toys/posix/ls.c - third_party/toybox - Git at Google

 /* ls.c - list files
  *
  * Copyright 2012 Andre Renaud <andre@bluewatersys.com>
  * Copyright 2012 Rob Landley <rob@landley.net>
  *
  * See http://opengroup.org/onlinepubs/9699919799/utilities/ls.html

 USE_LS(NEWTOY(ls, USE_LS_COLOR("(color):;")"(full-time)(show-control-chars)ZgoACFHLRSabcdfhikl@mnpqrstux1[-Cxm1][-Cxml][-Cxmo][-Cxmg][-cu][-ftS][-HL][!qb]", TOYFLAG_BIN|TOYFLAG_LOCALE))

 config LS
   bool "ls"
   default y
   help
     usage: ls [-ACFHLRSZacdfhiklmnpqrstux1] [directory...]

     list files

     what to show:
     -a  all files including .hidden    -b  escape nongraphic chars
     -c  use ctime for timestamps       -d  directory, not contents
     -i  inode number                   -p  put a '/' after dir names
     -q  unprintable chars as '?'       -s  storage used (1024 byte units)
     -u  use access time for timestamps -A  list all files but . and ..
     -H  follow command line symlinks   -L  follow symlinks
     -R  recursively list in subdirs    -F  append /dir *exe @sym |FIFO
     -Z  security context

     output formats:
     -1  list one file per line         -C  columns (sorted vertically)
     -g  like -l but no owner           -h  human readable sizes
     -l  long (show full details)       -m  comma separated
     -n  like -l but numeric uid/gid    -o  like -l but no group
     -x  columns (horizontal sort)      -ll long with nanoseconds (--full-time)

     sorting (default is alphabetical):
     -f  unsorted    -r  reverse    -t  timestamp    -S  size

 config LS_COLOR
   bool "ls --color"
   default y
   depends on LS
   help
     usage: ls --color[=auto]

     --color  device=yellow  symlink=turquoise/red  dir=blue  socket=purple
              files: exe=green  suid=red  suidfile=redback  stickydir=greenback
              =auto means detect if output is a tty.
 */

 #define FOR_ls
 #include "toys.h"

 // test sst output (suid/sticky in ls flaglist)

 // ls -lR starts .: then ./subdir:

 GLOBALS(
   long ll;
   char *color;

   struct dirtree *files, *singledir;

   unsigned screen_width;
   int nl_title;
   char *escmore;
 )

 // Callback from crunch_str to represent unprintable chars
 static int crunch_qb(FILE *out, int cols, int wc)
 {
   unsigned len = 1;
   char buf[32];

   if (toys.optflags&FLAG_q) *buf = '?';
   else {
     if (wc<256) *buf = wc;
     // scrute the inscrutable, eff the ineffable, print the unprintable
     else len = wcrtomb(buf, wc, 0);
     if (toys.optflags&FLAG_b) {
       char *to = buf, *from = buf+24;
       int i, j;

       memcpy(from, to, 8);
       for (i = 0; i<len; i++) {
         *to++ = '\\';
         if (strchr(TT.escmore, from[i])) *to++ = from[i];
         else if (-1 != (j = stridx("\\\a\b\033\f\n\r\t\v", from[i])))
           *to++ = "\\abefnrtv"[j];
         else to += sprintf(to, "%03o", from[i]);
       }
       len = to-buf;
     }
   }

   if (cols<len) len = cols;
   if (out) fwrite(buf, len, 1, out);

   return len;
 }

 // Returns wcwidth(utf8) version of strlen with -qb escapes
 static int strwidth(char *s)
 {
   return crunch_str(&s, INT_MAX, 0, TT.escmore, crunch_qb);
 }

 static char endtype(struct stat *st)
 {
   mode_t mode = st->st_mode;
   if ((toys.optflags&(FLAG_F|FLAG_p)) && S_ISDIR(mode)) return '/';
   if (toys.optflags & FLAG_F) {
     if (S_ISLNK(mode)) return '@';
     if (S_ISREG(mode) && (mode&0111)) return '*';
     if (S_ISFIFO(mode)) return '|';
     if (S_ISSOCK(mode)) return '=';
   }
   return 0;
 }

 static int numlen(long long ll)
 {
   return snprintf(0, 0, "%llu", ll);
 }

 static int print_with_h(char *s, long long value, int units)
 {
   if (toys.optflags&FLAG_h) return human_readable(s, value*units, 0);
   else return sprintf(s, "%lld", value);
 }

 // Figure out size of printable entry fields for display indent/wrap

 static void entrylen(struct dirtree *dt, unsigned *len)
 {
   struct stat *st = &(dt->st);
   unsigned flags = toys.optflags;
   char tmp[64];

