C语言 函数指针三(反向调用)
动态库代码
//简单的动态库开发----报文发送 #define _CRT_SECURE_NO_WARNINGS #include<stdio.h> #include<stdlib.h> #include<string.h> //定义加密函数指针类型 typedef int(*PDesEncSocket)(char *, int , char **, int *); //定义解密函数指针类型 typedef int(*PDesDecSocket)(char *, int , char **, int *); //定义上下文结构体 typedef struct _SCK_HANDLE{ //定义报文IP char ipaddress[30]; //定义报文端口 char port[10]; //定义报文接受数组 unsigned char * buf; //定义报文长度 int buflen; //定义加密函数指针变量 PDesEncSocket pe; //定义解密函数指针变量 PDesDecSocket pd; }SCK_HANDLE; //初始化上下文 _declspec(dllexport) int cltSocketInit(void **handle/*out*/){ int ERRO_MSG = 0; if (handle==NULL) { ERRO_MSG = 1; printf("handle==NULL 报文初始化失败 erro msg:%d\n", ERRO_MSG); return ERRO_MSG; } //定义上下文指针 SCK_HANDLE *shandle = NULL; //分配内存 //详述:此处分配内存必须分配堆内存(malloc函数分配),这也正是malloc函数真正的用途所在 //此处不可以分配栈内存,栈内存会被系统自动回收,但是报文的发送与接受所使用的上下文SCK_HANDLE,必须长时间存在 //何时回收必须由用户决定,而不能随便的被回收 //同样使用静态区也不合适,因为无法人为回收内存空间,必须等待电脑关机,综上所述,只能使用malloc函数分配内存 shandle = (SCK_HANDLE *)malloc(sizeof(SCK_HANDLE)); //重置内存空间 memset(shandle, 0, sizeof(SCK_HANDLE)); strcpy(shandle->ipaddress,"192.168.0.128"); strcpy(shandle->port, "88"); *handle = shandle; return ERRO_MSG; } //注入加密函数指针 _declspec(dllexport) int InjectionEnc(void *handle/*in*/, PDesEncSocket pein/*in*/){ int ERRO_MSG = 0; if (handle == NULL||pein==NULL) { ERRO_MSG = 1; printf("handle == NULL||pein==NULL 传入参数不可以为空 erro msg:%d\n", ERRO_MSG); return ERRO_MSG; } SCK_HANDLE* sh = (SCK_HANDLE*)handle; sh->pe = pein; return ERRO_MSG; } //注入解密函数指针 _declspec(dllexport) int InjectionDec(void *handle/*in*/, PDesDecSocket pdin/*in*/){ int ERRO_MSG = 0; if (handle == NULL || pdin == NULL) { ERRO_MSG = 1; printf("handle == NULL||pdin==NULL 传入参数不可以为空 erro msg:%d\n", ERRO_MSG); return ERRO_MSG; } SCK_HANDLE* sh = (SCK_HANDLE*)handle; sh->pd = pdin; return ERRO_MSG; } //客户端发报文 _declspec(dllexport) int cltSocketSend(void *handle/*in*/, unsigned char *buf/*in*/, int buflen/*in*/){ int ERRO_MSG = 0; if (handle==NULL) { ERRO_MSG = 1; printf("handle==NULL handle不可以为NULL erro msg :%d\n", ERRO_MSG); return ERRO_MSG; } if (buf == NULL) { ERRO_MSG = 2; printf("buf==NULL buf不可以为NULL erro msg :%d\n", ERRO_MSG); return ERRO_MSG; } SCK_HANDLE *sh = NULL; sh = (SCK_HANDLE *)handle; if (sh->pe == NULL) { ERRO_MSG = 3; printf("加密函数指针不可以为NULL erro msg :%d\n", ERRO_MSG); return ERRO_MSG; } //不需要为报文开辟内存,因为加密函数会分配内存 sh->pe(buf, buflen, &sh->buf, &sh->buflen); return ERRO_MSG; } //客户端发报文方式二 _declspec(dllexport) int cltSocketSend2(void *handle/*in*/, unsigned char *buf/*in*/, PDesEncSocket pein/*in*/, int buflen/*in*/){ int ERRO_MSG = 0; if (handle == NULL) { ERRO_MSG = 1; printf("handle==NULL handle不可以为NULL erro msg :%d\n", ERRO_MSG); return ERRO_MSG; } if (buf == NULL) { ERRO_MSG = 2; printf("buf==NULL buf不可以为NULL erro msg :%d\n", ERRO_MSG); return ERRO_MSG; } if (pein == NULL) { ERRO_MSG = 4; printf("pein==NULL 传入参数函数指针不可以为空 erro msg :%d\n", ERRO_MSG); return ERRO_MSG; } SCK_HANDLE *sh = NULL; sh = (SCK_HANDLE *)handle; //不需要为报文开辟内存,因为加密函数会分配内存 //函数指针加密 pein(buf, buflen, &sh->buf, &sh->buflen); return ERRO_MSG; } //客户端收报文 _declspec(dllexport) int cltSocketRev(void *handle/*in*/, unsigned char **buf/*out*/, int *buflen/*in*/){ int ERRO_MSG = 0; if (handle == NULL || buf == NULL || buflen==NULL) { ERRO_MSG = 1; printf("handle == NULL || buf == NULL || buflen==NULL erro msg:%d\n", ERRO_MSG); return ERRO_MSG; } //定义临时上下文变量 SCK_HANDLE *sh = NULL; sh = (SCK_HANDLE *)handle; //不需要分配返回报文的内存,这里有解密函数分配 if (sh->pd==NULL) { ERRO_MSG = 2; printf("解密函数指针为空 erro msg:%d\n", ERRO_MSG); return ERRO_MSG; } //解密报文 sh->pd(sh->buf, sh->buflen, buf, buflen); //释放上下文中字符串数组的内存空间(至于具体应用还是看场景) if (sh->buf!