ndk-busybox/ls.c
Eric Andersen 11c655295c New ls sorting patch, as written by Sterling Huxley, and then updated
by kent robotti.  I then updated it to use my_getpwuid and my_getgrgid
(per busybox policy).
 -Erik
2000-09-07 17:24:47 +00:00

818 lines
22 KiB
C

/* vi: set sw=4 ts=4: */
/*
* tiny-ls.c version 0.1.0: A minimalist 'ls'
* Copyright (C) 1996 Brian Candler <B.Candler@pobox.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/*
* To achieve a small memory footprint, this version of 'ls' doesn't do any
* file sorting, and only has the most essential command line switches
* (i.e. the ones I couldn't live without :-) All features which involve
* linking in substantial chunks of libc can be disabled.
*
* Although I don't really want to add new features to this program to
* keep it small, I *am* interested to receive bug fixes and ways to make
* it more portable.
*
* KNOWN BUGS:
* 1. ls -l of a directory doesn't give "total <blocks>" header
* 2. ls of a symlink to a directory doesn't list directory contents
* 3. hidden files can make column width too large
*
* NON-OPTIMAL BEHAVIOUR:
* 1. autowidth reads directories twice
* 2. if you do a short directory listing without filetype characters
* appended, there's no need to stat each one
* PORTABILITY:
* 1. requires lstat (BSD) - how do you do it without?
*/
#define TERMINAL_WIDTH 80 /* use 79 if your terminal has linefold bug */
#define COLUMN_WIDTH 14 /* default if AUTOWIDTH not defined */
#define COLUMN_GAP 2 /* includes the file type char, if present */
/************************************************************************/
#include "internal.h"
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>
#include <unistd.h>
#include <dirent.h>
#include <errno.h>
#include <stdio.h>
#ifdef BB_FEATURE_LS_TIMESTAMPS
#include <time.h>
#endif
#include <string.h>
#ifndef NAJOR
#define MAJOR(dev) (((dev)>>8)&0xff)
#define MINOR(dev) ((dev)&0xff)
#endif
/* what is the overall style of the listing */
#define STYLE_AUTO 0
#define STYLE_LONG 1 /* one record per line, extended info */
#define STYLE_SINGLE 2 /* one record per line */
#define STYLE_COLUMNS 3 /* fill columns */
/* 51306 lrwxrwxrwx 1 root root 2 May 11 01:43 /bin/view -> vi* */
/* what file information will be listed */
#define LIST_INO (1<<0)
#define LIST_BLOCKS (1<<1)
#define LIST_MODEBITS (1<<2)
#define LIST_NLINKS (1<<3)
#define LIST_ID_NAME (1<<4)
#define LIST_ID_NUMERIC (1<<5)
#define LIST_SIZE (1<<6)
#define LIST_DEV (1<<7)
#define LIST_DATE_TIME (1<<8)
#define LIST_FULLTIME (1<<9)
#define LIST_FILENAME (1<<10)
#define LIST_SYMLINK (1<<11)
#define LIST_FILETYPE (1<<12)
#define LIST_EXEC (1<<13)
/* what files will be displayed */
#define DISP_NORMAL (0) /* show normal filenames */
#define DISP_DIRNAME (1<<0) /* 2 or more items? label directories */
#define DISP_HIDDEN (1<<1) /* show filenames starting with . */
#define DISP_DOT (1<<2) /* show . and .. */
#define DISP_NOLIST (1<<3) /* show directory as itself, not contents */