   *len = strwidth(dt->name);
   if (endtype(st)) ++*len;
   if (flags & FLAG_m) ++*len;

   len[1] = (flags & FLAG_i) ? numlen(st->st_ino) : 0;
   if (flags & (FLAG_l|FLAG_o|FLAG_n|FLAG_g)) {
     unsigned fn = flags & FLAG_n;

     len[2] = numlen(st->st_nlink);
     len[3] = fn ? numlen(st->st_uid) : strwidth(getusername(st->st_uid));
     len[4] = fn ? numlen(st->st_gid) : strwidth(getgroupname(st->st_gid));
     if (S_ISBLK(st->st_mode) || S_ISCHR(st->st_mode)) {
       // cheating slightly here: assuming minor is always 3 digits to avoid
       // tracking another column
       len[5] = numlen(dev_major(st->st_rdev))+5;
     } else len[5] = print_with_h(tmp, st->st_size, 1);
   }

   len[6] = (flags & FLAG_s) ? print_with_h(tmp, st->st_blocks, 512) : 0;
   len[7] = (flags & FLAG_Z) ? strwidth((char *)dt->extra) : 0;
 }

 static int compare(void *a, void *b)
 {
   struct dirtree *dta = *(struct dirtree **)a;
   struct dirtree *dtb = *(struct dirtree **)b;
   int ret = 0, reverse = (toys.optflags & FLAG_r) ? -1 : 1;

   if (toys.optflags & FLAG_S) {
     if (dta->st.st_size > dtb->st.st_size) ret = -1;
     else if (dta->st.st_size < dtb->st.st_size) ret = 1;
   }
   if (toys.optflags & FLAG_t) {
     if (dta->st.st_mtime > dtb->st.st_mtime) ret = -1;
     else if (dta->st.st_mtime < dtb->st.st_mtime) ret = 1;
   }
   if (!ret) ret = strcmp(dta->name, dtb->name);
   return ret * reverse;
 }

 // callback from dirtree_recurse() determining how to handle this entry.

 static int filter(struct dirtree *new)
 {
   int flags = toys.optflags;

   // Special case to handle enormous dirs without running out of memory.
   if (flags == (FLAG_1|FLAG_f)) {
     xprintf("%s\n", new->name);
     return 0;
   }

   if (flags & FLAG_Z) {
     if (!CFG_TOYBOX_LSM_NONE) {

       // (Wouldn't it be nice if the lsm functions worked like openat(),
       // fchmodat(), mknodat(), readlinkat() so we could do this without
       // even O_PATH? But no, this is 1990's tech.)
       int fd = openat(dirtree_parentfd(new), new->name,
         O_PATH|(O_NOFOLLOW*!(toys.optflags&FLAG_L)));

       if (fd != -1) {
         if (-1 == lsm_fget_context(fd, (char **)&new->extra) && errno == EBADF)
         {
           char hack[32];

           // Work around kernel bug that won't let us read this "metadata" from
           // the filehandle unless we have permission to read the data. (We can
           // query the same data in by path, but can't do it through an O_PATH
           // filehandle, because reasons. But for some reason, THIS is ok? If
           // they ever fix the kernel, this should stop triggering.)

           sprintf(hack, "/proc/self/fd/%d", fd);
           lsm_lget_context(hack, (char **)&new->extra);
         }
         close(fd);
       }
     }
     if (CFG_TOYBOX_LSM_NONE || !new->extra) new->extra = (long)xstrdup("?");
   }

   if (flags & FLAG_u) new->st.st_mtime = new->st.st_atime;
   if (flags & FLAG_c) new->st.st_mtime = new->st.st_ctime;
   new->st.st_blocks >>= 1;

   if (flags & (FLAG_a|FLAG_f)) return DIRTREE_SAVE;
   if (!(flags & FLAG_A) && new->name[0]=='.') return 0;

   return dirtree_notdotdot(new) & DIRTREE_SAVE;
 }

 // For column view, calculate horizontal position (for padding) and return
 // index of next entry to display.

 static unsigned long next_column(unsigned long ul, unsigned long dtlen,
   unsigned columns, unsigned *xpos)
 {
   unsigned long transition;
   unsigned height, widecols;

   // Horizontal sort is easy
   if (!(toys.optflags & FLAG_C)) {
     *xpos = ul % columns;
     return ul;
   }

   // vertical sort

   // For -x, calculate height of display, rounded up
   height = (dtlen+columns-1)/columns;

   // Sanity check: does wrapping render this column count impossible
   // due to the right edge wrapping eating a whole row?
   if (height*columns - dtlen >= height) {
     *xpos = columns;
     return 0;
   }

   // Uneven rounding goes along right edge
   widecols = dtlen % height;
   if (!widecols) widecols = height;
   transition = widecols * columns;
   if (ul < transition) {
     *xpos =  ul % columns;
     return (*xpos*height) + (ul/columns);
   }

   ul -= transition;
   *xpos = ul % (columns-1);

   return (*xpos*height) + widecols + (ul/(columns-1));
 }

 static int color_from_mode(mode_t mode)
 {
   int color = 0;

   if (S_ISDIR(mode)) color = 256+34;
   else if (S_ISLNK(mode)) color = 256+36;
   else if (S_ISBLK(mode) || S_ISCHR(mode)) color = 256+33;
   else if (S_ISREG(mode) && (mode&0111)) color = 256+32;
   else if (S_ISFIFO(mode)) color = 33;
   else if (S_ISSOCK(mode)) color = 256+35;

   return color;
 }

 // Display a list of dirtree entries, according to current format
 // Output types -1, -l, -C, or stream

 static void listfiles(int dirfd, struct dirtree *indir)
 {
   struct dirtree *dt, **sort;
   unsigned long dtlen, ul = 0;
   unsigned width, flags = toys.optflags, totals[8], len[8], totpad = 0,
     *colsizes = (unsigned *)toybuf, columns = sizeof(toybuf)/4;
   char tmp[64];

   if (-1 == dirfd) {
     perror_msg_raw(indir->name);

     return;
   }

   memset(totals, 0, sizeof(totals));
   if (CFG_TOYBOX_DEBUG) memset(len, 0, sizeof(len));

