目录树的遍历实验报告（unix操作系统系）---3

实验3 目录树的遍历实验报告

一．实验目的：

掌握与文件和目录树有关的系统调用和库函数。

二．实验要求：

1、编写程序myfind

命令语法：

myfind <pathname> [-comp <filename> | -name <str>…]

命令语义：

（1）myfind <pathname> 的功能：

除了具有与程序4-7相同的功能外，还要输出在<pathname>目录子树之下，文件长度不大于4096字节的常规文件，在所有允许访问的普通文件中所占的百分比。程序不允许打印出任何路径名。

（2）myfind <pathname> -comp <filename>的功能：

<filename>是常规文件的路径名（非目录名，但是其路径可以包含目录）。命令仅仅输出在<pathname>目录子树之下，所有与<filename>文件内容一致的文件的绝对路径名。不允许输出任何其它的路径名，包括不可访问的路径名。

（3）myfind <pathname> -name <str>…的功能：

<str>…是一个以空格分隔的文件名序列(不带路径)。命令输出在<pathname>目录子树之下，所有与<str>…序列中文件名相同的文件的绝对路径名。不允许输出不可访问的或无关的路径名。

<pathname>和<filename>均既可以是绝对路径名，也可以是相对路径名。<pathname>既可以是目录，也可以是文件，此时，目录为当前工作目录。

2、注意尽可能地提高程序的效率。注意避免因打开太多文件而产生的错误。

3、遍历目录树时，访问结点（目录项）的具体操作应当由遍历函数dopath携带的函数指针参数决定。这样程序的结构清晰，可扩充性好。

三．实验源代码

#include "apue.h"
#include <dirent.h>
#include <limits.h>
#include<malloc.h>
#include<fcntl.h>
#include<unistd.h>
/* function type that is called for each filename */
typedef    int    Myfunc(const char *, const struct stat *, int);
static Myfunc    myfunc;
static Myfunc myfunc1;
static Myfunc myfunc2;
static int        myftw(char *, Myfunc *);
static int        dopath(Myfunc *);
char *argv0[100];
static long    nreg, ndir, nblk, nchr, nfifo, nslink, nsock, ntot;
int num=0,i=0;
int temp,now;
int f,f_le;
char *fcontd;
int fo,fo_le;
char *focontd;
static long nreg0=0;
/*char *path_alloc(int *size)
char *p=NULL;
if(!size) return NULL;
p=malloc(256);
if(p)
*size=256;
else
*size=0;
return p;
}*/
int
main(int argc, char *argv[])
{
int        ret;
if(argc==2)//两个参数
{
ret = myftw(argv[1], myfunc);        /* does it all */
ntot = nreg + ndir + nblk + nchr + nfifo + nslink + nsock;
if (ntot == 0)
ntot = 1;        /* avoid divide by 0; print 0 for all counts */
printf("regular files  = %7ld, %5.2f %%\n", nreg,
nreg*100.0/ntot);
printf("size<4096 in regular =%7ld, %4,2 %%\n",nreg0,nreg0*100.0/ntot);
printf("directories    = %7ld, %5.2f %%\n", ndir,
ndir*100.0/ntot);
printf("block special  = %7ld, %5.2f %%\n", nblk,
nblk*100.0/ntot);
printf("char special   = %7ld, %5.2f %%\n", nchr,
nchr*100.0/ntot);
printf("FIFOs          = %7ld, %5.2f %%\n", nfifo,
nfifo*100.0/ntot);
printf("symbolic links = %7ld, %5.2f %%\n", nslink,
nslink*100.0/ntot);
printf("sockets        = %7ld, %5.2f %%\n", nsock,
nsock*100.0/ntot);
}
if(argc==4&& 0 ==strcmp(argv[2],"-comp"))//四个参数
{
f=open(argv[3],O_RDWR);
f_le=lseek(f,0,SEEK_END);
temp=lseek(f,0,SEEK_SET);
fcontd=(char *)malloc(sizeof(char)*f_le);
now=read(f,fcontd,f_le);
ret =myftw(argv[1],myfunc1);
}
if(argc>=4&& 0 ==strcmp(argv[2],"-name"))//大于四个参数
{
i=3;
for(i=3;i<argc;i++)
{argv0[i-3]=argv[i];}
i++;
num=argc-3;
ret =myftw(argv[1],myfunc2);
}
exit(ret);
}
/*
* Descend through the hierarchy, starting at "pathname".
* The caller's func() is called for every file.
*/
#define    FTW_F    1        /* file other than directory */
#define    FTW_D    2        /* directory */
#define    FTW_DNR    3        /* directory that can't be read */
#define    FTW_NS    4        /* file that we can't stat */
static char    *fullpath;        /* contains full pathname for every file */
static int                    /* we return whatever func() returns */
myftw(char *pathname, Myfunc *func)
{
int len;
fullpath = path_alloc(&len);    /* malloc's for PATH_MAX+1 bytes */
/* ({Prog pathalloc}) */
strncpy(fullpath, pathname, len);    /* protect against */
fullpath[len-1] = 0;                /* buffer overrun */
return(dopath(func));
}
/*
* Descend through the hierarchy, starting at "fullpath".
* If "fullpath" is anything other than a directory, we lstat() it,
* call func(), and return.  For a directory, we call ourself