#define DISP_RECURSIVE (1<<4) /* show directory and everything below it */
#define DISP_ROWS (1<<5) /* print across rows */
#ifdef BB_FEATURE_LS_SORTFILES
/* how will the files be sorted */
#define SORT_FORWARD 0 /* sort in reverse order */
#define SORT_REVERSE 1 /* sort in reverse order */
#define SORT_NAME 2 /* sort by file name */
#define SORT_SIZE 3 /* sort by file size */
#define SORT_ATIME 4 /* sort by last access time */
#define SORT_CTIME 5 /* sort by last change time */
#define SORT_MTIME 6 /* sort by last modification time */
#define SORT_VERSION 7 /* sort by version */
#define SORT_EXT 8 /* sort by file name extension */
#define SORT_DIR 9 /* sort by file or directory */
#endif
#ifdef BB_FEATURE_LS_TIMESTAMPS
/* which of the three times will be used */
#define TIME_MOD 0
#define TIME_CHANGE 1
#define TIME_ACCESS 2
#endif
#define LIST_SHORT (LIST_FILENAME)
#define LIST_ISHORT (LIST_INO | LIST_FILENAME)
#define LIST_LONG (LIST_MODEBITS | LIST_NLINKS | LIST_ID_NAME | \
LIST_SIZE | LIST_DATE_TIME | LIST_FILENAME | \
LIST_SYMLINK)
#define LIST_ILONG (LIST_INO | LIST_LONG)
#define SPLIT_DIR 0
#define SPLIT_FILE 1
#define TYPEINDEX(mode) (((mode) >> 12) & 0x0f)
#define TYPECHAR(mode) ("0pcCd?bB-?l?s???" [TYPEINDEX(mode)])
#ifdef BB_FEATURE_LS_FILETYPES
#define APPCHAR(mode) ("\0|\0\0/\0\0\0\0\0@\0=\0\0\0" [TYPEINDEX(mode)])
#endif
/*
* a directory entry and its stat info are stored here
*/
struct dnode { /* the basic node */
char *name; /* the dir entry name */
char *fullname; /* the dir entry name */
struct stat dstat; /* the file stat info */
struct dnode *next; /* point at the next node */
};
typedef struct dnode dnode_t;
struct dnode **list_dir(char *);
struct dnode **dnalloc(int);
int list_single(struct dnode *);
static unsigned int disp_opts= DISP_NORMAL;
static unsigned int style_fmt= STYLE_AUTO ;
static unsigned int list_fmt= LIST_SHORT ;
#ifdef BB_FEATURE_LS_SORTFILES
static unsigned int sort_opts= SORT_FORWARD;
static unsigned int sort_order= SORT_FORWARD;
#endif
#ifdef BB_FEATURE_LS_TIMESTAMPS
static unsigned int time_fmt= TIME_MOD;
#endif
static unsigned short column = 0;
#ifdef BB_FEATURE_AUTOWIDTH
static unsigned short terminal_width = TERMINAL_WIDTH;
static unsigned short column_width = COLUMN_WIDTH;
static unsigned short tabstops = 8;
#else
#define terminal_width TERMINAL_WIDTH
#define column_width COLUMN_WIDTH
#endif
static void newline(void)
{
if (column > 0) {
fprintf(stdout, "\n");
column = 0;
}
}
/*----------------------------------------------------------------------*/
#ifdef BB_FEATURE_LS_FILETYPES
static char append_char(mode_t mode)
{
if ( !(list_fmt & LIST_FILETYPE))
return '\0';
if ((list_fmt & LIST_EXEC) && S_ISREG(mode)
&& (mode & (S_IXUSR | S_IXGRP | S_IXOTH))) return '*';
return APPCHAR(mode);
}
#endif
/*----------------------------------------------------------------------*/
static void nexttabstop( void )
{
static short nexttab= 0;
