/* lr - a better recursive ls/find */ /* * Copyright (C) 2015-2017 Leah Neukirchen * Parts of code derived from musl libc, which is * Copyright (C) 2005-2014 Rich Felker, et al. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /* ##% gcc -Os -Wall -g -o $STEM $FILE -Wno-switch -Wextra -Wwrite-strings */ #define _GNU_SOURCE #include #include #include #ifdef __linux__ #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef __has_include #if __has_include() #include #else #define noreturn /**/ #endif #else #define noreturn /**/ #endif /* For Solaris. */ #if !defined(FNM_CASEFOLD) && defined(FNM_IGNORECASE) #define FNM_CASEFOLD FNM_IGNORECASE #endif static int Cflag; static char *Cflags[64]; static int Gflag; static int Dflag; static int Hflag; static int Lflag; static int Qflag; static int Uflag; static int Xflag; static int hflag; static int lflag; static int sflag; static int xflag; static char Tflag = 'T'; static char *argv0; static char *format; static char *ordering; static struct expr *expr; static void *root = NULL; // tree static int prune; static size_t prefixl; static char input_delim = '\n'; static int current_color; static int status; static char *basepath; static char host[1024]; static char default_ordering[] = "n"; static char default_format[] = "%p\\n"; static char type_format[] = "%p%F\\n"; static char long_format[] = "%M%x %n %u %g %s %\324F %\324R %p%F%l\n"; static char zero_format[] = "%p\\0"; static char stat_format[] = "%D %i %M %n %u %g %R %s \"%Ab %Ad %AT %AY\" \"%Tb %Td %TT %TY\" \"%Cb %Cd %CT %CY\" %b %p\n"; static void *users; static void *groups; static void *filesystems; static int scanned_filesystems; struct idmap { long id; char *name; }; static int need_stat; static int need_group; static int need_user; static int need_fstype; static int need_xattr; static dev_t maxdev; static ino_t maxino; static nlink_t maxnlink; static uid_t maxuid; static gid_t maxgid; static dev_t maxrdev; static off_t maxsize; static blkcnt_t maxblocks; static unsigned int maxxattr; static int maxdepth; static int uwid, gwid, fwid; static time_t now; static mode_t default_mask; // [^a-zA-Z0-9~._/-] static char rfc3986[128] = { 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1, 1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,0, 1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,0,1 }; struct fileinfo { char *fpath; size_t prefixl; int depth; ino_t entries; struct stat sb; off_t total; char xattr[4]; int color; }; enum op { EXPR_OR = 1, EXPR_AND, EXPR_NOT, EXPR_LT, EXPR_LE, EXPR_EQ, EXPR_NEQ, EXPR_GE, EXPR_GT, EXPR_STREQ, EXPR_STREQI, EXPR_GLOB, EXPR_GLOBI, EXPR_REGEX, EXPR_REGEXI, EXPR_PRUNE, EXPR_PRINT, EXPR_COLOR, EXPR_TYPE, EXPR_ALLSET, EXPR_ANYSET, EXPR_CHMOD, }; enum prop { PROP_ATIME = 1, PROP_CTIME, PROP_DEPTH, PROP_DEV, PROP_ENTRIES, PROP_FSTYPE, PROP_GID, PROP_GROUP, PROP_INODE, PROP_LINKS, PROP_MODE, PROP_MTIME, PROP_NAME, PROP_PATH, PROP_RDEV, PROP_SIZE, PROP_TARGET, PROP_TOTAL, PROP_UID, PROP_USER, PROP_XATTR, }; enum filetype { TYPE_BLOCK = 'b', TYPE_CHAR = 'c', TYPE_DIR = 'd', TYPE_FIFO = 'p', TYPE_REGULAR = 'f', TYPE_SOCKET = 's', TYPE_SYMLINK = 'l', }; struct expr { enum op op; union { enum prop prop; enum filetype filetype; struct expr *expr; char *string; int64_t num; regex_t *regex; } a, b; }; static char *pos; noreturn static void parse_error(const char *msg, ...) { va_list ap; va_start(ap, msg); fprintf(stderr, "%s: parse error: ", argv0); vfprintf(stderr, msg, ap); fprintf(stderr, "\n"); exit(2); } int test_chmod(char *c, mode_t oldmode) { mode_t newmode = oldmode; mode_t whom, what; char op; do { whom = 0; what = 0; while (1) { switch (*c) { case 'u': whom |= 04700; break; case 'g': whom |= 02070; break; case 'o': whom |= 01007; break; case 'a': whom |= 07777; break; default: goto op; } c++; } op: if (whom == 0) whom = default_mask; op = *c++; if (!(op == '-' || op == '+' || op == '=')) parse_error("invalid mode operator"); switch (*c) { case 'u': what = 00111 * ((newmode >> 6) & 0007); c++; break; case 'g': what = 00111 * ((newmode >> 3) & 0007); c++; break; case 'o': what = 00111 * ((newmode ) & 0007); c++; break; default: while (1) { switch (*c) { case 'r': what |= 00444; break; case 'w': what |= 00222; break; case 'x': what |= 00111; break; case 'X': if (oldmode & 00111) what |= 00111; break; case 's': what |= 06000; break; case 't': what |= 01000; break; case ',': case 0: goto doit; default: parse_error("invalid permission"); } c++; } } doit: switch (op) { case '-': newmode &= ~(whom & what); break; case '+': newmode |= (whom & what); break; case '=': newmode = (newmode & ~whom) | (whom & what); break; } } while (*c == ',' && c++); if (*c) parse_error("trailing garbage in mode string '%s'", c); return newmode == oldmode; } static struct expr * mkexpr(enum op op) { struct expr *e = malloc(sizeof (struct expr)); if (!e) parse_error("out of memory"); e->op = op; return e; } static void ws() { while (isspace((unsigned char)*pos)) pos++; } static int token(const char *token) { if (strncmp(pos, token, strlen(token)) == 0) { pos += strlen(token); ws(); return 1; } else { return 0; } } static int64_t parse_num(int64_t *r) { char *s = pos; if (isdigit((unsigned char)*pos)) { int64_t n; for (n = 0; isdigit((unsigned char)*pos) && n <= INT64_MAX / 10 - 10; pos++) n = 10 * n + (*pos - '0'); if (isdigit((unsigned char)*pos)) parse_error("number too big: %s", s); if (token("c")) ; else if (token("b")) n *= 512LL; else if (token("k")) n *= 1024LL; else if (token("M")) n *= 1024LL * 1024; else if (token("G")) n *= 1024LL * 1024 * 1024; else if (token("T")) n *= 1024LL * 1024 * 1024 * 1024; ws(); *r = n; return 1; } else { return 0; } } int parse_octal(long *r) { char *s = pos; if (*pos >= '0' && *pos <= '7') { long n = 0; while (*pos >= '0' && *pos <= '7') { n *= 8; n += *pos - '0'; pos++; if (n > 07777) parse_error("number to big: %s", s); } ws(); *r = n; return 1; } else { return 0; } } static enum op parse_op() { if (token("<=")) return EXPR_LE; else if (token("<")) return EXPR_LT; else if (token(">=")) return EXPR_GE; else if (token(">")) return EXPR_GT; else if (token("==") || token("=")) return EXPR_EQ; else if (token("!=")) return EXPR_NEQ; return 0; } static struct expr *parse_cmp(); static struct expr *parse_or(); static struct expr * parse_inner() { if (token("prune")) { struct expr *e = mkexpr(EXPR_PRUNE); return e; } else if (token("print")) { struct expr *e = mkexpr(EXPR_PRINT); return e; } else if (token("color")) { struct expr *e = mkexpr(EXPR_COLOR); int64_t n; if (parse_num(&n) && n >= 0 && n <= 255) { e->a.num = n; return e; } else { parse_error("invalid 256-color at '%.15s'", pos); return 0; } } else if (token("!")) { struct expr *e = parse_cmp(); struct expr *not = mkexpr(EXPR_NOT); not->a.expr = e; return not; } else if (token("(")) { struct expr *e = parse_or(); if (token(")")) return e; parse_error("missing ) at '%.15s'", pos); return 0; } else { parse_error("unknown expression at '%.15s'", pos); return 0; } } static struct expr * parse_type() { int negate = 0; if (token("type")) { if (token("==") || token("=") || (token("!=") && ++negate)) { struct expr *e = mkexpr(EXPR_TYPE); if (token("b")) e->a.filetype = TYPE_BLOCK; else if (token("c")) e->a.filetype = TYPE_CHAR; else if (token("d")) e->a.filetype = TYPE_DIR; else if (token("p")) e->a.filetype = TYPE_FIFO; else if (token("f")) e->a.filetype = TYPE_REGULAR; else if (token("l")) e->a.filetype = TYPE_SYMLINK; else if (token("s")) e->a.filetype = TYPE_SOCKET; else if (*pos) parse_error("invalid file type '%c'", *pos); else parse_error("no file type given"); if (negate) { struct expr *not = mkexpr(EXPR_NOT); not->a.expr = e; return not; } else { return e; } } else { parse_error("invalid file type comparison at '%.15s'", pos); } } return parse_inner(); } static int parse_string(char **s) { char *buf = 0; size_t bufsiz = 0; size_t len = 0; if (*pos == '"') { pos++; while (*pos && (*pos != '"' || (*pos == '"' && *(pos+1) == '"'))) { if (len >= bufsiz) { bufsiz = 2*bufsiz + 16; buf = realloc(buf, bufsiz); if (!buf) parse_error("string too long"); } if (*pos == '"') pos++; buf[len++] = *pos++; } if (!*pos) parse_error("unterminated string"); if (buf) buf[len] = 0; pos++; ws(); *s = buf ? buf : (char *)""; return 1; } else if (*pos == '$') { char t; char *e = ++pos; while (isalnum((unsigned char)*pos) || *pos == '_') pos++; if (e == pos) parse_error("invalid environment variable name"); t = *pos; *pos = 0; *s = getenv(e); if (!*s) *s = (char *)""; *pos = t; ws(); return 1; } return 0; } static int parse_dur(int64_t *n) { char *s, *r; if (!parse_string(&s)) return 0; if (*s == '/' || *s == '.') { struct stat st; if (stat(s, &st) < 0) parse_error("can't stat file '%s': %s", s, strerror(errno)); *n = st.st_mtime; return 1; } struct tm tm = { 0 }; r = strptime(s, "%Y-%m-%d %H:%M:%S", &tm); if (r && !*r) { *n = mktime(&tm); return 1; } r = strptime(s, "%Y-%m-%d", &tm); if (r && !*r) { tm.tm_hour = tm.tm_min = tm.tm_sec = 0; *n = mktime(&tm); return 1; } r = strptime(s, "%H:%M:%S", &tm); if (r && !*r) { struct tm *tmnow = localtime(&now); tm.tm_year = tmnow->tm_year; tm.tm_mon = tmnow->tm_mon; tm.tm_mday = tmnow->tm_mday; *n = mktime(&tm); return 1; } r = strptime(s, "%H:%M", &tm); if (r && !