   // Top level directory was already populated by main()
   if (!indir->parent) {
     // Silently descend into single directory listed by itself on command line.
     // In this case only show dirname/total header when given -R.
     dt = indir->child;
     if (dt && S_ISDIR(dt->st.st_mode) && !dt->next && !(flags&(FLAG_d|FLAG_R)))
     {
       listfiles(open(dt->name, 0), TT.singledir = dt);

       return;
     }

     // Do preprocessing (Dirtree didn't populate, so callback wasn't called.)
     for (;dt; dt = dt->next) filter(dt);
     if (flags == (FLAG_1|FLAG_f)) return;
   // Read directory contents. We dup() the fd because this will close it.
   // This reads/saves contents to display later, except for in "ls -1f" mode.
   } else dirtree_recurse(indir, filter, dup(dirfd),
       DIRTREE_SYMFOLLOW*!!(flags&FLAG_L));

   // Copy linked list to array and sort it. Directories go in array because
   // we visit them in sorted order too. (The nested loops let us measure and
   // fill with the same inner loop.)
   for (sort = 0;;sort = xmalloc(dtlen*sizeof(void *))) {
     for (dtlen = 0, dt = indir->child; dt; dt = dt->next, dtlen++)
       if (sort) sort[dtlen] = dt;
     if (sort || !dtlen) break;
   }

   // Label directory if not top of tree, or if -R
   if (indir->parent && (TT.singledir!=indir || (flags&FLAG_R)))
   {
     char *path = dirtree_path(indir, 0);

     if (TT.nl_title++) xputc('\n');
     xprintf("%s:\n", path);
     free(path);
   }

   // Measure each entry to work out whitespace padding and total blocks
   if (!(flags & FLAG_f)) {
     unsigned long long blocks = 0;

     qsort(sort, dtlen, sizeof(void *), (void *)compare);
     for (ul = 0; ul<dtlen; ul++) {
       entrylen(sort[ul], len);
       for (width = 0; width<8; width++)
         if (len[width]>totals[width]) totals[width] = len[width];
       blocks += sort[ul]->st.st_blocks;
     }
     totpad = totals[1]+!!totals[1]+totals[6]+!!totals[6]+totals[7]+!!totals[7];
     if ((flags&(FLAG_h|FLAG_l|FLAG_o|FLAG_n|FLAG_g|FLAG_s)) && indir->parent) {
       print_with_h(tmp, blocks, 512);
       xprintf("total %s\n", tmp);
     }
   }

   // Find largest entry in each field for display alignment
   if (flags & (FLAG_C|FLAG_x)) {

     // columns can't be more than toybuf can hold, or more than files,
     // or > 1/2 screen width (one char filename, one space).
     if (columns > TT.screen_width/2) columns = TT.screen_width/2;
     if (columns > dtlen) columns = dtlen;

     // Try to fit as many columns as we can, dropping down by one each time
     for (;columns > 1; columns--) {
       unsigned c, totlen = columns;

       memset(colsizes, 0, columns*sizeof(unsigned));
       for (ul=0; ul<dtlen; ul++) {
         entrylen(sort[next_column(ul, dtlen, columns, &c)], len);
         *len += totpad+1;
         if (c == columns) break;
         // Expand this column if necessary, break if that puts us over budget
         if (*len > colsizes[c]) {
           totlen += (*len)-colsizes[c];
           colsizes[c] = *len;
           if (totlen > TT.screen_width) break;
         }
       }
       // If everything fit, stop here
       if (ul == dtlen) break;
     }
   }

   // Loop through again to produce output.
   width = 0;
   for (ul = 0; ul<dtlen; ul++) {
     int ii;
     unsigned curcol, color = 0;
     unsigned long next = next_column(ul, dtlen, columns, &curcol);
     struct stat *st = &(sort[next]->st);
     mode_t mode = st->st_mode;
     char et = endtype(st), *ss;

     // Skip directories at the top of the tree when -d isn't set
     if (S_ISDIR(mode) && !indir->parent && !(flags & FLAG_d)) continue;
     TT.nl_title=1;

     // Handle padding and wrapping for display purposes
     entrylen(sort[next], len);
     if (ul) {
       int mm = !!(flags & FLAG_m);

       if (mm) xputc(',');
       if (flags & (FLAG_C|FLAG_x)) {
         if (!curcol) xputc('\n');
       } else if ((flags & FLAG_1) || width+1+*len > TT.screen_width) {
         xputc('\n');
         width = 0;
       } else {
         printf("  "+mm, 0); // shut up the stupid compiler
         width += 2-mm;
       }
     }
     width += *len;

     if (flags & FLAG_i) printf("%*lu ", totals[1], (unsigned long)st->st_ino);

     if (flags & FLAG_s) {
       print_with_h(tmp, st->st_blocks, 512);
       printf("%*s ", totals[6], tmp);
     }

     if (flags & (FLAG_l|FLAG_o|FLAG_n|FLAG_g)) {
       struct tm *tm;

       // (long) is to coerce the st types into something we know we can print.
       mode_to_string(mode, tmp);
       printf("%s% *ld", tmp, totals[2]+1, (long)st->st_nlink);

       // print user
       if (!(flags&FLAG_g)) {
         putchar(' ');
         ii = -totals[3];
         if (flags&FLAG_n) printf("%*u", ii, (unsigned)st->st_uid);
         else draw_trim_esc(getusername(st->st_uid), ii, abs(ii), TT.escmore,
                            crunch_qb);
       }