int n=0;
if (column > 0) {
n= nexttab - column;
if (n < 1) n= 1;
while (n--) {
fprintf(stdout, " ");
column++;
}
}
nexttab= column + column_width + COLUMN_GAP ;
}
/*----------------------------------------------------------------------*/
int countdirs(struct dnode **dn, int nfiles)
{
int i, dirs;
/* count how many dirs and regular files there are */
if (dn==NULL || nfiles < 1) return(0);
dirs= 0;
for (i=0; i<nfiles; i++) {
if (S_ISDIR(dn[i]->dstat.st_mode)) dirs++;
}
return(dirs);
}
int countfiles(struct dnode **dnp)
{
int nfiles;
struct dnode *cur;
if (dnp == NULL) return(0);
nfiles= 0;
for (cur= dnp[0]; cur->next != NULL ; cur= cur->next) nfiles++;
nfiles++;
return(nfiles);
}
/* get memory to hold an array of pointers */
struct dnode **dnalloc(int num)
{
struct dnode **p;
if (num < 1) return(NULL);
p= (struct dnode **)xcalloc((size_t)num, (size_t)(sizeof(struct dnode *)));
return(p);
}
void dfree(struct dnode **dnp)
{
struct dnode *cur, *next;
if(dnp == NULL) return;
cur=dnp[0];
while (cur != NULL) {
if (cur->fullname != NULL) free(cur->fullname); /* free the filename */
next= cur->next;
free(cur); /* free the dnode */
cur= next;
}
free(dnp); /* free the array holding the dnode pointers */
}
struct dnode **splitdnarray(struct dnode **dn, int nfiles, int which)
{
int dncnt, i, d;
struct dnode **dnp;
if (dn==NULL || nfiles < 1) return(NULL);
/* count how many dirs and regular files there are */
dncnt= countdirs(dn, nfiles); /* assume we are looking for dirs */
if (which != SPLIT_DIR)
dncnt= nfiles - dncnt; /* looking for files */
/* allocate a file array and a dir array */
dnp= dnalloc(dncnt);
/* copy the entrys into the file or dir array */
for (d= i=0; i<nfiles; i++) {
if (which == SPLIT_DIR) {
if (S_ISDIR(dn[i]->dstat.st_mode)) {
dnp[d++]= dn[i];
} /* else skip the file */
} else {
if (!(S_ISDIR(dn[i]->dstat.st_mode))) {
dnp[d++]= dn[i];
} /* else skip the dir */
}
}
return(dnp);
}
/*----------------------------------------------------------------------*/
#ifdef BB_FEATURE_LS_SORTFILES
int sortcmp(struct dnode *d1, struct dnode *d2)
{
int cmp, dif;
cmp= 0;
if (sort_opts == SORT_SIZE) {
dif= (int)(d1->dstat.st_size - d2->dstat.st_size);
} else if (sort_opts == SORT_ATIME) {
dif= (int)(d1->dstat.st_atime - d2->dstat.st_atime);
} else if (sort_opts == SORT_CTIME) {
dif= (int)(d1->dstat.st_ctime - d2->dstat.st_ctime);
} else if (sort_opts == SORT_MTIME) {
dif= (int)(d1->dstat.st_mtime - d2->dstat.st_mtime);
} else if (sort_opts == SORT_DIR) {
dif= S_ISDIR(d1->dstat.st_mode) - S_ISDIR(d2->dstat.st_mode);
/* } else if (sort_opts == SORT_VERSION) { */
/* } else if (sort_opts == SORT_EXT) { */
} else { /* assume SORT_NAME */
dif= 0;
}
if (dif > 0) cmp= -1;
if (dif < 0) cmp= 1;
if (dif == 0) {
/* sort by name- may be a tie_breaker for time or size cmp */
dif= strcmp(d1->name, d2->name);
if (dif > 0) cmp= 1;
if (dif < 0) cmp= -1;
}
if (sort_order == SORT_REVERSE) {
cmp= -1 * cmp;
}
return(cmp);
}
