上文主要介绍了邮箱管理相关的函数,本文介绍内存管理相关的函数:OSMemCreate()内存块创建函数,OSMemGet()函数,OSMemPut()函数,OSMemQuery()函数.以前用过的uC/OS-II笔记分享到这里。
内存管理介绍
在ANSI C中可以用malloc()和free()两个函数动态地分配内存和释放内存。但是,在嵌入式实时操作系统中,多次这样做会把原来很大的一块连续内存区域,逐渐地分割成许多非常小而且彼此又不相邻的内存区域,也就是内存碎片。由于这些碎片的大量存在,使得程序到后来连非常小的内存也分配不到。另外,由于内存管理算法的原因,malloc()和free()函数执行时间是不确定的。
在μC/OS-II中,操作系统把连续的大块内存按分区来管理。每个分区中包含有整数个大小相同的内存块。利用这种机制,μC/OS-II 对malloc()和free()函数进行了改进,使得它们可以分配和释放固定大小的内存块。这样一来,malloc()和free()函数的执行时间也是固定的了。
在一个系统中可以有多个内存分区。这样,用户的应用程序就可以从不同的内存分区中得到不同大小的内存块。但是,特定的内存块在释放时必须重新放回它以前所属于的内存分区。显然,采用这样的内存管理算法,上面的内存碎片问题就得到了解决。
为了便于内存的管理,在μC/OS-II中使用内存控制块(memory control blocks)的数据结构来跟踪每一个内存分区,系统中的每个内存分区都有它自己的内存控制块。
内存控制块的定义如下:
typedef struct {
void *OSMemAddr; //指向内存分区起始地址的指针
void *OSMemFreeList; //是指向下一个空闲内存控制块或者下一个空闲的内存块的指针
INT32U OSMemBlkSize; //是内存分区中内存块的大小
INT32U OSMemNBlks; //内存分区中总的内存块数量
INT32U OSMemNFree; //内存分区中当前可以得空闲内存块数量
} OS_MEM;
如果要在μC/OS-II中使用内存管理,需要在OS_CFG.H文件中将开关量OS_MEM_EN设置为1。这样μC/OS-II 在启动时就会对内存管理器进行初始化[由OSInit()调用OSMemInit()实现]。常数OS_MAX_MEM_PART(见文件OS_CFG.H)定义了最大的内存分区数,该常数值最小应为2。
注意的事项
使用内存管理模块需要做的工作还有:
1.打开配置文件OS_CFG.H,将开关量OS_MEM_EN设置为1:
#define OS_MEM_EN 0
2.打开配置文件OS_CFG.H,设置系统要建立的任务分区的数量:
#define OS_MAX_MEM_PART 2
OSMemCreate()内存块创建函数
1 主要作用: 该函数建立并初始化一个用于动态内存分配的区域,该内存区域包含指定数目的、大小确定的内存块。应用可以动态申请这些内存块并在用完后将其释放回这个内存区域。该函数的返回值就是指向这个内存区域控制块的指针,并作为OSMemGet(),OSMemPut(),OSMemQuery() 等相关调用的参数。
2函数原型:OS_MEM *OSMemCreate( void *addr, INT32U nblks, INT32U blksize, INT8U *err );
3参数说明:addr 建立的内存区域的起始地址。可以使用静态数组或在系统初始化时使用 malloc() 函数来分配这个区域的空间。
nblks 内存块的数目。每一个内存区域最少需要定义两个内存块。
blksize 每个内存块的大小,最小应该能够容纳一个指针变量。
err 是指向包含错误码的变量的指针。Err可能是如下几种情况:
OS_NO_ERR :成功建立内存区域。
OS_MEM_INVALID_ADDR :非法地址,即地址为空指针。
OS_MEM_INVALID_PART :没有空闲的内存区域。
OS_MEM_INVALID_BLKS :没有为内存区域建立至少两个内存块。
OS_MEM_INVALID_SIZE :内存块大小不足以容纳一个指针变量。
5、函数主体在os_men.c中
4返回值说明:
OSMemCreate() 函数返回指向所创建的内存区域控制块的指针。如果创建失败,函数返回空指针。
OSMemGet()函数
1 主要作用: 该函数用于从内存区域分配一个内存块。用户程序必须知道所建立的内存块的大小,并必须在使用完内存块后释放它。可以多次调用 OSMemGet() 函数。它的返回值就是指向所分配内存块的指针,并作为 OSMemPut() 函数的参数。
2函数原型:void *OSMemGet(OS_MEM *pmem, INT8U *err);
3参数说明:pmem 是指向内存区域控制块的指针,可以从 OSMemCreate() 函数的返回值中得到。
err 是指向包含错误码的变量的指针。Err可能是如下情况:
OS_NO_ERR :成功得到一个内存块。
OS_MEM_NO_FREE_BLKS :内存区域中已经没有足够的内存块。
4返回值说明:
OSMemGet() 函数返回指向所分配内存块的指针。如果没有可分配的内存块,OSMemGet() 函数返回空指针。
5、函数主体在os_men.c中
OSMemPut()
1 主要作用:该函数用于释放一个内存块,内存块必须释放回它原先所在的内存区域,否则会造成系统错误。
2函数原型:INT8U OSMemPut (OS_MEM *pmem, void *pblk);
3参数说明:pmem 是指向内存区域控制块的指针,可以从 OSMemCreate() 函数的返回值中得到。
pblk 是指向将被释放的内存块的指针。
4返回值说明:
OSMemPut() 函数的返回值为下述之一:
OS_NO_ERR :成功释放内存块
OS_MEM_FULL :内存区域已满,不能再接受更多释放的内存块。这种情况说明用户程序出现了错误,释放了多于用 OSMemGet() 函数得到的内存块。
5、函数主体在os_men.c中
OSMemQuery()
1 主要作用:该函数用于得到内存区域的信息。
2函数原型:INT8U OSMemQuery(OS_MEM *pmem, OS_MEM_DATA pdata);
3参数说明:pmem 是指向内存区域控制块的指针,可以从 OSMemCreate() 函数的返回值中得到。
pdata 是一个指向 OS_MEM_DATA 数据结构的指针,该数据结构包含了以下的域:
void OSAddr; / 指向内存区域起始地址的指针 /
void OSFreeList; / 指向空闲内存块列表起始地址的指针 /
INT32U OSBlkSize; / 每个内存块的大小 /
INT32U OSNBlks; / 该内存区域中的内存块总数 /
INT32U OSNFree; / 空闲的内存块数目 /
INT32U OSNUsed; / 已使用的内存块数目 */
4返回值说明:函数返回值总是OS_NO_ERR。
5、函数主体在os_men.c中
附os_men.c代码
/*
*********************************************************************************************************
* uC/OS-II
* The Real-Time Kernel
* MEMORY MANAGEMENT
*
* (c) Copyright 1992-2013, Micrium, Weston, FL
* All Rights Reserved
*
* File : OS_MEM.C
* By : Jean J. Labrosse
* Version : V2.92.08
*
* LICENSING TERMS:
* ---------------
* uC/OS-II is provided in source form for FREE evaluation, for educational use or for peaceful research.
* If you plan on using uC/OS-II in a commercial product you need to contact Micrium to properly license
* its use in your product. We provide ALL the source code for your convenience and to help you experience
* uC/OS-II. The fact that the source is provided does NOT mean that you can use it without paying a
* licensing fee.
*********************************************************************************************************
*/#define MICRIUM_SOURCE#ifndef OS_MASTER_FILE
#include <ucos_ii.h>
#endif#if (OS_MEM_EN > 0u) && (OS_MAX_MEM_PART > 0u)
/*
*********************************************************************************************************
* CREATE A MEMORY PARTITION
*
* Description : Create a fixed-sized memory partition that will be managed by uC/OS-II.
*
* Arguments : addr is the starting address of the memory partition
*
* nblks is the number of memory blocks to create from the partition.