* recursively for each name in the directory.
*/
static int                    /* we return whatever func() returns */
dopath(Myfunc* func)
{
struct stat        statbuf;
struct dirent    *dirp;
DIR                *dp;
int                ret;
char            *ptr;
if (lstat(fullpath, &statbuf) < 0)    /* stat error */
return(func(fullpath, &statbuf, FTW_NS));
if (S_ISDIR(statbuf.st_mode) == 0)    /* not a directory */
return(func(fullpath, &statbuf, FTW_F));
/*
* It's a directory.  First call func() for the directory,
* then process each filename in the directory.
*/
if ((ret = func(fullpath, &statbuf, FTW_D)) != 0)
return(ret);
ptr = fullpath + strlen(fullpath);    /* point to end of fullpath */
*ptr++ = '/';
*ptr = 0;
if ((dp = opendir(fullpath)) == NULL)    /* can't read directory */
return(func(fullpath, &statbuf, FTW_DNR));
while ((dirp = readdir(dp)) != NULL) {
if (strcmp(dirp->d_name, ".") == 0  ||
strcmp(dirp->d_name, "..") == 0)
continue;        /* ignore dot and dot-dot */
strcpy(ptr, dirp->d_name);    /* append name after slash */
if ((ret = dopath(func)) != 0)        /* recursive */
break;    /* time to leave */
}
ptr[-1] = 0;    /* erase everything from slash onwards */
if (closedir(dp) < 0)
err_ret("can't close directory %s", fullpath);
return(ret);
}
static int
myfunc(const char *pathname, const struct stat *statptr, int type)//两个参数
{
switch (type) {
case FTW_F:
switch (statptr->st_mode & S_IFMT) {
//        case S_IFREG:    nreg++;        break;
case S_IFREG:    {nreg++;
if(statptr->st_size<4096) nreg0++;    }
case S_IFBLK:    nblk++;        break;
case S_IFCHR:    nchr++;        break;
case S_IFIFO:    nfifo++;    break;
case S_IFLNK:    nslink++;    break;
case S_IFSOCK:    nsock++;    break;
case S_IFDIR:
err_dump("for S_IFDIR for %s", pathname);
/* directories should have type = FTW_D */
}
break;
case FTW_D:
ndir++;
break;
case FTW_DNR:
err_ret("can't read directory %s", pathname);
break;
case FTW_NS:
err_ret("stat error for %s", pathname);
break;
default:
err_dump("unknown type %d for pathname %s", type, pathname);
}
return(0);
}
static int
myfunc1(const char *pathname, const struct stat *statptr, int type)//四个参数
{
i=0;
char *p;
switch (type) {
case FTW_F:
{    //if(statptr->st_size==f_le){
fo=open(pathname,O_RDWR);
fo_le=lseek(fo,0,SEEK_END);
now=lseek(fo,0,SEEK_SET);
if(fo_le==f_le)
{
focontd=(char *)malloc(sizeof(char)*fo_le);
now=read(fo,focontd,fo_le);
p=fcontd;
for(i=0;i<fo_le;i++)
{
p++;
focontd++;
if(*p!=*focontd)
break;
}
if(i>=fo_le)
printf("path is %s\n",pathname);
}
}
case FTW_D:
ndir++;
break;
case FTW_DNR:
err_ret("can't read directory %s", pathname);
break;
case FTW_NS:
err_ret("stat error for %s", pathname);
break;
default:
err_dump("unknown type %d for pathname %s", type, pathname);
}
return(0);
}
static int
myfunc2(const char *pathname, const struct stat *statptr, int type)//大于四个参数
{
//    printf("asdf");
char *q=NULL;
q=pathname;
int leng=0;
switch (type) {
case FTW_F:
switch (statptr->st_mode & S_IFMT) {
//        case S_IFREG:    nreg++;        break;
case S_IFREG:    {
/* directories should have type = FTW_D */
for(i=0;i<num;i++)
{
leng=strlen(pathname);
q=q+leng;

while(*q!='/')
q--;
q++;
if(0==strcmp(argv0[i],q))
printf("path is %s\n",pathname);
}
}
break;
}
case FTW_D:
ndir++;
break;
case FTW_DNR:
err_ret("can't read directory %s", pathname);
break;
case FTW_NS:
err_ret("stat error for %s", pathname);
break;
default:
err_dump("unknown type %d for pathname %s", type, pathname);
}
return(0);
}

四．实验结果





说明：

Ftw4.c 为c源程序

Pathalloc.c pathalloc函数源程序

Abc.txt 为搜索条件（文件名）

home/cs09/cs094180/expmt//3/ 搜索路径

Ftw4 编译后的程序

运行结果详见上面的截图