/*----------------------------------------------------------------------*/
void shellsort(struct dnode **dn, int size)
{
struct dnode *temp;
int gap, i, j;
/* shell short the array */
if(dn==NULL || size < 2) return;
for (gap= size/2; gap>0; gap /=2) {
for (i=gap; i<size; i++) {
for (j= i-gap; j>=0; j-=gap) {
if (sortcmp(dn[j], dn[j+gap]) <= 0)
break;
/* they are out of order, swap them */
temp= dn[j];
dn[j]= dn[j+gap];
dn[j+gap]= temp;
}
}
}
}
#endif
/*----------------------------------------------------------------------*/
void showfiles(struct dnode **dn, int nfiles)
{
int i, ncols, nrows, row, nc;
#ifdef BB_FEATURE_AUTOWIDTH
int len;
#endif
if(dn==NULL || nfiles < 1) return;
#ifdef BB_FEATURE_AUTOWIDTH
/* find the longest file name- use that as the column width */
column_width= 0;
for (i=0; i<nfiles; i++) {
len= strlen(dn[i]->name) +
((list_fmt & LIST_INO) ? 8 : 0) +
((list_fmt & LIST_BLOCKS) ? 5 : 0)
;
if (column_width < len) column_width= len;
}
#endif
ncols= (int)(terminal_width / (column_width + COLUMN_GAP));
switch (style_fmt) {
case STYLE_LONG: /* one record per line, extended info */
case STYLE_SINGLE: /* one record per line */
ncols= 1;
break;
}
nrows= nfiles / ncols;
if ((nrows * ncols) < nfiles) nrows++; /* round up fractionals */
if (nrows > nfiles) nrows= nfiles;
for (row=0; row<nrows; row++) {
for (nc=0; nc<ncols; nc++) {
/* reach into the array based on the column and row */
i= (nc * nrows) + row; /* assume display by column */
if (disp_opts & DISP_ROWS)
i= (row * ncols) + nc; /* display across row */
if (i < nfiles) {
nexttabstop();
list_single(dn[i]);
}
}
newline();
}
}
/*----------------------------------------------------------------------*/
void showdirs(struct dnode **dn, int ndirs)
{
int i, nfiles;
struct dnode **subdnp;
#ifdef BB_FEATURE_LS_SORTFILES
int dndirs;
struct dnode **dnd;
#endif
if (dn==NULL || ndirs < 1) return;
for (i=0; i<ndirs; i++) {
if (disp_opts & (DISP_DIRNAME | DISP_RECURSIVE)) {
fprintf(stdout, "\n%s:\n", dn[i]->fullname);
}
subdnp= list_dir(dn[i]->fullname);
nfiles= countfiles(subdnp);
if (nfiles > 0) {
/* list all files at this level */
#ifdef BB_FEATURE_LS_SORTFILES
shellsort(subdnp, nfiles);
#endif
showfiles(subdnp, nfiles);
#ifdef BB_FEATURE_LS_RECURSIVE
if (disp_opts & DISP_RECURSIVE) {
/* recursive- list the sub-dirs */
dnd= splitdnarray(subdnp, nfiles, SPLIT_DIR);
dndirs= countdirs(subdnp, nfiles);
if (dndirs > 0) {
shellsort(dnd, dndirs);
showdirs(dnd, dndirs);
free(dnd); /* free the array of dnode pointers to the dirs */
}
}
dfree(subdnp); /* free the dnodes and the fullname mem */
#endif
}
}
}
/*----------------------------------------------------------------------*/
struct dnode **list_dir(char *path)
{
struct dnode *dn, *cur, **dnp;
struct dirent *entry;
DIR *dir;
char *fnend, fullname[BUFSIZ+1] ;
int i, nfiles;
if (path==NULL) return(NULL);
strcpy(fullname, path);
fnend = fullname + strlen(fullname);
if (fnend[-1] != '/') {
strcat(fullname, "/");