*
* blksize is the size (in bytes) of each block in the memory partition.
*
* perr is a pointer to a variable containing an error message which will be set by
* this function to either:
*
* OS_ERR_NONE if the memory partition has been created correctly.
* OS_ERR_MEM_INVALID_ADDR if you are specifying an invalid address for the memory
* storage of the partition or, the block does not align
* on a pointer boundary
* OS_ERR_MEM_INVALID_PART no free partitions available
* OS_ERR_MEM_INVALID_BLKS user specified an invalid number of blocks (must be >= 2)
* OS_ERR_MEM_INVALID_SIZE user specified an invalid block size
* - must be greater than the size of a pointer
* - must be able to hold an integral number of pointers
* Returns : != (OS_MEM *)0 is the partition was created
* == (OS_MEM *)0 if the partition was not created because of invalid arguments or, no
* free partition is available.
*********************************************************************************************************
*/OS_MEM *OSMemCreate (void *addr,
INT32U nblks,
INT32U blksize,
INT8U *perr)
{
OS_MEM *pmem;
INT8U *pblk;
void **plink;
INT32U loops;
INT32U i;
#if OS_CRITICAL_METHOD == 3u /* Allocate storage for CPU status register */
OS_CPU_SR cpu_sr = 0u;
#endif#ifdef OS_SAFETY_CRITICAL
if (perr == (INT8U *)0) {
OS_SAFETY_CRITICAL_EXCEPTION();
return ((OS_MEM *)0);
}
#endif#ifdef OS_SAFETY_CRITICAL_IEC61508
if (OSSafetyCriticalStartFlag == OS_TRUE) {
OS_SAFETY_CRITICAL_EXCEPTION();
return ((OS_MEM *)0);
}
#endif#if OS_ARG_CHK_EN > 0u
if (addr == (void *)0) { /* Must pass a valid address for the memory part.*/
*perr = OS_ERR_MEM_INVALID_ADDR;
return ((OS_MEM *)0);
}
if (((INT32U)addr & (sizeof(void *) - 1u)) != 0u){ /* Must be pointer size aligned */
*perr = OS_ERR_MEM_INVALID_ADDR;
return ((OS_MEM *)0);
}
if (nblks < 2u) { /* Must have at least 2 blocks per partition */
*perr = OS_ERR_MEM_INVALID_BLKS;
return ((OS_MEM *)0);
}
if (blksize < sizeof(void *)) { /* Must contain space for at least a pointer */
*perr = OS_ERR_MEM_INVALID_SIZE;
return ((OS_MEM *)0);
}
#endif
OS_ENTER_CRITICAL();
pmem = OSMemFreeList; /* Get next free memory partition */
if (OSMemFreeList != (OS_MEM *)0) { /* See if pool of free partitions was empty */
OSMemFreeList = (OS_MEM *)OSMemFreeList->OSMemFreeList;
}
OS_EXIT_CRITICAL();
if (pmem == (OS_MEM *)0) { /* See if we have a memory partition */
*perr = OS_ERR_MEM_INVALID_PART;
return ((OS_MEM *)0);
}
plink = (void **)addr; /* Create linked list of free memory blocks */
pblk = (INT8U *)addr;
loops = nblks - 1u;
for (i = 0u; i < loops; i++) {
pblk += blksize; /* Point to the FOLLOWING block */
*plink = (void *)pblk; /* Save pointer to NEXT block in CURRENT block */
plink = (void **)pblk; /* Position to NEXT block */
}
*plink = (void *)0; /* Last memory block points to NULL */
pmem->OSMemAddr = addr; /* Store start address of memory partition */
pmem->OSMemFreeList = addr; /* Initialize pointer to pool of free blocks */
pmem->OSMemNFree = nblks; /* Store number of free blocks in MCB */
pmem->OSMemNBlks = nblks;
pmem->OSMemBlkSize = blksize; /* Store block size of each memory blocks */
*perr = OS_ERR_NONE;
return (pmem);
}
/*$PAGE*/
/*
*********************************************************************************************************
* GET A MEMORY BLOCK
*
* Description : Get a memory block from a partition
*
* Arguments : pmem is a pointer to the memory partition control block
*
* perr is a pointer to a variable containing an error message which will be set by this
* function to either:
*
* OS_ERR_NONE if the memory partition has been created correctly.