       // print group
       if (!(flags&FLAG_o)) {
         putchar(' ');
         ii = -totals[4];
         if (flags&FLAG_n) printf("%*u", ii, (unsigned)st->st_gid);
         else draw_trim_esc(getgroupname(st->st_gid), ii, abs(ii), TT.escmore,
                            crunch_qb);
       }

       if (flags & FLAG_Z)
         printf(" %-*s", -(int)totals[7], (char *)sort[next]->extra);

       // print major/minor, or size
       if (S_ISCHR(st->st_mode) || S_ISBLK(st->st_mode))
         printf("% *d,% 4d", totals[5]-4, dev_major(st->st_rdev),
           dev_minor(st->st_rdev));
       else {
         print_with_h(tmp, st->st_size, 1);
         printf("%*s", totals[5]+1, tmp);
       }

       // print time, always in --time-style=long-iso
       tm = localtime(&(st->st_mtime));
       strftime(tmp, sizeof(tmp), "%F %H:%M", tm);
       if (TT.ll>1) {
         char *s = tmp+strlen(tmp);

         s += sprintf(s, ":%02d.%09d ", tm->tm_sec, (int)st->st_mtim.tv_nsec);
         strftime(s, sizeof(tmp)-(s-tmp), "%z", tm);
       }
       printf(" %s ", tmp);
     } else if (flags & FLAG_Z)
       printf("%-*s ", (int)totals[7], (char *)sort[next]->extra);

     if (flags & FLAG_color) {
       color = color_from_mode(st->st_mode);
       if (color) printf("\033[%d;%dm", color>>8, color&255);
     }

     ss = sort[next]->name;
     crunch_str(&ss, INT_MAX, stdout, TT.escmore, crunch_qb);
     if (color) printf("\033[0m");

     if ((flags & (FLAG_l|FLAG_o|FLAG_n|FLAG_g)) && S_ISLNK(mode)) {
       printf(" -> ");
       if (flags & FLAG_color) {
         struct stat st2;

         if (fstatat(dirfd, sort[next]->symlink, &st2, 0)) color = 256+31;
         else color = color_from_mode(st2.st_mode);

         if (color) printf("\033[%d;%dm", color>>8, color&255);
       }

       printf("%s", sort[next]->symlink);
       if (color) printf("\033[0m");
     }

     if (et) xputc(et);

     // Pad columns
     if (flags & (FLAG_C|FLAG_x)) {
       curcol = colsizes[curcol]-(*len)-totpad;
       if (curcol < 255) printf("%*c", curcol, ' ');
     }
   }

   if (width) xputc('\n');

   // Free directory entries, recursing first if necessary.

   for (ul = 0; ul<dtlen; free(sort[ul++])) {
     if ((flags & FLAG_d) || !S_ISDIR(sort[ul]->st.st_mode)) continue;

     // Recurse into dirs if at top of the tree or given -R
     if (!indir->parent || ((flags&FLAG_R) && dirtree_notdotdot(sort[ul])))
       listfiles(openat(dirfd, sort[ul]->name, 0), sort[ul]);
     free((void *)sort[ul]->extra);
   }
   free(sort);
   if (dirfd != AT_FDCWD) close(dirfd);
 }

 void ls_main(void)
 {
   char **s, *noargs[] = {".", 0};
   struct dirtree *dt;

   if (toys.optflags&FLAG_full_time) {
     toys.optflags |= FLAG_l;
     TT.ll = 2;
   }

   // Do we have an implied -1
   if (isatty(1)) {
     if (!(toys.optflags&FLAG_show_control_chars)) toys.optflags |= FLAG_b;
     if (toys.optflags&(FLAG_l|FLAG_o|FLAG_n|FLAG_g)) toys.optflags |= FLAG_1;
     else if (!(toys.optflags&(FLAG_1|FLAG_x|FLAG_m))) toys.optflags |= FLAG_C;
   } else {
     if (!(toys.optflags & FLAG_m)) toys.optflags |= FLAG_1;
     if (TT.color) toys.optflags ^= FLAG_color;
   }

   TT.screen_width = 80;
   terminal_size(&TT.screen_width, NULL);
   if (TT.screen_width<2) TT.screen_width = 2;
   if (toys.optflags&FLAG_b) TT.escmore = " \\";

   // The optflags parsing infrastructure should really do this for us,
   // but currently it has "switch off when this is set", so "-dR" and "-Rd"
   // behave differently
   if (toys.optflags & FLAG_d) toys.optflags &= ~FLAG_R;

   // Iterate through command line arguments, collecting directories and files.
   // Non-absolute paths are relative to current directory. Top of tree is
   // a dummy node to collect command line arguments into pseudo-directory.
   TT.files = dirtree_add_node(0, 0, 0);
   TT.files->dirfd = AT_FDCWD;
   for (s = *toys.optargs ? toys.optargs : noargs; *s; s++) {
     int sym = !(toys.optflags&(FLAG_l|FLAG_d|FLAG_F))
       || (toys.optflags&(FLAG_L|FLAG_H));

     dt = dirtree_add_node(0, *s, DIRTREE_SYMFOLLOW*sym);

     // note: double_list->prev temporarirly goes in dirtree->parent
     if (dt) dlist_add_nomalloc((void *)&TT.files->child, (void *)dt);
     else toys.exitval = 1;
   }

   // Convert double_list into dirtree.
   dlist_terminate(TT.files->child);
   for (dt = TT.files->child; dt; dt = dt->next) dt->parent = TT.files;