fnend++;
}
dn= NULL;
nfiles= 0;
dir = opendir(fullname);
if (dir == NULL) {
errorMsg("%s: %s\n", fullname, strerror(errno));
return(NULL); /* could not open the dir */
}
while ((entry = readdir(dir)) != NULL) {
/* are we going to list the file- it may be . or .. or a hidden file */
strcpy(fnend, entry->d_name);
if ((strcmp(fnend, ".")==0) && !(disp_opts & DISP_DOT)) continue;
if ((strcmp(fnend, "..")==0) && !(disp_opts & DISP_DOT)) continue;
if ((fnend[0] == '.') && !(disp_opts & DISP_HIDDEN)) continue;
cur= (struct dnode *)xmalloc(sizeof(struct dnode));
cur->fullname= xstrdup(fullname);
cur->name= cur->fullname + (int)(fnend - fullname) ;
if (lstat(fullname, &cur->dstat)) { /* get file stat info into node */
errorMsg("%s: %s\n", fullname, strerror(errno));
free(cur->fullname);
free(cur);
continue;
}
cur->next= dn;
dn= cur;
nfiles++;
}
closedir(dir);
/* now that we know how many files there are
** allocate memory for an array to hold dnode pointers
*/
if (nfiles < 1) return(NULL);
dnp= dnalloc(nfiles);
for (i=0, cur=dn; i<nfiles; i++) {
dnp[i]= cur; /* save pointer to node in array */
cur= cur->next;
}
return(dnp);
}
/*----------------------------------------------------------------------*/
int list_single(struct dnode *dn)
{
int i, len;
char scratch[BUFSIZ + 1];
#ifdef BB_FEATURE_LS_TIMESTAMPS
char *filetime;
time_t ttime, age;
#endif
#ifdef BB_FEATURE_LS_FILETYPES
struct stat info;
char append;
#endif
if (dn==NULL || dn->fullname==NULL) return(0);
#ifdef BB_FEATURE_LS_TIMESTAMPS
ttime= dn->dstat.st_mtime; /* the default time */
if (time_fmt & TIME_ACCESS) ttime= dn->dstat.st_atime;
if (time_fmt & TIME_CHANGE) ttime= dn->dstat.st_ctime;
filetime= ctime(&ttime);
#endif
#ifdef BB_FEATURE_LS_FILETYPES
append = append_char(dn->dstat.st_mode);
#endif
for (i=0; i<=31; i++) {
switch (list_fmt & (1<<i)) {
case LIST_INO:
fprintf(stdout, "%7ld ", dn->dstat.st_ino);
column += 8;
break;
case LIST_BLOCKS:
fprintf(stdout, "%4ld ", dn->dstat.st_blocks>>1);
column += 5;
break;
case LIST_MODEBITS:
fprintf(stdout, "%10s", (char *)modeString(dn->dstat.st_mode));
column += 10;
break;
case LIST_NLINKS:
fprintf(stdout, "%4d ", dn->dstat.st_nlink);
column += 10;
break;
case LIST_ID_NAME:
#ifdef BB_FEATURE_LS_USERNAME
{
memset(&info, 0, sizeof(struct stat));
memset(scratch, 0, sizeof(scratch));
if (!stat(dn->fullname, &info)) {
my_getpwuid(scratch, info.st_uid);
}
if (*scratch) {
fprintf(stdout, "%-8.8s ", scratch);
} else {
fprintf(stdout, "%-8d ", dn->dstat.st_uid);
}
memset(scratch, 0, sizeof(scratch));
if (info.st_ctime != 0) {
my_getgrgid(scratch, info.st_gid);
}
if (*scratch) {
fprintf(stdout, "%-8.8s", scratch);
} else {
fprintf(stdout, "%-8d", dn->dstat.st_gid);
}
column += 17;
}
break;
#endif
case LIST_ID_NUMERIC:
fprintf(stdout, "%-8d %-8d", dn->dstat.st_uid, dn->dstat.st_gid);
column += 17;
break;
case LIST_SIZE:
case LIST_DEV:
if (S_ISBLK(dn->dstat.st_mode) || S_ISCHR(dn->dstat.st_mode)) {