* OS_ERR_MEM_NO_FREE_BLKS if there are no more free memory blocks to allocate to caller
* OS_ERR_MEM_INVALID_PMEM if you passed a NULL pointer for 'pmem'
*
* Returns : A pointer to a memory block if no error is detected
* A pointer to NULL if an error is detected
*********************************************************************************************************
*/void *OSMemGet (OS_MEM *pmem,
INT8U *perr)
{
void *pblk;
#if OS_CRITICAL_METHOD == 3u /* Allocate storage for CPU status register */
OS_CPU_SR cpu_sr = 0u;
#endif#ifdef OS_SAFETY_CRITICAL
if (perr == (INT8U *)0) {
OS_SAFETY_CRITICAL_EXCEPTION();
return ((void *)0);
}
#endif#if OS_ARG_CHK_EN > 0u
if (pmem == (OS_MEM *)0) { /* Must point to a valid memory partition */
*perr = OS_ERR_MEM_INVALID_PMEM;
return ((void *)0);
}
#endif
OS_ENTER_CRITICAL();
if (pmem->OSMemNFree > 0u) { /* See if there are any free memory blocks */
pblk = pmem->OSMemFreeList; /* Yes, point to next free memory block */
pmem->OSMemFreeList = *(void **)pblk; /* Adjust pointer to new free list */
pmem->OSMemNFree--; /* One less memory block in this partition */
OS_EXIT_CRITICAL();
*perr = OS_ERR_NONE; /* No error */
return (pblk); /* Return memory block to caller */
}
OS_EXIT_CRITICAL();
*perr = OS_ERR_MEM_NO_FREE_BLKS; /* No, Notify caller of empty memory partition */
return ((void *)0); /* Return NULL pointer to caller */
}
/*$PAGE*/
/*
*********************************************************************************************************
* GET THE NAME OF A MEMORY PARTITION
*
* Description: This function is used to obtain the name assigned to a memory partition.
*
* Arguments : pmem is a pointer to the memory partition
*
* pname is a pointer to a pointer to an ASCII string that will receive the name of the memory partition.
*
* perr is a pointer to an error code that can contain one of the following values:
*
* OS_ERR_NONE if the name was copied to 'pname'
* OS_ERR_MEM_INVALID_PMEM if you passed a NULL pointer for 'pmem'
* OS_ERR_PNAME_NULL You passed a NULL pointer for 'pname'
* OS_ERR_NAME_GET_ISR You called this function from an ISR
*
* Returns : The length of the string or 0 if 'pmem' is a NULL pointer.
*********************************************************************************************************
*/#if OS_MEM_NAME_EN > 0u
INT8U OSMemNameGet (OS_MEM *pmem,
INT8U **pname,
INT8U *perr)
{
INT8U len;
#if OS_CRITICAL_METHOD == 3u /* Allocate storage for CPU status register */
OS_CPU_SR cpu_sr = 0u;
#endif#ifdef OS_SAFETY_CRITICAL
if (perr == (INT8U *)0) {
OS_SAFETY_CRITICAL_EXCEPTION();
return (0u);
}
#endif#if OS_ARG_CHK_EN > 0u
if (pmem == (OS_MEM *)0) { /* Is 'pmem' a NULL pointer? */
*perr = OS_ERR_MEM_INVALID_PMEM;
return (0u);
}
if (pname == (INT8U **)0) { /* Is 'pname' a NULL pointer? */
*perr = OS_ERR_PNAME_NULL;
return (0u);
}
#endif
if (OSIntNesting > 0u) { /* See if trying to call from an ISR */
*perr = OS_ERR_NAME_GET_ISR;
return (0u);
}
OS_ENTER_CRITICAL();
*pname = pmem->OSMemName;
len = OS_StrLen(*pname);
OS_EXIT_CRITICAL();
*perr = OS_ERR_NONE;
return (len);
}
#endif/*$PAGE*/
/*
*********************************************************************************************************
* ASSIGN A NAME TO A MEMORY PARTITION
*
* Description: This function assigns a name to a memory partition.
