1725ba162c	404
segundo	0:ac1725ba162c	405	size = mem->next - ptr - SIZEOF_STRUCT_MEM;
segundo	0:ac1725ba162c	406	LWIP_ASSERT("mem_trim can only shrink memory", newsize <= size);
segundo	0:ac1725ba162c	407	if (newsize > size) {
segundo	0:ac1725ba162c	408	/* not supported */
segundo	0:ac1725ba162c	409	return NULL;
segundo	0:ac1725ba162c	410	}
segundo	0:ac1725ba162c	411	if (newsize == size) {
segundo	0:ac1725ba162c	412	/* No change in size, simply return */
segundo	0:ac1725ba162c	413	return rmem;
segundo	0:ac1725ba162c	414	}
segundo	0:ac1725ba162c	415
segundo	0:ac1725ba162c	416	/* protect the heap from concurrent access */
segundo	0:ac1725ba162c	417	LWIP_MEM_FREE_PROTECT();
segundo	0:ac1725ba162c	418
segundo	0:ac1725ba162c	419	mem2 = (struct mem )(void )&ram[mem->next];
segundo	0:ac1725ba162c	420	if(mem2->used == 0) {
segundo	0:ac1725ba162c	421	/* The next struct is unused, we can simply move it at little */
segundo	0:ac1725ba162c	422	mem_size_t next;
segundo	0:ac1725ba162c	423	/* remember the old next pointer */
segundo	0:ac1725ba162c	424	next = mem2->next;
segundo	0:ac1725ba162c	425	/* create new struct mem which is moved directly after the shrinked mem */
segundo	0:ac1725ba162c	426	ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
segundo	0:ac1725ba162c	427	if (lfree == mem2) {
segundo	0:ac1725ba162c	428	lfree = (struct mem )(void )&ram[ptr2];
segundo	0:ac1725ba162c	429	}
segundo	0:ac1725ba162c	430	mem2 = (struct mem )(void )&ram[ptr2];
segundo	0:ac1725ba162c	431	mem2->used = 0;
segundo	0:ac1725ba162c	432	/* restore the next pointer */
segundo	0:ac1725ba162c	433	mem2->next = next;
segundo	0:ac1725ba162c	434	/* link it back to mem */
segundo	0:ac1725ba162c	435	mem2->prev = ptr;
segundo	0:ac1725ba162c	436	/* link mem to it */
segundo	0:ac1725ba162c	437	mem->next = ptr2;
segundo	0:ac1725ba162c	438	/* last thing to restore linked list: as we have moved mem2,
segundo	0:ac1725ba162c	439	* let 'mem2->next->prev' point to mem2 again. but only if mem2->next is not
segundo	0:ac1725ba162c	440	* the end of the heap */
segundo	0:ac1725ba162c	441	if (mem2->next != MEM_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	442	((struct mem )(void )&ram[mem2->next])->prev = ptr2;
segundo	0:ac1725ba162c	443	}
segundo	0:ac1725ba162c	444	MEM_STATS_DEC_USED(used, (size - newsize));
segundo	0:ac1725ba162c	445	/* no need to plug holes, we've already done that */
segundo	0:ac1725ba162c	446	} else if (newsize + SIZEOF_STRUCT_MEM + MIN_SIZE_ALIGNED <= size) {
segundo	0:ac1725ba162c	447	/* Next struct is used but there's room for another struct mem with
segundo	0:ac1725ba162c	448	* at least MIN_SIZE_ALIGNED of data.
segundo	0:ac1725ba162c	449	* Old size ('size') must be big enough to contain at least 'newsize' plus a struct mem
segundo	0:ac1725ba162c	450	* ('SIZEOF_STRUCT_MEM') with some data ('MIN_SIZE_ALIGNED').
segundo	0:ac1725ba162c	451	* @todo we could leave out MIN_SIZE_ALIGNED. We would create an empty
segundo	0:ac1725ba162c	452	* region that couldn't hold data, but when mem->next gets freed,
segundo	0:ac1725ba162c	453	* the 2 regions would be combined, resulting in more free memory */
segundo	0:ac1725ba162c	454	ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
segundo	0:ac1725ba162c	455	mem2 = (struct mem )(void )&ram[ptr2];
segundo	0:ac1725ba162c	456	if (mem2 < lfree) {
segundo	0:ac1725ba162c	457	lfree = mem2;
segundo	0:ac1725ba162c	458	}
segundo	0:ac1725ba162c	459	mem2->used = 0;
segundo	0:ac1725ba162c	460	mem2->next = mem->next;
segundo	0:ac1725ba162c	461	mem2->prev = ptr;
segundo	0:ac1725ba162c	462	mem->next = ptr2;
segundo	0:ac1725ba162c	463	if (mem2->next != MEM_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	464	((struct mem )(void )&ram[mem2->next])->prev = ptr2;
segundo	0:ac1725ba162c	465	}
segundo	0:ac1725ba162c	466	MEM_STATS_DEC_USED(used, (size - newsize));
segundo	0:ac1725ba162c	467	/* the original mem->next is used, so no need to plug holes! */
segundo	0:ac1725ba162c	468	}
segundo	0:ac1725ba162c	469	/* else {
segundo	0:ac1725ba162c	470	next struct mem is used but size between mem and mem2 is not big enough
segundo	0:ac1725ba162c	471	to create another struct mem
segundo	0:ac1725ba162c	472	-> don't do anyhting.