*r) { struct tm *tmnow = localtime(&now); tm.tm_year = tmnow->tm_year; tm.tm_mon = tmnow->tm_mon; tm.tm_mday = tmnow->tm_mday; tm.tm_sec = 0; *n = mktime(&tm); return 1; } if (*s == '-') { s++; errno = 0; int64_t d; d = strtol(s, &r, 10); if (errno == 0 && r[0] == 'd' && !r[1]) { struct tm *tmnow = localtime(&now); tmnow->tm_mday -= d; tmnow->tm_hour = tmnow->tm_min = tmnow->tm_sec = 0; *n = mktime(tmnow); return 1; } if (errno == 0 && r[0] == 'h' && !r[1]) { *n = now - (d*60*60); return 1; } if (errno == 0 && r[0] == 'm' && !r[1]) { *n = now - (d*60); return 1; } if (errno == 0 && r[0] == 's' && !r[1]) { *n = now - d; return 1; } parse_error("invalid relative time format '%s'", s-1); } parse_error("invalid time format '%s'", s); return 0; } static struct expr * mkstrexpr(enum prop prop, enum op op, char *s, int negate) { int r = 0; struct expr *e = mkexpr(op); e->a.prop = prop; if (op == EXPR_REGEX) { e->b.regex = malloc(sizeof (regex_t)); r = regcomp(e->b.regex, s, REG_EXTENDED | REG_NOSUB); } else if (op == EXPR_REGEXI) { e->b.regex = malloc(sizeof (regex_t)); r = regcomp(e->b.regex, s, REG_EXTENDED | REG_NOSUB | REG_ICASE); } else { e->b.string = s; } if (r != 0) { char msg[256]; regerror(r, e->b.regex, msg, sizeof msg); parse_error("invalid regex '%s': %s", s, msg); exit(2); } if (negate) { struct expr *not = mkexpr(EXPR_NOT); not->a.expr = e; return not; } return e; } static struct expr * parse_strcmp() { enum prop prop; enum op op; int negate = 0; if (token("fstype")) prop = PROP_FSTYPE; else if (token("group")) prop = PROP_GROUP; else if (token("name")) prop = PROP_NAME; else if (token("path")) prop = PROP_PATH; else if (token("target")) prop = PROP_TARGET; else if (token("user")) prop = PROP_USER; else if (token("xattr")) prop = PROP_XATTR; else return parse_type(); if (token("~~~")) op = EXPR_GLOBI; else if (token("~~")) op = EXPR_GLOB; else if (token("=~~")) op = EXPR_REGEXI; else if (token("=~")) op = EXPR_REGEX; else if (token("===")) op = EXPR_STREQI; else if (token("==")) op = EXPR_STREQ; else if (token("=")) op = EXPR_STREQ; else if (token("!~~~")) negate = 1, op = EXPR_GLOBI; else if (token("!~~")) negate = 1, op = EXPR_GLOB; else if (token("!=~~")) negate = 1, op = EXPR_REGEXI; else if (token("!=~") || token("!~")) negate = 1, op = EXPR_REGEX; else if (token("!===")) negate = 1, op = EXPR_STREQI; else if (token("!==") || token("!=")) negate = 1, op = EXPR_STREQ; else parse_error("invalid string operator at '%.15s'", pos); char *s; if (parse_string(&s)) return mkstrexpr(prop, op, s, negate); parse_error("invalid string at '%.15s'", pos); return 0; } static struct expr * parse_mode() { struct expr *e = mkexpr(0); long n; char *s; e->a.prop = PROP_MODE; if (token("==") || token("=")) { e->op = EXPR_EQ; } else if (token("&")) { e->op = EXPR_ALLSET; } else if (token("|")) { e->op = EXPR_ANYSET; } else { parse_error("invalid mode comparison at '%.15s'", pos); } if (parse_octal(&n)) { e->b.num = n; } else if (e->op == EXPR_EQ && parse_string(&s)) { e->op = EXPR_CHMOD; e->b.string = s; umask(default_mask = 07777 & ~umask(0)); /* for future usage */ test_chmod(s, 0); /* run once to check for syntax */ } else { parse_error("invalid mode at '%.15s'", pos); } return e; } static struct expr * parse_cmp() { enum prop prop; enum op op; if (token("depth")) prop = PROP_DEPTH; else if (token("dev")) prop = PROP_DEV; else if (token("entries")) prop = PROP_ENTRIES; else if (token("gid")) prop = PROP_GID; else if (token("inode")) prop = PROP_INODE; else if (token("links")) prop = PROP_LINKS; else if (token("mode")) return parse_mode(); else if (token("rdev")) prop = PROP_RDEV; else if (token("size")) prop = PROP_SIZE; else if (token("total")) prop = PROP_TOTAL; else if (token("uid")) prop = PROP_UID; else return parse_strcmp(); op = parse_op(); if (!op) parse_error("invalid comparison at '%.15s'", pos); int64_t n; if (parse_num(&n)) { struct expr *e = mkexpr(op); e->a.prop = prop; e->b.num = n; return e; } return 0; } static struct expr * parse_timecmp() { enum prop prop; enum op op; if (token("atime")) prop = PROP_ATIME; else if (token("ctime")) prop = PROP_CTIME; else if (token("mtime")) prop = PROP_MTIME; else return parse_cmp(); op = parse_op(); if (!op) parse_error("invalid comparison at '%.15s'", pos); int64_t n; if (parse_num(&n) || parse_dur(&n)) { struct expr *e = mkexpr(op); e->a.prop = prop; e->b.num = n; return e; } return 0; } static struct expr * chain(struct expr *e1, enum op op, struct expr *e2) { struct expr *i, *j, *e; if (!e1) return e2; if (!e2) return e1; for (j = 0, i = e1; i->op == op; j = i, i = i->b.expr) ; if (!j) { e = mkexpr(op); e->a.expr = e1; e->b.expr = e2; return e; } else { e = mkexpr(op); e->a.expr = i; e->b.expr = e2; j->b.expr = e; return e1; } } static struct expr * parse_and() { struct expr *e1 = parse_timecmp(); struct expr *r = e1; while (token("&&")) { struct expr *e2 = parse_timecmp(); r = chain(r, EXPR_AND, e2); } return r; } static struct expr * parse_or() { struct expr *e1 = parse_and(); struct expr *r = e1; while (token("||")) { struct expr *e2 = parse_and(); r = chain(r, EXPR_OR, e2); } return r; } static struct expr * parse_expr(const char *s) { pos = (char *)s; struct expr *e = parse_or(); if (*pos) parse_error("trailing garbage at '%.15s'", pos); return e; } static const char * basenam(const char *s) { char *r = strrchr(s, '/'); return r ? r + 1 : s; } static const char * extnam(const char *s) { char *r = strrchr(s, '/'); char *e = strrchr(s, '.'); if (!r || r < e) return e ? e + 1 : ""; return ""; } static const char * readlin(const char *p, const char *alt) { static char b[PATH_MAX]; int r = readlink(p, b, sizeof b - 1); if (r < 0) return alt; b[r] = 0; return b; } int idorder(const void *a, const void *b) { struct idmap *ia = (struct idmap *)a; struct idmap *ib = (struct idmap *)b; if (ia->id == ib->id) return 0; else if (ia->id < ib->id) return -1; else return 1; } static char * strid(long id) { static char buf[32]; snprintf(buf, sizeof buf, "%ld", id); return buf; } static char * groupname(gid_t gid) { struct idmap key, **result; key.id = gid; key.name = 0; if (!