   // Display the files we collected
   listfiles(AT_FDCWD, TT.files);

   if (CFG_TOYBOX_FREE) free(TT.files);
 }
	/* ls.c - list files
	*
	* Copyright 2012 Andre Renaud <andre@bluewatersys.com>
	* Copyright 2012 Rob Landley <rob@landley.net>
	*
	* See http://opengroup.org/onlinepubs/9699919799/utilities/ls.html

	USE_LS(NEWTOY(ls, USE_LS_COLOR("(color):;")"(full-time)(show-control-chars)ZgoACFHLRSabcdfhikl@mnpqrstux1[-Cxm1][-Cxml][-Cxmo][-Cxmg][-cu][-ftS][-HL][!qb]", TOYFLAG_BIN\|TOYFLAG_LOCALE))

	config LS
	bool "ls"
	default y
	help
	usage: ls [-ACFHLRSZacdfhiklmnpqrstux1] [directory...]

	list files

	what to show:
	-a all files including .hidden -b escape nongraphic chars
	-c use ctime for timestamps -d directory, not contents
	-i inode number -p put a '/' after dir names
	-q unprintable chars as '?' -s storage used (1024 byte units)
	-u use access time for timestamps -A list all files but . and ..
	-H follow command line symlinks -L follow symlinks
	-R recursively list in subdirs -F append /dir *exe @sym \|FIFO
	-Z security context

	output formats:
	-1 list one file per line -C columns (sorted vertically)
	-g like -l but no owner -h human readable sizes
	-l long (show full details) -m comma separated
	-n like -l but numeric uid/gid -o like -l but no group
	-x columns (horizontal sort) -ll long with nanoseconds (--full-time)

	sorting (default is alphabetical):
	-f unsorted -r reverse -t timestamp -S size

	config LS_COLOR
	bool "ls --color"
	default y
	depends on LS
	help
	usage: ls --color[=auto]

	--color device=yellow symlink=turquoise/red dir=blue socket=purple
	files: exe=green suid=red suidfile=redback stickydir=greenback
	=auto means detect if output is a tty.
	*/

	#define FOR_ls
	#include "toys.h"

	// test sst output (suid/sticky in ls flaglist)

	// ls -lR starts .: then ./subdir:

	GLOBALS(
	long ll;
	char *color;

	struct dirtree files, singledir;

	unsigned screen_width;
	int nl_title;
	char *escmore;
	)

	// Callback from crunch_str to represent unprintable chars
	static int crunch_qb(FILE *out, int cols, int wc)
	{
	unsigned len = 1;
	char buf[32];

	if (toys.optflags&FLAG_q) *buf = '?';
	else {
	if (wc<256) *buf = wc;
	// scrute the inscrutable, eff the ineffable, print the unprintable
	else len = wcrtomb(buf, wc, 0);
	if (toys.optflags&FLAG_b) {
	char to = buf, from = buf+24;
	int i, j;

	memcpy(from, to, 8);
	for (i = 0; i<len; i++) {
	*to++ = '\\';
	if (strchr(TT.escmore, from[i])) *to++ = from[i];
	else if (-1 != (j = stridx("\\\a\b\033\f\n\r\t\v", from[i])))
	*to++ = "\\abefnrtv"[j];
	else to += sprintf(to, "%03o", from[i]);
	}
	len = to-buf;
	}
	}

	if (cols<len) len = cols;
	if (out) fwrite(buf, len, 1, out);

	return len;
	}

	// Returns wcwidth(utf8) version of strlen with -qb escapes
	static int strwidth(char *s)
	{
	return crunch_str(&s, INT_MAX, 0, TT.escmore, crunch_qb);
	}

	static char endtype(struct stat *st)
	{
	mode_t mode = st->st_mode;
	if ((toys.optflags&(FLAG_F\|FLAG_p)) && S_ISDIR(mode)) return '/';
	if (toys.optflags & FLAG_F) {
	if (S_ISLNK(mode)) return '@';
	if (S_ISREG(mode) && (mode&0111)) return '*';
	if (S_ISFIFO(mode)) return '\|';
	if (S_ISSOCK(mode)) return '=';
	}
	return 0;
	}

	static int numlen(long long ll)
	{
	return snprintf(0, 0, "%llu", ll);
	}

	static int print_with_h(char *s, long long value, int units)
	{
	if (toys.optflags&FLAG_h) return human_readable(s, value*units, 0);
	else return sprintf(s, "%lld", value);
	}

	// Figure out size of printable entry fields for display indent/wrap

	static void entrylen(struct dirtree dt, unsigned len)
	{
	struct stat *st = &(dt->st);
	unsigned flags = toys.optflags;
	char tmp[64];

	*len = strwidth(dt->name);
	if (endtype(st)) ++*len;
	if (flags & FLAG_m) ++*len;

	len[1] = (flags & FLAG_i) ? numlen(st->st_ino) : 0;
	if (flags & (FLAG_l\|FLAG_o\|FLAG_n\|FLAG_g)) {
	unsigned fn = flags & FLAG_n;

	len[2] = numlen(st->st_nlink);
	len[3] = fn ? numlen(st->st_uid) : strwidth(getusername(st->st_uid));
	len[4] = fn ? numlen(st->st_gid) : strwidth(getgroupname(st->st_gid));
	if (S_ISBLK(st->st_mode) \|\| S_ISCHR(st->st_mode)) {
	// cheating slightly here: assuming minor is always 3 digits to avoid
	// tracking another column
	len[5] = numlen(dev_major(st->st_rdev))+5;
	} else len[5] = print_with_h(tmp, st->st_size, 1);
	}