segundo	0:ac1725ba162c	473	-> the remaining space stays unused since it is too small
segundo	0:ac1725ba162c	474	} */
segundo	0:ac1725ba162c	475	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	476	mem_free_count = 1;
segundo	0:ac1725ba162c	477	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	478	LWIP_MEM_FREE_UNPROTECT();
segundo	0:ac1725ba162c	479	return rmem;
segundo	0:ac1725ba162c	480	}
segundo	0:ac1725ba162c	481
segundo	0:ac1725ba162c	482	/**
segundo	0:ac1725ba162c	483	* Adam's mem_malloc() plus solution for bug #17922
segundo	0:ac1725ba162c	484	* Allocate a block of memory with a minimum of 'size' bytes.
segundo	0:ac1725ba162c	485	*
segundo	0:ac1725ba162c	486	* @param size is the minimum size of the requested block in bytes.
segundo	0:ac1725ba162c	487	* @return pointer to allocated memory or NULL if no free memory was found.
segundo	0:ac1725ba162c	488	*
segundo	0:ac1725ba162c	489	* Note that the returned value will always be aligned (as defined by MEM_ALIGNMENT).
segundo	0:ac1725ba162c	490	*/
segundo	0:ac1725ba162c	491	void *
segundo	0:ac1725ba162c	492	mem_malloc(mem_size_t size)
segundo	0:ac1725ba162c	493	{
segundo	0:ac1725ba162c	494	mem_size_t ptr, ptr2;
segundo	0:ac1725ba162c	495	struct mem mem, mem2;
segundo	0:ac1725ba162c	496	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	497	u8_t local_mem_free_count = 0;
segundo	0:ac1725ba162c	498	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	499	LWIP_MEM_ALLOC_DECL_PROTECT();
segundo	0:ac1725ba162c	500
segundo	0:ac1725ba162c	501	if (size == 0) {
segundo	0:ac1725ba162c	502	return NULL;
segundo	0:ac1725ba162c	503	}
segundo	0:ac1725ba162c	504
segundo	0:ac1725ba162c	505	/* Expand the size of the allocated memory region so that we can
segundo	0:ac1725ba162c	506	adjust for alignment. */
segundo	0:ac1725ba162c	507	size = LWIP_MEM_ALIGN_SIZE(size);
segundo	0:ac1725ba162c	508
segundo	0:ac1725ba162c	509	if(size < MIN_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	510	/* every data block must be at least MIN_SIZE_ALIGNED long */
segundo	0:ac1725ba162c	511	size = MIN_SIZE_ALIGNED;
segundo	0:ac1725ba162c	512	}
segundo	0:ac1725ba162c	513
segundo	0:ac1725ba162c	514	if (size > MEM_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	515	return NULL;
segundo	0:ac1725ba162c	516	}
segundo	0:ac1725ba162c	517
segundo	0:ac1725ba162c	518	/* protect the heap from concurrent access */
segundo	0:ac1725ba162c	519	sys_mutex_lock(&mem_mutex);
segundo	0:ac1725ba162c	520	LWIP_MEM_ALLOC_PROTECT();
segundo	0:ac1725ba162c	521	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	522	/* run as long as a mem_free disturbed mem_malloc */
segundo	0:ac1725ba162c	523	do {
segundo	0:ac1725ba162c	524	local_mem_free_count = 0;
segundo	0:ac1725ba162c	525	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	526
segundo	0:ac1725ba162c	527	/* Scan through the heap searching for a free block that is big enough,
segundo	0:ac1725ba162c	528	* beginning with the lowest free block.
