/* 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):;")"ZgoACFHLRSacdfhiklmnpqrstux1[-Cxm1][-Cxml][-Cxmo][-Cxmg][-cu][-ftS][-HL]", 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 -c use ctime for timestamps -d directory, not contents -i inode number -k block sizes in kilobytes -p put a '/' after dir names -q unprintable chars as '?' -s size (in blocks) -u use access time for timestamps -A list all files but . and .. -H follow command line symlinks -L follow symlinks -R recursively list files 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) 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( char *color; struct dirtree *files, *singledir; unsigned screen_width; int nl_title; char uid_buf[12], gid_buf[12]; ) // Does two things: 1) Returns wcwidth(utf8) version of strlen, // 2) replaces unprintable characters input string with '?' wildcard char. int strwidth(char *s) { int total = 0, width, len; wchar_t c; if (!CFG_TOYBOX_I18N) { total = strlen(s); if (toys.optflags & FLAG_q) for (; *s; s++) if (!isprint(*s)) *s = '?'; } else while (*s) { len = mbrtowc(&c, s, MB_CUR_MAX, 0); if (len < 1 || (width = wcwidth(c)) < 0) { total++; if (toys.optflags & FLAG_q) *s = '?'; s++; } else { s += len; total += width; } } return total; } 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 char *getusername(uid_t uid) { struct passwd *pw = getpwuid(uid); sprintf(TT.uid_buf, "%u", (unsigned)uid); return pw ? pw->pw_name : TT.uid_buf; } static char *getgroupname(gid_t gid) { struct group *gr = getgrgid(gid); sprintf(TT.gid_buf, "%u", (unsigned)gid); return gr ? gr->gr_name : TT.gid_buf; } static int numlen(long long ll) { return snprintf(0, 0, "%llu", ll); } // 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(major(st->st_rdev))+5; } else if (flags & FLAG_h) { human_readable(tmp, st->st_size, 0); len[5] = strwidth(tmp); } else len[5] = numlen(st->st_size); } len[6] = (flags & FLAG_s) ? numlen(st->st_blocks) : 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; if (flags & FLAG_k) new->st.st_blocks = (new->st.st_blocks + 1) / 2; 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)); } 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+260), columns = (sizeof(toybuf)-260)/4; char tmp[64]; if (-1 == dirfd) { strwidth(indir->name); perror_msg_raw(indir->name); return; } memset(totals, 0, sizeof(totals)); if (CFG_TOYBOX_ON_ANDROID || 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; } else { // 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. indir->dirfd = dup(dirfd); dirtree_recurse(indir, filter, 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) { if (flags&FLAG_h) { human_readable(tmp, blocks*512, 0); xprintf("total %s\n", tmp); } else xprintf("total %llu\n", blocks); } } // 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; 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. memset(toybuf, ' ', 256); width = 0; for (ul = 0; ul<dtlen; ul++) { 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); // 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) { if (flags & FLAG_m) 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 { xputc(' '); width++; } } width += *len; if (flags & FLAG_i) xprintf("%*lu ", totals[1], (unsigned long)st->st_ino); if (flags & FLAG_s) xprintf("%*lu ", totals[6], (unsigned long)st->st_blocks); if (flags & (FLAG_l|FLAG_o|FLAG_n|FLAG_g)) { struct tm *tm; char *ss; // (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)) { if (flags&FLAG_n) sprintf(ss = tmp, "%u", (unsigned)st->st_uid); else strwidth(ss = getusername(st->st_uid)); printf(" %-*s", (int)totals[3], ss); } // print group if (!(flags&FLAG_o)) { if (flags&FLAG_n) sprintf(ss = tmp, "%u", (unsigned)st->st_gid); else strwidth(ss = getgroupname(st->st_gid)); printf(" %-*s", (int)totals[4], ss); } 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, major(st->st_rdev),minor(st->st_rdev)); else if (flags&FLAG_h) { human_readable(tmp, st->st_size, 0); xprintf("%*s", totals[5]+1, tmp); } else printf("% *lld", totals[5]+1, (long long)st->st_size); // print time, always in --time-style=long-iso tm = localtime(&(st->st_mtime)); strftime(tmp, sizeof(tmp), "%F %H:%M", tm); xprintf(" %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); } if (flags & FLAG_q) { char *p; for (p=sort[next]->name; *p; p++) fputc(isprint(*p) ? *p : '?', stdout); } else xprintf("%s", sort[next]->name); if (color) xprintf("\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) xprintf("%s", toybuf+255-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; TT.screen_width = 80; terminal_size(&TT.screen_width, NULL); if (TT.screen_width<2) TT.screen_width = 2; // Do we have an implied -1 if (!isatty(1)) { if (!(toys.optflags & FLAG_m)) toys.optflags |= FLAG_1; if (TT.color) toys.optflags ^= FLAG_color; } else 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; // 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. TT.files = dirtree_start(0, 0); TT.files->dirfd = AT_FDCWD; for (s = *toys.optargs ? toys.optargs : noargs; *s; s++) { dt = dirtree_start(*s, !(toys.optflags&(FLAG_l|FLAG_d|FLAG_F)) || (toys.optflags&(FLAG_L|FLAG_H))); // 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); }