	len[6] = (flags & FLAG_s) ? print_with_h(tmp, st->st_blocks, 512) : 0;
	len[7] = (flags & FLAG_Z) ? strwidth((char *)dt->extra) : 0;
	}

	static int compare(void a, void b)
	{
	struct dirtree dta = (struct dirtree **)a;
	struct dirtree dtb = (struct dirtree **)b;
	int ret = 0, reverse = (toys.optflags & FLAG_r) ? -1 : 1;

	if (toys.optflags & FLAG_S) {
	if (dta->st.st_size > dtb->st.st_size) ret = -1;
	else if (dta->st.st_size < dtb->st.st_size) ret = 1;
	}
	if (toys.optflags & FLAG_t) {
	if (dta->st.st_mtime > dtb->st.st_mtime) ret = -1;
	else if (dta->st.st_mtime < dtb->st.st_mtime) ret = 1;
	}
	if (!ret) ret = strcmp(dta->name, dtb->name);
	return ret * reverse;
	}

	// callback from dirtree_recurse() determining how to handle this entry.

	static int filter(struct dirtree *new)
	{
	int flags = toys.optflags;

	// Special case to handle enormous dirs without running out of memory.
	if (flags == (FLAG_1\|FLAG_f)) {
	xprintf("%s\n", new->name);
	return 0;
	}

	if (flags & FLAG_Z) {
	if (!CFG_TOYBOX_LSM_NONE) {

	// (Wouldn't it be nice if the lsm functions worked like openat(),
	// fchmodat(), mknodat(), readlinkat() so we could do this without
	// even O_PATH? But no, this is 1990's tech.)
	int fd = openat(dirtree_parentfd(new), new->name,
	O_PATH\|(O_NOFOLLOW*!(toys.optflags&FLAG_L)));

	if (fd != -1) {
	if (-1 == lsm_fget_context(fd, (char **)&new->extra) && errno == EBADF)
	{
	char hack[32];

	// Work around kernel bug that won't let us read this "metadata" from
	// the filehandle unless we have permission to read the data. (We can
	// query the same data in by path, but can't do it through an O_PATH
	// filehandle, because reasons. But for some reason, THIS is ok? If
	// they ever fix the kernel, this should stop triggering.)

	sprintf(hack, "/proc/self/fd/%d", fd);
	lsm_lget_context(hack, (char **)&new->extra);
	}
	close(fd);
	}
	}
	if (CFG_TOYBOX_LSM_NONE \|\| !new->extra) new->extra = (long)xstrdup("?");
	}

	if (flags & FLAG_u) new->st.st_mtime = new->st.st_atime;
	if (flags & FLAG_c) new->st.st_mtime = new->st.st_ctime;
	new->st.st_blocks >>= 1;

	if (flags & (FLAG_a\|FLAG_f)) return DIRTREE_SAVE;
	if (!(flags & FLAG_A) && new->name[0]=='.') return 0;

	return dirtree_notdotdot(new) & DIRTREE_SAVE;
	}

	// For column view, calculate horizontal position (for padding) and return
	// index of next entry to display.

	static unsigned long next_column(unsigned long ul, unsigned long dtlen,
	unsigned columns, unsigned *xpos)
	{
	unsigned long transition;
	unsigned height, widecols;

	// Horizontal sort is easy
	if (!(toys.optflags & FLAG_C)) {
	*xpos = ul % columns;
	return ul;
	}

	// vertical sort

	// For -x, calculate height of display, rounded up
	height = (dtlen+columns-1)/columns;

	// Sanity check: does wrapping render this column count impossible
	// due to the right edge wrapping eating a whole row?
	if (height*columns - dtlen >= height) {
	*xpos = columns;
	return 0;
	}

	// Uneven rounding goes along right edge
	widecols = dtlen % height;
	if (!widecols) widecols = height;
	transition = widecols * columns;
	if (ul < transition) {
	*xpos = ul % columns;
	return (xposheight) + (ul/columns);
	}

	ul -= transition;
	*xpos = ul % (columns-1);

	return (xposheight) + widecols + (ul/(columns-1));
	}

	static int color_from_mode(mode_t mode)
	{
	int color = 0;

	if (S_ISDIR(mode)) color = 256+34;
	else if (S_ISLNK(mode)) color = 256+36;
	else if (S_ISBLK(mode) \|\| S_ISCHR(mode)) color = 256+33;
	else if (S_ISREG(mode) && (mode&0111)) color = 256+32;
	else if (S_ISFIFO(mode)) color = 33;
	else if (S_ISSOCK(mode)) color = 256+35;

	return color;
	}

	// Display a list of dirtree entries, according to current format
	// Output types -1, -l, -C, or stream

	static void listfiles(int dirfd, struct dirtree *indir)
	{
	struct dirtree dt, *sort;
	unsigned long dtlen, ul = 0;
	unsigned width, flags = toys.optflags, totals[8], len[8], totpad = 0,
	colsizes = (unsigned )toybuf, columns = sizeof(toybuf)/4;
	char tmp[64];

	if (-1 == dirfd) {
	perror_msg_raw(indir->name);

	return;
	}

	memset(totals, 0, sizeof(totals));
	if (CFG_TOYBOX_DEBUG) memset(len, 0, sizeof(len));