segundo	0:ac1725ba162c	529	*/
segundo	0:ac1725ba162c	530	for (ptr = (mem_size_t)((u8_t *)lfree - ram); ptr < MEM_SIZE_ALIGNED - size;
segundo	0:ac1725ba162c	531	ptr = ((struct mem )(void )&ram[ptr])->next) {
segundo	0:ac1725ba162c	532	mem = (struct mem )(void )&ram[ptr];
segundo	0:ac1725ba162c	533	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	534	mem_free_count = 0;
segundo	0:ac1725ba162c	535	LWIP_MEM_ALLOC_UNPROTECT();
segundo	0:ac1725ba162c	536	/* allow mem_free to run */
segundo	0:ac1725ba162c	537	LWIP_MEM_ALLOC_PROTECT();
segundo	0:ac1725ba162c	538	if (mem_free_count != 0) {
segundo	0:ac1725ba162c	539	local_mem_free_count = mem_free_count;
segundo	0:ac1725ba162c	540	}
segundo	0:ac1725ba162c	541	mem_free_count = 0;
segundo	0:ac1725ba162c	542	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	543
segundo	0:ac1725ba162c	544	if ((!mem->used) &&
segundo	0:ac1725ba162c	545	(mem->next - (ptr + SIZEOF_STRUCT_MEM)) >= size) {
segundo	0:ac1725ba162c	546	/* mem is not used and at least perfect fit is possible:
segundo	0:ac1725ba162c	547	* mem->next - (ptr + SIZEOF_STRUCT_MEM) gives us the 'user data size' of mem */
segundo	0:ac1725ba162c	548
segundo	0:ac1725ba162c	549	if (mem->next - (ptr + SIZEOF_STRUCT_MEM) >= (size + SIZEOF_STRUCT_MEM + MIN_SIZE_ALIGNED)) {
segundo	0:ac1725ba162c	550	/* (in addition to the above, we test if another struct mem (SIZEOF_STRUCT_MEM) containing
segundo	0:ac1725ba162c	551	* at least MIN_SIZE_ALIGNED of data also fits in the 'user data space' of 'mem')
segundo	0:ac1725ba162c	552	* -> split large block, create empty remainder,
segundo	0:ac1725ba162c	553	* remainder must be large enough to contain MIN_SIZE_ALIGNED data: if
segundo	0:ac1725ba162c	554	* mem->next - (ptr + (2*SIZEOF_STRUCT_MEM)) == size,
segundo	0:ac1725ba162c	555	* struct mem would fit in but no data between mem2 and mem2->next
segundo	0:ac1725ba162c	556	* @todo we could leave out MIN_SIZE_ALIGNED. We would create an empty
segundo	0:ac1725ba162c	557	* region that couldn't hold data, but when mem->next gets freed,
segundo	0:ac1725ba162c	558	* the 2 regions would be combined, resulting in more free memory
segundo	0:ac1725ba162c	559	*/
segundo	0:ac1725ba162c	560	ptr2 = ptr + SIZEOF_STRUCT_MEM + size;
segundo	0:ac1725ba162c	561	/* create mem2 struct */
segundo	0:ac1725ba162c	562	mem2 = (struct mem )(void )&ram[ptr2];
segundo	0:ac1725ba162c	563	mem2->used = 0;
segundo	0:ac1725ba162c	564	mem2->next = mem->next;
segundo	0:ac1725ba162c	565	mem2->prev = ptr;
segundo	0:ac1725ba162c	566	/* and insert it between mem and mem->next */
segundo	0:ac1725ba162c	567	mem->next = ptr2;
segundo	0:ac1725ba162c	568	mem->used = 1;
segundo	0:ac1725ba162c	569
segundo	0:ac1725ba162c	570	if (mem2->next != MEM_SIZE_ALIGNED) {
segundo	0:ac1725ba162c	571	((struct mem )(void )&ram[mem2->next])->prev = ptr2;
segundo	0:ac1725ba162c	572	}
segundo	0:ac1725ba162c	573	MEM_STATS_INC_USED(used, (size + SIZEOF_STRUCT_MEM));
segundo	0:ac1725ba162c	574	} else {
segundo	0:ac1725ba162c	575	/* (a mem2 struct does no fit into the user data space of mem and mem->next will always
segundo	0:ac1725ba162c	576	* be used at this point: if not we have 2 unused structs in a row, plug_holes should have
segundo	0:ac1725ba162c	577	* take care of this).
segundo	0:ac1725ba162c	578	* -> near fit or excact fit: do not split, no mem2 creation
segundo	0:ac1725ba162c	579	* also can't move mem->next directly behind mem, since mem->next
segundo	0:ac1725ba162c	580	* will always be used at this point!