fprintf(stdout, "%4d, %3d ", (int)MAJOR(dn->dstat.st_rdev), (int)MINOR(dn->dstat.st_rdev));
} else {
fprintf(stdout, "%9ld ", dn->dstat.st_size);
}
column += 10;
break;
#ifdef BB_FEATURE_LS_TIMESTAMPS
case LIST_FULLTIME:
case LIST_DATE_TIME:
if (list_fmt & LIST_FULLTIME) {
fprintf(stdout, "%24.24s ", filetime);
column += 25;
break;
}
age = time(NULL) - ttime;
fprintf(stdout, "%6.6s ", filetime+4);
if (age < 3600L * 24 * 365 / 2 && age > -15 * 60) {
/* hh:mm if less than 6 months old */
fprintf(stdout, "%5.5s ", filetime+11);
} else {
fprintf(stdout, " %4.4s ", filetime+20);
}
column += 13;
break;
#endif
case LIST_FILENAME:
fprintf(stdout, "%s", dn->name);
column += strlen(dn->name);
break;
case LIST_SYMLINK:
if (S_ISLNK(dn->dstat.st_mode)) {
len= readlink(dn->fullname, scratch, (sizeof scratch)-1);
if (len > 0) {
scratch[len]= '\0';
fprintf(stdout, " -> %s", scratch);
#ifdef BB_FEATURE_LS_FILETYPES
if (!stat(dn->fullname, &info)) {
append = append_char(info.st_mode);
}
#endif
column += len+4;
}
}
break;
#ifdef BB_FEATURE_LS_FILETYPES
case LIST_FILETYPE:
if (append != '\0') {
fprintf(stdout, "%1c", append);
column++;
}
break;
#endif
}
}
return(0);
}
/*----------------------------------------------------------------------*/
extern int ls_main(int argc, char **argv)
{
struct dnode **dnf, **dnd;
int dnfiles, dndirs;
struct dnode *dn, *cur, **dnp;
int i, nfiles;
int opt;
int oi, ac;
char **av;
disp_opts= DISP_NORMAL;
style_fmt= STYLE_AUTO;
list_fmt= LIST_SHORT;
#ifdef BB_FEATURE_LS_SORTFILES
sort_opts= SORT_NAME;
#endif
#ifdef BB_FEATURE_LS_TIMESTAMPS
time_fmt= TIME_MOD;
#endif
nfiles=0;
applet_name= argv[0];
/* process options */
while ((opt = getopt(argc, argv, "1AaCdgilnsx"
#ifdef BB_FEATURE_AUTOWIDTH
"T:w:"
#endif
#ifdef BB_FEATURE_LS_FILETYPES
"Fp"
#endif
#ifdef BB_FEATURE_LS_RECURSIVE
"R"
#endif
#ifdef BB_FEATURE_LS_SORTFILES
"rSvX"
#endif
#ifdef BB_FEATURE_LS_TIMESTAMPS
"cetu"
#endif
)) > 0) {
switch (opt) {
case '1': style_fmt = STYLE_SINGLE; break;
case 'A': disp_opts |= DISP_HIDDEN; break;
case 'a': disp_opts |= DISP_HIDDEN | DISP_DOT; break;
case 'C': style_fmt = STYLE_COLUMNS; break;
case 'd': disp_opts |= DISP_NOLIST; break;
case 'e': list_fmt |= LIST_FULLTIME; break;
case 'g': /* ignore -- for ftp servers */ break;
case 'i': list_fmt |= LIST_INO; break;
case 'l': style_fmt = STYLE_LONG; list_fmt |= LIST_LONG; break;
case 'n': list_fmt |= LIST_ID_NUMERIC; break;
case 's': list_fmt |= LIST_BLOCKS; break;
case 'x': disp_opts = DISP_ROWS; break;
#ifdef BB_FEATURE_LS_FILETYPES
case 'F': list_fmt |= LIST_FILETYPE | LIST_EXEC; break;
case 'p': list_fmt |= LIST_FILETYPE; break;
#endif
#ifdef BB_FEATURE_LS_RECURSIVE
case 'R': disp_opts |= DISP_RECURSIVE; break;
#endif
#ifdef BB_FEATURE_LS_SORTFILES
case 'r': sort_order |= SORT_REVERSE; break;
case 'S': sort_opts= SORT_SIZE; break;
case 'v': sort_opts= SORT_VERSION; break;
case 'X': sort_opts= SORT_EXT; break;
#endif
#ifdef BB_FEATURE_LS_TIMESTAMPS