=NULL) { //释放内存 free(sh->buf); //消除野指针 sh->buf = NULL; } sh->buflen = 0; return ERRO_MSG; } //客户端收报文方式二 _declspec(dllexport) int cltSocketRev2(void *handle/*in*/, unsigned char **buf/*out*/, PDesDecSocket pdin/*in*/, int *buflen/*in*/){ int ERRO_MSG = 0; if (handle == NULL || buf == NULL || buflen == NULL) { ERRO_MSG = 1; printf("handle == NULL || buf == NULL || buflen==NULL erro msg:%d\n", ERRO_MSG); return ERRO_MSG; } if (pdin==NULL) { ERRO_MSG = 2; printf("pdin == NULL msg:%d\n", ERRO_MSG); return ERRO_MSG; } //定义临时上下文变量 SCK_HANDLE *sh = NULL; sh = (SCK_HANDLE *)handle; //不需要分配返回报文的内存,这里有解密函数分配 //解密报文 pdin(sh->buf, sh->buflen, buf, buflen); //释放上下文中字符串数组的内存空间(至于具体应用还是看场景) if (sh->buf != NULL) { //释放内存 free(sh->buf); //消除野指针 sh->buf = NULL; } sh->buflen = 0; return ERRO_MSG; } //客户端释放资源 _declspec(dllexport) int cltSocketDestory(void **handle){ int ERRO_MSG = 0; if (handle==NULL) { ERRO_MSG = 1; printf("handle==NULL%d\n", ERRO_MSG); return ERRO_MSG; } if (*handle!=NULL) { //释放内存 free(*handle); //消除野指针 *handle = NULL; } return ERRO_MSG; }
业务函数代码
#ifndef _NZHANG #define _NZHANG //定义加密函数指针类型 typedef int(*PDesEncSocket)(char *, int, char **, int *); //定义解密函数指针类型 typedef int(*PDesDecSocket)(char *, int, char **, int *); //初始化上下文 int cltSocketInit(void **handle/*out*/); //注入加密函数指针 int InjectionEnc(void *handle/*in*/, PDesEncSocket pein/*in*/); //注入解密函数指针 int InjectionDec(void *handle/*in*/, PDesDecSocket pdin/*in*/); //客户端发报文 int cltSocketSend(void *handle/*in*/, unsigned char *buf/*in*/, int buflen/*in*/); //客户端发报文方式二 int cltSocketSend2(void *handle/*in*/, unsigned char *buf/*in*/, PDesEncSocket pein/*in*/, int buflen/*in*/); //客户端收报文 int cltSocketRev(void *handle/*in*/, unsigned char **buf/*out*/, int *buflen/*in*/); //客户端收报文方式二 int cltSocketRev2(void *handle/*in*/, unsigned char **buf/*out*/, PDesDecSocket pdin/*in*/, int *buflen/*in*/); //客户端释放资源 int cltSocketDestory(void **handle); #endif
//函数指针的反向调用--增加加密解密函数 #include<stdio.h> #include<stdlib.h> #include<string.h> #include"des.h" #include"L001.h" /* 利用函数指针指针实现多种加密方法加密报文 */ //加密函数1 int DesEncSocket(char *plainstr/*in*/, int plainlen, char **cryptstr/*out*/, int *cryptlen){ int ERRO_MSG = 0; if (plainstr == NULL || cryptstr == NULL || cryptlen == NULL) { ERRO_MSG = 1; printf("加密参数列表为空\n"); return ERRO_MSG; } //des密文比明文长,但是密文最多比明文多8个字节(所以我取10个足够) *cryptstr = (char *)malloc((sizeof(char)*plainlen) + 10); if (cryptstr == NULL) { ERRO_MSG = 2; printf("加密函数分配输出内存失败!\n"); return ERRO_MSG; } int ret = DesEnc((unsigned char *)plainstr, plainlen, (unsigned char *)*cryptstr, cryptlen); if (ret != 0) { ERRO_MSG = 3; printf("des加密函数执行失败!