segundo	0:ac1725ba162c	581	*/
segundo	0:ac1725ba162c	582	mem->used = 1;
segundo	0:ac1725ba162c	583	MEM_STATS_INC_USED(used, mem->next - (mem_size_t)((u8_t *)mem - ram));
segundo	0:ac1725ba162c	584	}
segundo	0:ac1725ba162c	585
segundo	0:ac1725ba162c	586	if (mem == lfree) {
segundo	0:ac1725ba162c	587	/* Find next free block after mem and update lowest free pointer */
segundo	0:ac1725ba162c	588	while (lfree->used && lfree != ram_end) {
segundo	0:ac1725ba162c	589	LWIP_MEM_ALLOC_UNPROTECT();
segundo	0:ac1725ba162c	590	/* prevent high interrupt latency... */
segundo	0:ac1725ba162c	591	LWIP_MEM_ALLOC_PROTECT();
segundo	0:ac1725ba162c	592	lfree = (struct mem )(void )&ram[lfree->next];
segundo	0:ac1725ba162c	593	}
segundo	0:ac1725ba162c	594	LWIP_ASSERT("mem_malloc: !lfree->used", ((lfree == ram_end) \|\| (!lfree->used)));
segundo	0:ac1725ba162c	595	}
segundo	0:ac1725ba162c	596	LWIP_MEM_ALLOC_UNPROTECT();
segundo	0:ac1725ba162c	597	sys_mutex_unlock(&mem_mutex);
segundo	0:ac1725ba162c	598	LWIP_ASSERT("mem_malloc: allocated memory not above ram_end.",
segundo	0:ac1725ba162c	599	(mem_ptr_t)mem + SIZEOF_STRUCT_MEM + size <= (mem_ptr_t)ram_end);
segundo	0:ac1725ba162c	600	LWIP_ASSERT("mem_malloc: allocated memory properly aligned.",
segundo	0:ac1725ba162c	601	((mem_ptr_t)mem + SIZEOF_STRUCT_MEM) % MEM_ALIGNMENT == 0);
segundo	0:ac1725ba162c	602	LWIP_ASSERT("mem_malloc: sanity check alignment",
segundo	0:ac1725ba162c	603	(((mem_ptr_t)mem) & (MEM_ALIGNMENT-1)) == 0);
segundo	0:ac1725ba162c	604
segundo	0:ac1725ba162c	605	return (u8_t *)mem + SIZEOF_STRUCT_MEM;
segundo	0:ac1725ba162c	606	}
segundo	0:ac1725ba162c	607	}
segundo	0:ac1725ba162c	608	#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
segundo	0:ac1725ba162c	609	/* if we got interrupted by a mem_free, try again */
segundo	0:ac1725ba162c	610	} while(local_mem_free_count != 0);
segundo	0:ac1725ba162c	611	#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
segundo	0:ac1725ba162c	612	LWIP_DEBUGF(MEM_DEBUG \| LWIP_DBG_LEVEL_SERIOUS, ("mem_malloc: could not allocate %"S16_F" bytes\n", (s16_t)size));
segundo	0:ac1725ba162c	613	MEM_STATS_INC(err);
segundo	0:ac1725ba162c	614	LWIP_MEM_ALLOC_UNPROTECT();
segundo	0:ac1725ba162c	615	sys_mutex_unlock(&mem_mutex);
segundo	0:ac1725ba162c	616	return NULL;
segundo	0:ac1725ba162c	617	}
segundo	0:ac1725ba162c	618
segundo	0:ac1725ba162c	619	#endif /* MEM_USE_POOLS */
segundo	0:ac1725ba162c	620	/**
segundo	0:ac1725ba162c	621	* Contiguously allocates enough space for count objects that are size bytes
segundo	0:ac1725ba162c	622	* of memory each and returns a pointer to the allocated memory.
segundo	0:ac1725ba162c	623	*
segundo	0:ac1725ba162c	624	* The allocated memory is filled with bytes of value zero.
segundo	0:ac1725ba162c	625	*
segundo	0:ac1725ba162c	626	* @param count number of objects to allocate
segundo	0:ac1725ba162c	627	* @param size size of the objects to allocate
segundo	0:ac1725ba162c	628	* @return pointer to allocated memory / NULL pointer if there is an error
segundo	0:ac1725ba162c	629	*/
segundo	0:ac1725ba162c	630	void *mem_calloc(mem_size_t count, mem_size_t size)
segundo	0:ac1725ba162c	631	{
segundo	0:ac1725ba162c	632	void *p;
segundo	0:ac1725ba162c	633
segundo	0:ac1725ba162c	634	/* allocate 'count' objects of size 'size' */
segundo	0:ac1725ba162c	635	p = mem_malloc(count * size);
segundo	0:ac1725ba162c	636	if (p) {
segundo	0:ac1725ba162c	637	/* zero the memory */
segundo	0:ac1725ba162c	638	memset(p, 0, count * size);
segundo	0:ac1725ba162c	639	}
segundo	0:ac1725ba162c	640	return p;
segundo	0:ac1725ba162c	641	}
segundo	0:ac1725ba162c	642
segundo	0:ac1725ba162c	643	#endif /* !MEM_LIBC_MALLOC */

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Type:	Library
Created:	09 Nov 2010
Imports:	3034
Forks:	1
Commits:	8
Dependents:	42
Dependencies:	0
Followers:	27

lwip/core/mem.c@7:4e2468d7d5cb, 2010-12-15 (annotated)

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