case 'c': time_fmt = TIME_CHANGE; sort_opts= SORT_CTIME; break;
case 't': sort_opts= SORT_MTIME; break;
case 'u': time_fmt = TIME_ACCESS; sort_opts= SORT_ATIME; break;
#endif
#ifdef BB_FEATURE_AUTOWIDTH
case 'T': tabstops= atoi(optarg); break;
case 'w': terminal_width= atoi(optarg); break;
#endif
default:
goto print_usage_message;
}
}
/* sort out which command line options take precedence */
#ifdef BB_FEATURE_LS_RECURSIVE
if (disp_opts & DISP_NOLIST)
disp_opts &= ~DISP_RECURSIVE; /* no recurse if listing only dir */
#endif
#ifdef BB_FEATURE_LS_TIMESTAMPS
if (time_fmt & TIME_CHANGE) sort_opts= SORT_CTIME;
if (time_fmt & TIME_ACCESS) sort_opts= SORT_ATIME;
#endif
if (style_fmt != STYLE_LONG)
list_fmt &= ~LIST_ID_NUMERIC; /* numeric uid only for long list */
#ifdef BB_FEATURE_LS_USERNAME
if (style_fmt == STYLE_LONG && (list_fmt & LIST_ID_NUMERIC))
list_fmt &= ~LIST_ID_NAME; /* don't list names if numeric uid */
#endif
/* choose a display format */
if (style_fmt == STYLE_AUTO)
style_fmt = isatty(fileno(stdout)) ? STYLE_COLUMNS : STYLE_SINGLE;
/*
* when there are no cmd line args we have to supply a default "." arg.
* we will create a second argv array, "av" that will hold either
* our created "." arg, or the real cmd line args. The av array
* just holds the pointers- we don't move the date the pointers
* point to.
*/
ac= argc - optind; /* how many cmd line args are left */
if (ac < 1) {
av= (char **)xcalloc((size_t)1, (size_t)(sizeof(char *)));
av[0]= xstrdup(".");
ac=1;
} else {
av= (char **)xcalloc((size_t)ac, (size_t)(sizeof(char *)));
for (oi=0 ; oi < ac; oi++) {
av[oi]= argv[optind++]; /* copy pointer to real cmd line arg */
}
}
/* now, everything is in the av array */
if (ac > 1)
disp_opts |= DISP_DIRNAME; /* 2 or more items? label directories */
/* stuff the command line file names into an dnode array */
dn=NULL;
for (oi=0 ; oi < ac; oi++) {
cur= (struct dnode *)xmalloc(sizeof(struct dnode));
cur->fullname= xstrdup(av[oi]);
cur->name= cur->fullname ;
if (lstat(av[oi], &cur->dstat)) { /* get file info into node */
errorMsg("%s: %s\n", av[oi], strerror(errno));
free(cur->fullname);
free(cur);
continue;
}
cur->next= dn;
dn= cur;
nfiles++;
}
/* now that we know how many files there are
** allocate memory for an array to hold dnode pointers
*/
dnp= dnalloc(nfiles);
for (i=0, cur=dn; i<nfiles; i++) {
dnp[i]= cur; /* save pointer to node in array */
cur= cur->next;
}
if (disp_opts & DISP_NOLIST) {
#ifdef BB_FEATURE_LS_SORTFILES
shellsort(dnp, nfiles);
#endif
if (nfiles > 0) showfiles(dnp, nfiles);
} else {
dnd= splitdnarray(dnp, nfiles, SPLIT_DIR);
dnf= splitdnarray(dnp, nfiles, SPLIT_FILE);
dndirs= countdirs(dnp, nfiles);
dnfiles= nfiles - dndirs;
if (dnfiles > 0) {
#ifdef BB_FEATURE_LS_SORTFILES
shellsort(dnf, dnfiles);
#endif
showfiles(dnf, dnfiles);
}
if (dndirs > 0) {
#ifdef BB_FEATURE_LS_SORTFILES
shellsort(dnd, dndirs);
#endif
showdirs(dnd, dndirs);
}
}
return(0);
print_usage_message:
usage(ls_usage);
return(FALSE);
}