(result = tfind(&key, &groups, idorder))) { struct group *g = getgrgid(gid); if (g) { struct idmap *newkey = malloc(sizeof (struct idmap)); newkey->id = gid; newkey->name = strdup(g->gr_name); if ((int)strlen(g->gr_name) > gwid) gwid = strlen(g->gr_name); tsearch(newkey, &groups, idorder); return newkey->name; } } return result ? (*result)->name : strid(gid); } static char * username(uid_t uid) { struct idmap key, **result; key.id = uid; key.name = 0; if (!(result = tfind(&key, &users, idorder))) { struct passwd *p = getpwuid(uid); if (p) { struct idmap *newkey = malloc(sizeof (struct idmap)); newkey->id = uid; newkey->name = strdup(p->pw_name); if ((int)strlen(p->pw_name) > uwid) uwid = strlen(p->pw_name); tsearch(newkey, &users, idorder); return newkey->name; } } return result ? (*result)->name : strid(uid); } #if defined(__linux__) || defined(__CYGWIN__) #include void scan_filesystems() { FILE *mtab; struct mntent *mnt; struct stat st; /* Approach: iterate over mtab and memorize st_dev for each mountpoint. * this will fail if we are not allowed to read the mountpoint, but then * we should not have to look up this st_dev value... */ mtab = setmntent(_PATH_MOUNTED, "r"); if (!mtab && errno == ENOENT) mtab = setmntent("/proc/mounts", "r"); if (!mtab) return; while ((mnt = getmntent(mtab))) { if (stat(mnt->mnt_dir, &st) < 0) continue; struct idmap *newkey = malloc(sizeof (struct idmap)); newkey->id = st.st_dev; newkey->name = strdup(mnt->mnt_type); tsearch(newkey, &filesystems, idorder); }; endmntent(mtab); scanned_filesystems = 1; } #elif defined(__SVR4) #include void scan_filesystems() { FILE *mtab; struct mnttab mnt; struct stat st; mtab = fopen(MNTTAB, "r"); if (!mtab) return; while (getmntent(mtab, &mnt) == 0) { if (stat(mnt.mnt_mountp, &st) < 0) continue; struct idmap *newkey = malloc(sizeof (struct idmap)); newkey->id = st.st_dev; newkey->name = strdup(mnt.mnt_fstype); tsearch(newkey, &filesystems, idorder); }; fclose(mtab); scanned_filesystems = 1; } #elif defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__DragonFly__) || (defined(__APPLE__) && defined(__MACH__)) #include #include #include void scan_filesystems() { struct statfs *mnt; struct stat st; int i = getmntinfo(&mnt, MNT_NOWAIT); while (i-- > 0) { if (stat(mnt->f_mntonname, &st) < 0) continue; struct idmap *newkey = malloc(sizeof (struct idmap)); newkey->id = st.st_dev; newkey->name = strdup(mnt->f_fstypename); tsearch(newkey, &filesystems, idorder); mnt++; }; scanned_filesystems = 1; } #elif defined(__NetBSD__) #include #include void scan_filesystems() { struct statvfs *mnt; struct stat st; int i = getmntinfo(&mnt, MNT_NOWAIT); while (i-- > 0) { if (stat(mnt->f_mntonname, &st) < 0) continue; struct idmap *newkey = malloc(sizeof (struct idmap)); newkey->id = st.st_dev; newkey->name = strdup(mnt->f_fstypename); tsearch(newkey, &filesystems, idorder); mnt++; }; scanned_filesystems = 1; } #else #warning fstype lookup not implemented on this platform, keeping st_dev as number void scan_filesystems() { } #endif static char * fstype(dev_t devid) { struct idmap key, **result; key.id = devid; key.name = 0; if (!scanned_filesystems) scan_filesystems(); result = tfind(&key, &filesystems, idorder); if (result && (int)strlen((*result)->name) > fwid) fwid = strlen((*result)->name); return result ? (*result)->name : strid(devid); } static char * xattr_string(const char *f) { #ifdef __linux__ char xattr[1024]; int i, r; int have_xattr = 0, have_cap = 0, have_acl = 0; if (Lflag) r = listxattr(f, xattr, sizeof xattr); else r = llistxattr(f, xattr, sizeof xattr); if (r < 0 && errno == ERANGE) { /* just look at prefix */ r = sizeof xattr; xattr[r-1] = 0; } // ignoring ENOTSUP or r == 0 for (i = 0; i < r; i += strlen(xattr+i) + 1) if (strcmp(xattr+i, "security.capability") == 0) have_cap = 1; else if (strcmp(xattr+i, "system.posix_acl_access") == 0 || strcmp(xattr+i, "system.posix_acl_default") == 0) have_acl = 1; else have_xattr = 1; static char buf[4]; char *c = buf; if (have_cap) *c++ = '#'; if (have_acl) *c++ = '+'; if (have_xattr) *c++ = '@'; *c = 0; return buf; #else static char empty[] = ""; (void)f; return empty; // No support for xattrs on this platform. #endif } static ino_t count_entries(struct fileinfo *fi) { ino_t c = 0; struct dirent *de; DIR *d; if (Dflag) return fi->entries; if (!S_ISDIR(fi->sb.st_mode)) return 0; d = opendir(fi->fpath); if (!d) return 0; while ((de = readdir(d))) { if (de->d_name[0] == '.' && (!de->d_name[1] || (de->d_name[1] == '.' && !de->d_name[2]))) continue; c++; } closedir(d); return c; } int eval(struct expr *e, struct fileinfo *fi) { long v = 