\n"); return ERRO_MSG; } return ERRO_MSG; } //解密函数1 int DesDecSocket(char *cryptstr/*in*/, int cryptlen, char **plainstr/*out*/, int *plainlen){ int ERRO_MSG = 0; if (plainstr == NULL || cryptstr == NULL || plainlen == NULL) { ERRO_MSG = 1; printf("解密参数列表为空!\n"); return ERRO_MSG; } //分配内存空间(des密文只可能比明文长) *plainstr = (char *)malloc((sizeof(char)*cryptlen)); if (plainstr == NULL) { ERRO_MSG = 2; printf("分配输出内存失败!\n"); return ERRO_MSG; } int ret = DesDec((unsigned char *)cryptstr, cryptlen, (unsigned char *)*plainstr, plainlen); if (ret != 0) { ERRO_MSG = 3; printf("des解密函数执行失败!\n"); return ERRO_MSG; } return ERRO_MSG; } //加密函数2 int DesEncSocket2(char *plainstr/*in*/, int plainlen, char **cryptstr/*out*/, int *cryptlen){ int ERRO_MSG = 0; if (plainstr == NULL || cryptstr == NULL || cryptlen == NULL) { ERRO_MSG = 1; printf("加密参数列表为空\n"); return ERRO_MSG; } //des密文比明文长,但是密文最多比明文多8个字节(所以我取10个足够) *cryptstr = (char *)malloc((sizeof(char)*plainlen) + 10); if (cryptstr == NULL) { ERRO_MSG = 2; printf("加密函数分配输出内存失败!\n"); return ERRO_MSG; } int ret = DesEnc((unsigned char *)plainstr, plainlen, (unsigned char *)*cryptstr, cryptlen); if (ret != 0) { ERRO_MSG = 3; printf("des加密函数执行失败!\n"); return ERRO_MSG; } return ERRO_MSG; } //解密函数2 int DesDecSocket2(char *cryptstr/*in*/, int cryptlen, char **plainstr/*out*/, int *plainlen){ int ERRO_MSG = 0; if (plainstr == NULL || cryptstr == NULL || plainlen == NULL) { ERRO_MSG = 1; printf("解密参数列表为空!\n"); return ERRO_MSG; } //分配内存空间(des密文只可能比明文长) *plainstr = (char *)malloc((sizeof(char)*cryptlen)); if (plainstr == NULL) { ERRO_MSG = 2; printf("分配输出内存失败!\n"); return ERRO_MSG; } int ret = DesDec((unsigned char *)cryptstr, cryptlen, (unsigned char *)*plainstr, plainlen); if (ret != 0) { ERRO_MSG = 3; printf("des解密函数执行失败!\n"); return ERRO_MSG; } return ERRO_MSG; } void ProtectA(){ //定义发送报文 char str1[30] = "1234567"; //定义报文长度 int buflen1 = strlen(str1) + 1; //定义接受报文变量 char *buf = NULL; int len2 = 0; void *handle = NULL; int ret = 0; //初始化报文 ret = cltSocketInit(&handle); if (ret != 0) { printf("初始化报文对象失败!\n"); } //注入加密函数指针 ret = InjectionEnc(handle, DesEncSocket); if (ret != 0) { printf("注入加密函数指针失败!\n"); } //注入解密函数指针 ret = InjectionDec(handle, DesDecSocket); if (ret != 0) { printf("注入解密函数指针失败!\n"); } //发送报文 ret = cltSocketSend(handle, str1, buflen1); if (ret != 0) { printf("发送报文失败!\n"); } //接收报文 ret = cltSocketRev(handle, &buf, &len2); if (ret != 0) { printf("接收报文失败!\n"); } //释放报文内存 if (buf != NULL) { //打印报文 printf(buf); free(buf); buf = NULL; } //释放报文对象 ret = cltSocketDestory(&handle); if (ret != 0) { printf("释放报文对象失败!\n"); } } void ProtectB(){ //定义发送报文 char str1[30] = "1234567"; //定义报文长度 int buflen1 = strlen(str1) + 1; //定义接受报文变量 char *buf = NULL; int len2 = 0; void *handle = NULL; int ret = 0; //初始化报文 ret = cltSocketInit(&handle); if (ret != 0) { printf("初始化报文对象失败!\n"); } //发送报文 ret = cltSocketSend2(handle, str1, DesEncSocket2, buflen1); if (ret != 0) { printf("发送报文失败!\n"); } //接收报文 ret = cltSocketRev2(handle, &buf, DesDecSocket2, &len2); if (ret != 0) { printf("接收报文失败!\n"); } //释放报文内存 if (buf != NULL) { //打印报文 printf(buf); free(buf); buf = NULL; } //释放报文对象 ret = cltSocketDestory(&handle); if (ret != 0) { printf("释放报文对象失败!\n"); } } void main(){ ProtectB(); system("pause"); }