	// Top level directory was already populated by main()
	if (!indir->parent) {
	// Silently descend into single directory listed by itself on command line.
	// In this case only show dirname/total header when given -R.
	dt = indir->child;
	if (dt && S_ISDIR(dt->st.st_mode) && !dt->next && !(flags&(FLAG_d\|FLAG_R)))
	{
	listfiles(open(dt->name, 0), TT.singledir = dt);

	return;
	}

	// Do preprocessing (Dirtree didn't populate, so callback wasn't called.)
	for (;dt; dt = dt->next) filter(dt);
	if (flags == (FLAG_1\|FLAG_f)) return;
	// Read directory contents. We dup() the fd because this will close it.
	// This reads/saves contents to display later, except for in "ls -1f" mode.
	} else dirtree_recurse(indir, filter, dup(dirfd),
	DIRTREE_SYMFOLLOW*!!(flags&FLAG_L));

	// Copy linked list to array and sort it. Directories go in array because
	// we visit them in sorted order too. (The nested loops let us measure and
	// fill with the same inner loop.)
	for (sort = 0;;sort = xmalloc(dtlensizeof(void ))) {
	for (dtlen = 0, dt = indir->child; dt; dt = dt->next, dtlen++)
	if (sort) sort[dtlen] = dt;
	if (sort \|\| !dtlen) break;
	}

	// Label directory if not top of tree, or if -R
	if (indir->parent && (TT.singledir!=indir \|\| (flags&FLAG_R)))
	{
	char *path = dirtree_path(indir, 0);

	if (TT.nl_title++) xputc('\n');
	xprintf("%s:\n", path);
	free(path);
	}

	// Measure each entry to work out whitespace padding and total blocks
	if (!(flags & FLAG_f)) {
	unsigned long long blocks = 0;

	qsort(sort, dtlen, sizeof(void ), (void )compare);
	for (ul = 0; ul<dtlen; ul++) {
	entrylen(sort[ul], len);
	for (width = 0; width<8; width++)
	if (len[width]>totals[width]) totals[width] = len[width];
	blocks += sort[ul]->st.st_blocks;
	}
	totpad = totals[1]+!!totals[1]+totals[6]+!!totals[6]+totals[7]+!!totals[7];
	if ((flags&(FLAG_h\|FLAG_l\|FLAG_o\|FLAG_n\|FLAG_g\|FLAG_s)) && indir->parent) {
	print_with_h(tmp, blocks, 512);
	xprintf("total %s\n", tmp);
	}
	}

	// Find largest entry in each field for display alignment
	if (flags & (FLAG_C\|FLAG_x)) {

	// columns can't be more than toybuf can hold, or more than files,
	// or > 1/2 screen width (one char filename, one space).
	if (columns > TT.screen_width/2) columns = TT.screen_width/2;
	if (columns > dtlen) columns = dtlen;

	// Try to fit as many columns as we can, dropping down by one each time
	for (;columns > 1; columns--) {
	unsigned c, totlen = columns;

	memset(colsizes, 0, columns*sizeof(unsigned));
	for (ul=0; ul<dtlen; ul++) {
	entrylen(sort[next_column(ul, dtlen, columns, &c)], len);
	*len += totpad+1;
	if (c == columns) break;
	// Expand this column if necessary, break if that puts us over budget
	if (*len > colsizes[c]) {
	totlen += (*len)-colsizes[c];
	colsizes[c] = *len;
	if (totlen > TT.screen_width) break;
	}
	}
	// If everything fit, stop here
	if (ul == dtlen) break;
	}
	}

	// Loop through again to produce output.
	width = 0;
	for (ul = 0; ul<dtlen; ul++) {
	int ii;
	unsigned curcol, color = 0;
	unsigned long next = next_column(ul, dtlen, columns, &curcol);
	struct stat *st = &(sort[next]->st);
	mode_t mode = st->st_mode;
	char et = endtype(st), *ss;

	// Skip directories at the top of the tree when -d isn't set
	if (S_ISDIR(mode) && !indir->parent && !(flags & FLAG_d)) continue;
	TT.nl_title=1;

	// Handle padding and wrapping for display purposes
	entrylen(sort[next], len);
	if (ul) {
	int mm = !!(flags & FLAG_m);

	if (mm) xputc(',');
	if (flags & (FLAG_C\|FLAG_x)) {
	if (!curcol) xputc('\n');
	} else if ((flags & FLAG_1) \|\| width+1+*len > TT.screen_width) {
	xputc('\n');
	width = 0;
	} else {
	printf(" "+mm, 0); // shut up the stupid compiler
	width += 2-mm;
	}
	}
	width += *len;

	if (flags & FLAG_i) printf("%*lu ", totals[1], (unsigned long)st->st_ino);

	if (flags & FLAG_s) {
	print_with_h(tmp, st->st_blocks, 512);
	printf("%*s ", totals[6], tmp);
	}

	if (flags & (FLAG_l\|FLAG_o\|FLAG_n\|FLAG_g)) {
	struct tm *tm;

	// (long) is to coerce the st types into something we know we can print.
	mode_to_string(mode, tmp);
	printf("%s% *ld", tmp, totals[2]+1, (long)st->st_nlink);

	// print user
	if (!(flags&FLAG_g)) {
	putchar(' ');
	ii = -totals[3];
	if (flags&FLAG_n) printf("%*u", ii, (unsigned)st->st_uid);
	else draw_trim_esc(getusername(st->st_uid), ii, abs(ii), TT.escmore,
	crunch_qb);
	}