0; const char *s = ""; switch (e->op) { case EXPR_OR: return eval(e->a.expr, fi) || eval(e->b.expr, fi); case EXPR_AND: return eval(e->a.expr, fi) && eval(e->b.expr, fi); case EXPR_NOT: return !eval(e->a.expr, fi); case EXPR_PRUNE: prune = 1; return 1; case EXPR_PRINT: return 1; case EXPR_COLOR: fi->color = e->a.num; return 1; case EXPR_LT: case EXPR_LE: case EXPR_EQ: case EXPR_NEQ: case EXPR_GE: case EXPR_GT: case EXPR_ALLSET: case EXPR_ANYSET: switch (e->a.prop) { case PROP_ATIME: v = fi->sb.st_atime; break; case PROP_CTIME: v = fi->sb.st_ctime; break; case PROP_DEPTH: v = fi->depth; break; case PROP_DEV: v = fi->sb.st_dev; break; case PROP_ENTRIES: v = count_entries(fi); break; case PROP_GID: v = fi->sb.st_gid; break; case PROP_INODE: v = fi->sb.st_ino; break; case PROP_LINKS: v = fi->sb.st_nlink; break; case PROP_MODE: v = fi->sb.st_mode & 07777; break; case PROP_MTIME: v = fi->sb.st_mtime; break; case PROP_RDEV: v = fi->sb.st_rdev; break; case PROP_SIZE: v = fi->sb.st_size; break; case PROP_TOTAL: v = fi->total; break; case PROP_UID: v = fi->sb.st_uid; break; default: parse_error("unknown property"); } switch (e->op) { case EXPR_LT: return v < e->b.num; case EXPR_LE: return v <= e->b.num; case EXPR_EQ: return v == e->b.num; case EXPR_NEQ: return v != e->b.num; case EXPR_GE: return v >= e->b.num; case EXPR_GT: return v > e->b.num; case EXPR_ALLSET: return (v & e->b.num) == e->b.num; case EXPR_ANYSET: return (v & e->b.num) > 0; default: parse_error("invalid operator"); } case EXPR_CHMOD: return test_chmod(e->b.string, fi->sb.st_mode & 07777); case EXPR_TYPE: switch (e->a.filetype) { case TYPE_BLOCK: return S_ISBLK(fi->sb.st_mode); case TYPE_CHAR: return S_ISCHR(fi->sb.st_mode); case TYPE_DIR: return S_ISDIR(fi->sb.st_mode); case TYPE_FIFO: return S_ISFIFO(fi->sb.st_mode); case TYPE_REGULAR: return S_ISREG(fi->sb.st_mode); case TYPE_SOCKET: return S_ISSOCK(fi->sb.st_mode); case TYPE_SYMLINK: return S_ISLNK(fi->sb.st_mode); default: parse_error("invalid file type"); } case EXPR_STREQ: case EXPR_STREQI: case EXPR_GLOB: case EXPR_GLOBI: case EXPR_REGEX: case EXPR_REGEXI: switch (e->a.prop) { case PROP_FSTYPE: s = fstype(fi->sb.st_dev); break; case PROP_GROUP: s = groupname(fi->sb.st_gid); break; case PROP_NAME: s = basenam(fi->fpath); break; case PROP_PATH: s = fi->fpath; break; case PROP_TARGET: s = readlin(fi->fpath, ""); break; case PROP_USER: s = username(fi->sb.st_uid); break; case PROP_XATTR: s = xattr_string(fi->fpath); break; default: parse_error("unknown property"); } switch (e->op) { case EXPR_STREQ: return strcmp(e->b.string, s) == 0; case EXPR_STREQI: return strcasecmp(e->b.string, s) == 0; case EXPR_GLOB: return fnmatch(e->b.string, s, 0) == 0; case EXPR_GLOBI: return fnmatch(e->b.string, s, FNM_CASEFOLD) == 0; case EXPR_REGEX: case EXPR_REGEXI: return regexec(e->b.regex, s, 0, 0, 0) == 0; default: parse_error("invalid operator"); } default: parse_error("invalid operation %d, please file a bug.", e->op); } return 0; } int dircmp(char *a, char *b) { char *ea = strrchr(a, '/'); char *eb = strrchr(b, '/'); if (!ea) ea = a + strlen(a); if (!eb) eb = b + strlen(b); while (a != ea && b != eb && *a == *b) { a++; b++; } if (a == ea && b == eb) return 0; if (a == ea) return -1; if (b == eb) return 1; return *a - *b; } // taken straight from musl@a593414 int mystrverscmp(const char *l0, const char *r0) { const unsigned char *l = (const void *)l0; const unsigned char *r = (const void *)r0; size_t i, dp, j; int z = 1; /* Find maximal matching prefix and track its maximal digit * suffix and whether those digits are all zeros. */ for (dp = i = 0; l[i] == r[i]; i++) { int c = l[i]; if (!c) return 0; if (!isdigit(c)) dp = i+1, z = 1; else if (c != '0') z = 0; } if (l[dp] != '0' && r[dp] != '0') { /* If we're not looking at a digit sequence that began * with a zero, longest digit string is greater. */ for (j = i; isdigit(l[j]); j++) if (!isdigit(r[j])) return 1; if (isdigit(r[j])) return -1; } else if (z && dp < i && (isdigit(l[i]) || isdigit(r[i]))) { /* Otherwise, if common prefix of digit sequence is * all zeros, digits order less than non-digits. */ return (unsigned char)(l[i]-'0') - (unsigned char)(r[i]-'0'); } return l[i] - r[i]; } #define CMP(a, b) if ((a) == (b)) break; else if ((a) < (b)) return -1; else return 1 #define STRCMP(a, b) if (strcmp(a, b) == 0) break; else return (strcmp(a, b)); #define DIRCMP(a, b) { int r = dircmp(a, b); if (r == 0) break; else return r; }; #define VERCMP(a, b) if (mystrverscmp(a, b) == 0) break; else return (mystrverscmp(a, b)); int order(const void *a, const void *b) { struct fileinfo *fa = (struct fileinfo *)a; struct fileinfo *fb = (struct fileinfo *)b; char *s; for (s = ordering; *s; s++) { switch (*s) { // XXX use nanosecond timestamps case 'c': CMP(fa->sb.st_ctime, fb->sb.st_ctime); case 'C': CMP(fb->sb.st_ctime, fa->sb.st_ctime); case 'a': CMP(fa->sb.st_atime, fb->sb.st_atime); case 'A': CMP(fb->sb.st_atime, fa->sb.st_atime); case 'm': CMP(fa->sb.st_mtime, fb->sb.st_mtime); case 