*
* Arguments : pmem is a pointer to the memory partition
*
* pname is a pointer to an ASCII string that contains the name of the memory partition.
*
* perr is a pointer to an error code that can contain one of the following values:
*
* OS_ERR_NONE if the name was copied to 'pname'
* OS_ERR_MEM_INVALID_PMEM if you passed a NULL pointer for 'pmem'
* OS_ERR_PNAME_NULL You passed a NULL pointer for 'pname'
* OS_ERR_MEM_NAME_TOO_LONG if the name doesn't fit in the storage area
* OS_ERR_NAME_SET_ISR if you called this function from an ISR
*
* Returns : None
*********************************************************************************************************
*/#if OS_MEM_NAME_EN > 0u
void OSMemNameSet (OS_MEM *pmem,
INT8U *pname,
INT8U *perr)
{
#if OS_CRITICAL_METHOD == 3u /* Allocate storage for CPU status register */
OS_CPU_SR cpu_sr = 0u;
#endif#ifdef OS_SAFETY_CRITICAL
if (perr == (INT8U *)0) {
OS_SAFETY_CRITICAL_EXCEPTION();
return;
}
#endif#if OS_ARG_CHK_EN > 0u
if (pmem == (OS_MEM *)0) { /* Is 'pmem' a NULL pointer? */
*perr = OS_ERR_MEM_INVALID_PMEM;
return;
}
if (pname == (INT8U *)0) { /* Is 'pname' a NULL pointer? */
*perr = OS_ERR_PNAME_NULL;
return;
}
#endif
if (OSIntNesting > 0u) { /* See if trying to call from an ISR */
*perr = OS_ERR_NAME_SET_ISR;
return;
}
OS_ENTER_CRITICAL();
pmem->OSMemName = pname;
OS_EXIT_CRITICAL();
*perr = OS_ERR_NONE;
}
#endif/*$PAGE*/
/*
*********************************************************************************************************
* RELEASE A MEMORY BLOCK
*
* Description : Returns a memory block to a partition
*
* Arguments : pmem is a pointer to the memory partition control block
*
* pblk is a pointer to the memory block being released.
*
* Returns : OS_ERR_NONE if the memory block was inserted into the partition
* OS_ERR_MEM_FULL if you are returning a memory block to an already FULL memory
* partition (You freed more blocks than you allocated!)
* OS_ERR_MEM_INVALID_PMEM if you passed a NULL pointer for 'pmem'
* OS_ERR_MEM_INVALID_PBLK if you passed a NULL pointer for the block to release.
*********************************************************************************************************
*/INT8U OSMemPut (OS_MEM *pmem,
void *pblk)
{
#if OS_CRITICAL_METHOD == 3u /* Allocate storage for CPU status register */
OS_CPU_SR cpu_sr = 0u;
#endif#if OS_ARG_CHK_EN > 0u
if (pmem == (OS_MEM *)0) { /* Must point to a valid memory partition */
return (OS_ERR_MEM_INVALID_PMEM);
}
if (pblk == (void *)0) { /* Must release a valid block */
return (OS_ERR_MEM_INVALID_PBLK);
}
#endif
OS_ENTER_CRITICAL();
if (pmem->OSMemNFree >= pmem->OSMemNBlks) { /* Make sure all blocks not already returned */
OS_EXIT_CRITICAL();
return (OS_ERR_MEM_FULL);
}
*(void **)pblk = pmem->OSMemFreeList; /* Insert released block into free block list */
pmem->OSMemFreeList = pblk;
pmem->OSMemNFree++; /* One more memory block in this partition */
OS_EXIT_CRITICAL();
return (OS_ERR_NONE); /* Notify caller that memory block was released */
}
/*$PAGE*/
/*
*********************************************************************************************************
* QUERY MEMORY PARTITION
*
* Description : This function is used to determine the number of free memory blocks and the number of
* used memory blocks from a memory partition.