	// print group
	if (!(flags&FLAG_o)) {
	putchar(' ');
	ii = -totals[4];
	if (flags&FLAG_n) printf("%*u", ii, (unsigned)st->st_gid);
	else draw_trim_esc(getgroupname(st->st_gid), ii, abs(ii), TT.escmore,
	crunch_qb);
	}

	if (flags & FLAG_Z)
	printf(" %-s", -(int)totals[7], (char )sort[next]->extra);

	// print major/minor, or size
	if (S_ISCHR(st->st_mode) \|\| S_ISBLK(st->st_mode))
	printf("% *d,% 4d", totals[5]-4, dev_major(st->st_rdev),
	dev_minor(st->st_rdev));
	else {
	print_with_h(tmp, st->st_size, 1);
	printf("%*s", totals[5]+1, tmp);
	}

	// print time, always in --time-style=long-iso
	tm = localtime(&(st->st_mtime));
	strftime(tmp, sizeof(tmp), "%F %H:%M", tm);
	if (TT.ll>1) {
	char *s = tmp+strlen(tmp);

	s += sprintf(s, ":%02d.%09d ", tm->tm_sec, (int)st->st_mtim.tv_nsec);
	strftime(s, sizeof(tmp)-(s-tmp), "%z", tm);
	}
	printf(" %s ", tmp);
	} else if (flags & FLAG_Z)
	printf("%-s ", (int)totals[7], (char )sort[next]->extra);

	if (flags & FLAG_color) {
	color = color_from_mode(st->st_mode);
	if (color) printf("\033[%d;%dm", color>>8, color&255);
	}

	ss = sort[next]->name;
	crunch_str(&ss, INT_MAX, stdout, TT.escmore, crunch_qb);
	if (color) printf("\033[0m");

	if ((flags & (FLAG_l\|FLAG_o\|FLAG_n\|FLAG_g)) && S_ISLNK(mode)) {
	printf(" -> ");
	if (flags & FLAG_color) {
	struct stat st2;

	if (fstatat(dirfd, sort[next]->symlink, &st2, 0)) color = 256+31;
	else color = color_from_mode(st2.st_mode);

	if (color) printf("\033[%d;%dm", color>>8, color&255);
	}

	printf("%s", sort[next]->symlink);
	if (color) printf("\033[0m");
	}

	if (et) xputc(et);

	// Pad columns
	if (flags & (FLAG_C\|FLAG_x)) {
	curcol = colsizes[curcol]-(*len)-totpad;
	if (curcol < 255) printf("%*c", curcol, ' ');
	}
	}

	if (width) xputc('\n');

	// Free directory entries, recursing first if necessary.

	for (ul = 0; ul<dtlen; free(sort[ul++])) {
	if ((flags & FLAG_d) \|\| !S_ISDIR(sort[ul]->st.st_mode)) continue;

	// Recurse into dirs if at top of the tree or given -R
	if (!indir->parent \|\| ((flags&FLAG_R) && dirtree_notdotdot(sort[ul])))
	listfiles(openat(dirfd, sort[ul]->name, 0), sort[ul]);
	free((void *)sort[ul]->extra);
	}
	free(sort);
	if (dirfd != AT_FDCWD) close(dirfd);
	}

	void ls_main(void)
	{
	char *s, noargs[] = {".", 0};
	struct dirtree *dt;

	if (toys.optflags&FLAG_full_time) {
	toys.optflags \|= FLAG_l;
	TT.ll = 2;
	}

	// Do we have an implied -1
	if (isatty(1)) {
	if (!(toys.optflags&FLAG_show_control_chars)) toys.optflags \|= FLAG_b;
	if (toys.optflags&(FLAG_l\|FLAG_o\|FLAG_n\|FLAG_g)) toys.optflags \|= FLAG_1;
	else if (!(toys.optflags&(FLAG_1\|FLAG_x\|FLAG_m))) toys.optflags \|= FLAG_C;
	} else {
	if (!(toys.optflags & FLAG_m)) toys.optflags \|= FLAG_1;
	if (TT.color) toys.optflags ^= FLAG_color;
	}

	TT.screen_width = 80;
	terminal_size(&TT.screen_width, NULL);
	if (TT.screen_width<2) TT.screen_width = 2;
	if (toys.optflags&FLAG_b) TT.escmore = " \\";

	// The optflags parsing infrastructure should really do this for us,
	// but currently it has "switch off when this is set", so "-dR" and "-Rd"
	// behave differently
	if (toys.optflags & FLAG_d) toys.optflags &= ~FLAG_R;

	// Iterate through command line arguments, collecting directories and files.
	// Non-absolute paths are relative to current directory. Top of tree is
	// a dummy node to collect command line arguments into pseudo-directory.
	TT.files = dirtree_add_node(0, 0, 0);
	TT.files->dirfd = AT_FDCWD;
	for (s = toys.optargs ? toys.optargs : noargs; s; s++) {
	int sym = !(toys.optflags&(FLAG_l\|FLAG_d\|FLAG_F))
	\|\| (toys.optflags&(FLAG_L\|FLAG_H));

	dt = dirtree_add_node(0, s, DIRTREE_SYMFOLLOWsym);

	// note: double_list->prev temporarirly goes in dirtree->parent
	if (dt) dlist_add_nomalloc((void )&TT.files->child, (void )dt);
	else toys.exitval = 1;
	}

	// Convert double_list into dirtree.
	dlist_terminate(TT.files->child);
	for (dt = TT.files->child; dt; dt = dt->next) dt->parent = TT.files;

	// Display the files we collected
	listfiles(AT_FDCWD, TT.files);

	if (CFG_TOYBOX_FREE) free(TT.files);
	}