'M': CMP(fb->sb.st_mtime, fa->sb.st_mtime); case 's': CMP(fa->sb.st_size, fb->sb.st_size); case 'S': CMP(fb->sb.st_size, fa->sb.st_size); case 'i': CMP(fa->sb.st_ino, fb->sb.st_ino); case 'I': CMP(fb->sb.st_ino, fa->sb.st_ino); case 'd': CMP(fa->depth, fb->depth); case 'D': CMP(fb->depth, fa->depth); case 't': CMP("ZZZZAZZZZZZZZZZZ"[(fa->sb.st_mode >> 12) & 0x0f], "ZZZZAZZZZZZZZZZZ"[(fb->sb.st_mode >> 12) & 0x0f]); case 'T': CMP("ZZZZAZZZZZZZZZZZ"[(fb->sb.st_mode >> 12) & 0x0f], "ZZZZAZZZZZZZZZZZ"[(fa->sb.st_mode >> 12) & 0x0f]); case 'n': STRCMP(fa->fpath, fb->fpath); case 'N': STRCMP(fb->fpath, fa->fpath); case 'e': STRCMP(extnam(fa->fpath), extnam(fb->fpath)); case 'E': STRCMP(extnam(fb->fpath), extnam(fa->fpath)); case 'p': DIRCMP(fa->fpath, fb->fpath); case 'P': DIRCMP(fb->fpath, fa->fpath); case 'v': VERCMP(fa->fpath, fb->fpath); case 'V': VERCMP(fb->fpath, fa->fpath); default: STRCMP(fa->fpath, fb->fpath); } } return strcmp(fa->fpath, fb->fpath); } static int intlen(intmax_t i) { int s; for (s = 1; i > 9; i /= 10) s++; return s; } static void print_mode(int mode) { putchar("0pcCd?bB-?l?s???"[(mode >> 12) & 0x0f]); putchar(mode & 00400 ? 'r' : '-'); putchar(mode & 00200 ? 'w' : '-'); putchar(mode & 04000 ? (mode & 00100 ? 's' : 'S') : (mode & 00100 ? 'x' : '-')); putchar(mode & 00040 ? 'r' : '-'); putchar(mode & 00020 ? 'w' : '-'); putchar(mode & 02000 ? (mode & 00010 ? 's' : 'S') : (mode & 00010 ? 'x' : '-')); putchar(mode & 00004 ? 'r' : '-'); putchar(mode & 00002 ? 'w' : '-'); putchar(mode & 01000 ? (mode & 00001 ? 't' : 'T') : (mode & 00001 ? 'x' : '-')); } static void fgbold() { printf("\033[1m"); } static void fg256(int c) { printf("\033[38;5;%dm", c); } static void fgdefault() { if (Gflag) printf("\033[0m"); } static void color_size_on(off_t s) { int c; if (!Gflag) return; if (s < 1024LL) c = 46; else if (s < 4*1024LL) c = 82; else if (s < 16*1024LL) c = 118; else if (s < 32*1024LL) c = 154; else if (s < 128*1024LL) c = 190; else if (s < 512*1024LL) c = 226; else if (s < 1024*1024LL) c = 220; else if (s < 700*1024*1024LL) c = 214; else if (s < 2*1048*1024*1024LL) c = 208; else if (s < 50*1024*1024*1024LL) c = 202; else c = 196; fg256(c); } static void print_human(intmax_t i) { double d = i; const char *u = "\0\0K\0M\0G\0T\0P\0E\0Z\0Y\0"; while (d >= 1024) { u += 2; d /= 1024.0; } color_size_on(i); if (!*u) printf("%5.0f", d); else if (d < 10.0) printf("%4.1f%s", d, u); else printf("%4.0f%s", d, u); fgdefault(); } static void print_shquoted(const char *s) { if (!Qflag || !strpbrk(s, "\001\002\003\004\005\006\007\010" "\011\012\013\014\015\016\017\020" "\021\022\023\024\025\026\027\030" "\031\032\033\034\035\036\037\040" "`^#*[]=|\\?${}()'\"<>&;\177")) { printf("%s", s); return; } putchar('\''); for (; *s; s++) if (*s == '\'') printf("'\\''"); else putchar(*s); putchar('\''); } void print_noprefix(struct fileinfo *fi) { if (fi->prefixl == 0 && fi->fpath[0]) print_shquoted(fi->fpath); else if (strlen(fi->fpath) > fi->prefixl + 1) /* strip prefix */ print_shquoted(fi->fpath + fi->prefixl + 1); else if (S_ISDIR(fi->sb.st_mode)) /* turn empty string into "." */ printf("."); else /* turn empty string into basename */ print_shquoted(basenam(fi->fpath)); } void analyze_format() { char *s; for (s = format; *s; s++) { if (*s == '\\') { s++; continue; } if (*s != '%') continue; switch (*++s) { case 'g': need_group++; break; case 'u': need_user++; break; case 'Y': need_fstype++; break; case 'x': need_xattr++; break; } switch (*s) { case 'd': case 'I': case 'p': case 'P': case 'f': /* all good without stat */ break; case 'e': if (!Dflag) need_stat++; break; default: need_stat++; } } for (s = ordering; *s; s++) { switch (*s) { case 'd': case 'D': case 'n': case 'N': case 'e': case 'E': case 'p': case 'P': case 'v': case 'V': /* all good without stat */ break; default: need_stat++; } } if (Gflag) need_stat++; } static void color_age_on(time_t t) { time_t age = now - t; int c; if (!Gflag) return; if (age < 0LL) c = 196; else if (age < 60LL) c = 255; else if (age < 60*60LL) c = 252; else if (age < 24*60*60LL) c = 250; else if (age < 7*24*60*60LL) c = 244; else if (age < 4*7*24*60*60LL) c = 244; else if (age < 26*7*24*60*60LL) c = 242; else if (age < 52*7*24*60*60LL) c = 240; else if (age < 2*52*7*24*60*60LL) c = 238; else c = 236; fg256(c); } static void color_name_on(int c, const char *f, mode_t m) { const char *b; if (!Gflag) return; if (c != -1) { fg256(c); return; } b = basenam(f); if (m & S_IXUSR) fgbold(); if (*b == '.' || (S_ISREG(m) && b[strlen(b)-1] == '~')) fg256(238); else if (S_ISDIR(m)) fg256(242); else if (S_ISREG(m) && (m & S_IXUSR)) fg256(154); else if (m == 0) /* broken link */ fg256(196); } static void print_urlquoted(unsigned char *s) { for (; *s; s++) if (*s > 127 || rfc3986[*s]) printf("%%%02x", *s); else putchar(*s); } static void hyperlink_on(char *fpath) { // OSC 8 hyperlink format if (Xflag) { printf("\033]8;;file://%s", host); if (*fpath != '/') { print_urlquoted((unsigned char *)basepath); putchar('/'); } print_urlquoted((unsigned char *)fpath); putchar('\007'); } } static void hyperlink_off() { if (Xflag) printf("\033]8;;\007"); } // unused format codes: BEHJKLNOQVWXZ achjoqrvwz void print_format(struct fileinfo *fi) { char *s; for (s = format; *s; s++) { if (*s == '\\') { switch (*++s) { case 'a': putchar('\a'); break; case 'b': putchar('\b'); break; case 'f': putchar('\f'); break; case 'n': putchar('\n'); break; case 'r': putchar('\r'); break; case 't': putchar('\t'); break; case 'v': putchar('\v'); break; case '0': putchar('\0'); break; // TODO: \NNN default: putchar(*s); } continue; } if (*s != '%') { putchar(*s); continue; } switch (*++s) { case '%': putchar('%'); break; case 's': if (!hflag) { color_size_on(fi->sb.st_size); printf("%*jd", intlen(maxsize), (intmax_t)fi->sb.st_size); fgdefault(); break; } /* FALLTHRU */ case 'S': print_human((intmax_t)fi->sb.st_size); break; case 'b': printf("%*jd", intlen(maxblocks), (intmax_t)fi->sb.st_blocks); break; case 'k': printf("%*jd", intlen(maxblocks/2), (intmax_t)fi->sb.st_blocks / 2); break; case 'd': printf("%*d", intlen(maxdepth), fi->depth); break; case 'D': printf("%*jd", intlen(maxdev), (intmax_t)fi->sb.st_dev); break; case 'R': printf("%*jd", intlen(maxrdev), (intmax_t)fi->sb.st_rdev); break; case 'i': printf("%*jd", intlen(maxino), (intmax_t)fi->sb.st_ino); break; case 'I': { int i; for (i = 0; i < fi->depth; i++) printf(" "); break; } case 'p': if (!sflag) { color_name_on(fi->color, fi->fpath, fi->sb.st_mode); hyperlink_on(fi->fpath); if (!fi->fpath[0] && S_ISDIR(fi->sb.st_mode)) print_shquoted("."); else print_shquoted(fi->fpath); hyperlink_off(); fgdefault(); break; } /* FALLTHRU */ case 'P': color_name_on(fi->color, fi->fpath, fi->sb.st_mode); hyperlink_on(fi->fpath); print_noprefix(fi); hyperlink_off(); fgdefault(); break; case 'l': if (S_ISLNK(fi->sb.st_mode)) { char target[PATH_MAX]; size_t j = strlen(fi->fpath); struct stat st; st.st_mode = 0; snprintf(target, sizeof target, "%s", fi->fpath); while (j && target[j-1] != '/') j--; ssize_t l = readlink(fi->fpath, target+j, sizeof target - j); if (l > 0 && (size_t)l < sizeof target - j) { target[j+l] = 0; if (Gflag) lstat(target[j] == '/' ? target + j : target, &st); } else { *target = 0; } color_name_on(-1, target, st.st_mode); hyperlink_on(target); print_shquoted(target + j); hyperlink_off(); fgdefault(); } break; case 'n': printf("%*jd", intlen(maxnlink), (intmax_t)fi->sb.st_nlink); break; case 'F': if (S_ISDIR(fi->sb.st_mode)) { putchar('/'); } else if (S_ISSOCK(fi->sb.st_mode)) { putchar('='); } else if (S_ISFIFO(fi->sb.st_mode)) { putchar('|'); } else if (S_ISLNK(fi->sb.st_mode)) { if (lflag) printf(" -> "); else putchar('@'); } else if (fi->sb.st_mode & S_IXUSR) { putchar('*'); } break; case 'f': color_name_on(fi->color, fi->fpath, fi->sb.st_mode); hyperlink_on(fi->fpath); print_shquoted(basenam(fi->fpath)); hyperlink_off(); fgdefault(); break; case 'A': case 'C': case 'T': case '\324': /* Meta-T */ { char tfmt[3] = "%\0\0"; char buf[256]; if (*s == '\324') *s = Tflag; time_t t = (*s == 'A' ? fi->sb.st_atime : *s == 'C' ? fi->sb.st_ctime : fi->sb.st_mtime); s++; if (!*s) break; color_age_on(t); if (*s == '-') { long diff = now - t; printf("%4ldd%3ldh%3ldm%3lds", diff / (60*60*24), (diff / (60*60)) % 24, (diff / 60) % 60, diff % 60); } else { tfmt[1] = *s; strftime(buf, sizeof buf, tfmt, localtime(&t)); printf("%s", buf); } fgdefault(); break; } case 'm': printf("%04o", (unsigned int)fi->sb.st_mode & 07777); break; case 'M': print_mode(fi->sb.st_mode); break; case 'y': putchar("0pcCd?bBf?l?s???"[(fi->sb.st_mode >> 12) & 0x0f]); break; case 'g': printf("%*s", -gwid, groupname(fi->sb.st_gid)); break; case 'G': printf("%*ld", intlen(maxgid), (long)fi->sb.st_gid); break; case 'u': printf("%*s", -uwid, username(fi->sb.st_uid)); break; case 'U': printf("%*ld", intlen(maxuid), (long)fi->sb.st_uid); break; case 'e': printf("%ld", (long)count_entries(fi)); break; case 't': printf("%jd", (intmax_t)fi->total); break; case 'Y': printf("%*s", -fwid, fstype(fi->sb.st_dev)); break; case 'x': printf("%*s", -maxxattr, fi->xattr); break; default: putchar('%'); putchar(*s); } } } void print(const void *nodep, const VISIT which, const int depth) { (void)depth; if (which == postorder || which == leaf) print_format(*(struct fileinfo **)nodep); } int callback(const char *fpath, const struct stat *sb, int depth, int entries, off_t total) { struct fileinfo *fi = malloc(sizeof (struct fileinfo)); fi->fpath = strdup(fpath); fi->prefixl = prefixl; fi->depth = depth; fi->entries = entries; fi->total = total; fi->color = current_color; memcpy((char *)&fi->sb, (char *)sb, sizeof (struct stat)); if (expr && !eval(expr, fi)) return 0; if (need_xattr) { strncpy(fi->xattr, xattr_string(fi->fpath), sizeof fi->xattr); if (strlen(fi->xattr) > maxxattr) maxxattr = strlen(fi->xattr); } else memset(fi->xattr, 0, sizeof fi->xattr); if (Uflag) print(&fi, postorder, depth); else // add to the tree, note that