*
* Arguments : pmem is a pointer to the memory partition control block
*
* p_mem_data is a pointer to a structure that will contain information about the memory
* partition.
*
* Returns : OS_ERR_NONE if no errors were found.
* OS_ERR_MEM_INVALID_PMEM if you passed a NULL pointer for 'pmem'
* OS_ERR_MEM_INVALID_PDATA if you passed a NULL pointer to the data recipient.
*********************************************************************************************************
*/#if OS_MEM_QUERY_EN > 0u
INT8U OSMemQuery (OS_MEM *pmem,
OS_MEM_DATA *p_mem_data)
{
#if OS_CRITICAL_METHOD == 3u /* Allocate storage for CPU status register */
OS_CPU_SR cpu_sr = 0u;
#endif#if OS_ARG_CHK_EN > 0u
if (pmem == (OS_MEM *)0) { /* Must point to a valid memory partition */
return (OS_ERR_MEM_INVALID_PMEM);
}
if (p_mem_data == (OS_MEM_DATA *)0) { /* Must release a valid storage area for the data */
return (OS_ERR_MEM_INVALID_PDATA);
}
#endif
OS_ENTER_CRITICAL();
p_mem_data->OSAddr = pmem->OSMemAddr;
p_mem_data->OSFreeList = pmem->OSMemFreeList;
p_mem_data->OSBlkSize = pmem->OSMemBlkSize;
p_mem_data->OSNBlks = pmem->OSMemNBlks;
p_mem_data->OSNFree = pmem->OSMemNFree;
OS_EXIT_CRITICAL();
p_mem_data->OSNUsed = p_mem_data->OSNBlks - p_mem_data->OSNFree;
return (OS_ERR_NONE);
}
#endif /* OS_MEM_QUERY_EN */
/*$PAGE*/
/*
*********************************************************************************************************
* INITIALIZE MEMORY PARTITION MANAGER
*
* Description : This function is called by uC/OS-II to initialize the memory partition manager. Your
* application MUST NOT call this function.
*
* Arguments : none
*
* Returns : none
*
* Note(s) : This function is INTERNAL to uC/OS-II and your application should not call it.
*********************************************************************************************************
*/void OS_MemInit (void)
{
#if OS_MAX_MEM_PART == 1u
OS_MemClr((INT8U *)&OSMemTbl[0], sizeof(OSMemTbl)); /* Clear the memory partition table */
OSMemFreeList = (OS_MEM *)&OSMemTbl[0]; /* Point to beginning of free list */
#if OS_MEM_NAME_EN > 0u
OSMemFreeList->OSMemName = (INT8U *)"?"; /* Unknown name */
#endif
#endif#if OS_MAX_MEM_PART >= 2u
OS_MEM *pmem;
INT16U i; OS_MemClr((INT8U *)&OSMemTbl[0], sizeof(OSMemTbl)); /* Clear the memory partition table */
for (i = 0u; i < (OS_MAX_MEM_PART - 1u); i++) { /* Init. list of free memory partitions */
pmem = &OSMemTbl[i]; /* Point to memory control block (MCB) */
pmem->OSMemFreeList = (void *)&OSMemTbl[i + 1u]; /* Chain list of free partitions */
#if OS_MEM_NAME_EN > 0u
pmem->OSMemName = (INT8U *)(void *)"?";
#endif
}
pmem = &OSMemTbl[i];
pmem->OSMemFreeList = (void *)0; /* Initialize last node */
#if OS_MEM_NAME_EN > 0u
pmem->OSMemName = (INT8U *)(void *)"?";
#endif OSMemFreeList = &OSMemTbl[0]; /* Point to beginning of free list */
#endif
}
#endif /* OS_MEM_EN */