this will elimnate duplicate files tsearch(fi, &root, order); if (depth > maxdepth) maxdepth = depth; if (need_stat) { if (fi->sb.st_nlink > maxnlink) maxnlink = fi->sb.st_nlink; if (fi->sb.st_size > maxsize) maxsize = fi->sb.st_size; if (fi->sb.st_rdev > maxrdev) maxrdev = fi->sb.st_rdev; if (fi->sb.st_dev > maxdev) maxdev = fi->sb.st_dev; if (fi->sb.st_blocks > maxblocks) maxblocks = fi->sb.st_blocks; if (fi->sb.st_uid > maxuid) maxuid = fi->sb.st_uid; if (fi->sb.st_gid > maxuid) maxgid = fi->sb.st_gid; if (fi->sb.st_ino > maxino) maxino = fi->sb.st_ino; } /* prefetch user/group/fs name for correct column widths. */ if (need_user) username(fi->sb.st_uid); if (need_group) groupname(fi->sb.st_gid); if (need_fstype) fstype(fi->sb.st_dev); return 0; } // lifted from musl nftw. struct history { struct history *chain; dev_t dev; ino_t ino; int level; off_t total; }; static int recurse(char *path, struct history *h, int guessdir) { size_t l = strlen(path), j = l && path[l-1] == '/' ? l - 1 : l; struct stat st; struct history new; int r, entries; const char *fpath = *path ? path : "."; int resolve = Lflag || (Hflag && !h); int root = (path[0] == '/' && path[1] == 0); if (need_stat) guessdir = 1; if (guessdir && (resolve ? stat(fpath, &st) : lstat(fpath, &st) < 0)) { if (resolve && (errno == ENOENT || errno == ELOOP) && !lstat(fpath, &st)) { /* ignore */ } else if (!h) { /* warn for toplevel arguments */ fprintf(stderr, "lr: cannot %sstat '%s': %s\n", resolve ? "" : "l", fpath, strerror(errno)); status = 1; return -1; } else if (errno != EACCES) { return -1; } } if (guessdir && xflag && h && st.st_dev != h->dev) return 0; new.chain = h; new.level = h ? h->level + 1 : 0; if (guessdir) { new.dev = st.st_dev; new.ino = st.st_ino; new.total = st.st_blocks / 2; } entries = 0; if (!Dflag) { prune = 0; r = callback(path, &st, new.level, 0, 0); if (prune) return 0; if (r) return r; } if (guessdir) for (; h; h = h->chain) { if (h->dev == st.st_dev && h->ino == st.st_ino) return 0; h->total += st.st_blocks / 2; } if (guessdir && S_ISDIR(st.st_mode)) { DIR *d = opendir(fpath); if (d) { struct dirent *de; while ((de = readdir(d))) { if (de->d_name[0] == '.' && (!de->d_name[1] || (de->d_name[1] == '.' && !de->d_name[2]))) continue; entries++; if (strlen(de->d_name) >= PATH_MAX-l) { errno = ENAMETOOLONG; closedir(d); return -1; } if (j > 0 || root) { path[j] = '/'; strcpy(path + j + 1, de->d_name); } else { strcpy(path, de->d_name); } #if defined(DT_DIR) && defined(DT_UNKNOWN) int guesssubdir = de->d_type == DT_DIR || (de->d_type == DT_LNK && resolve) || de->d_type == DT_UNKNOWN; #else int guesssubdir = 1; #endif if ((r = recurse(path, &new, guesssubdir))) { closedir(d); return r; } } closedir(d); } else if (errno != EACCES && errno != ENOTDIR) { return -1; } } path[l] = 0; if (Dflag && (r = callback(path, &st, new.level, entries, new.total))) return r; return 0; } int traverse_file(FILE *file) { char *line = 0; size_t linelen = 0; struct stat st; ssize_t rd; prefixl = 0; while (1) { errno = 0; rd = getdelim(&line, &linelen, input_delim, file); if (rd == -1) { if (errno != 0) return -1; break; } if (rd > 0 && line[rd-1] == input_delim) // strip delimiter line[rd-1] = 0; if (Lflag ? stat(line, &st) : lstat(line, &st) < 0) continue; callback(line, &st, 0, 0, 0); } free(line); return 0; } int traverse(const char *path) { char pathbuf[PATH_MAX + 1]; if (path[0] == '-' && !path[1]) return traverse_file(stdin); if (path[0] == '@') { FILE *f = fopen(path + 1, "r"); if (!f) parse_error("can't open input file '%s'", path + 1); int r = traverse_file(f); fclose(f); return r; } prefixl = strlen(path); while (path[prefixl-1] == '/') prefixl--; if (prefixl > PATH_MAX) { errno = ENAMETOOLONG; return -1; } memcpy(pathbuf, path, prefixl + 1); pathbuf[prefixl + 1] = 0; return recurse(pathbuf, 0, 1); } static char timeflag(char *arg) { if ((arg[0] == 'A' || arg[0] == 'C' || arg[0] == 'M') && !arg[1]) return arg[0] == 'M' ? 'T' : arg[0]; fprintf(stderr, "%s: -T only accepts A, C or M as argument.\n", argv0); exit(2); } int main(int argc, char *argv[]) { int i, c; format = default_format; ordering = default_ordering; argv0 = argv[0]; now = time(0); status = 0; setlocale(LC_ALL, ""); while ((c = getopt(argc, argv, "01AC:DFGHLQST:UXde:f:lho:st:x")) != -1) switch (c) { case '0': format = zero_format; input_delim = 0; Qflag = 0; break; case '1': expr = chain(parse_expr("depth == 0 || prune"), EXPR_AND, expr); break; case 'A': expr = chain(expr, EXPR_AND, parse_expr("!(path ~~ \"*/.*\" && prune) && path != \".\"")); break; case 'C': if ((unsigned int)Cflag < sizeof Cflags / sizeof Cflags[0]) { Cflags[Cflag++] = optarg; } else { fprintf(stderr, "%s: too many -C\n", argv0); exit(111); } Gflag += 2; // force color on break; case 'D': Dflag++; break; case 'F': format = type_format; break; case 'G': Gflag++; break; case 'H': Hflag++; break; case 'L': Lflag++; break; case 'Q': Qflag++; break; case 'S': Qflag++; format = stat_format; break; case 'T': Tflag = timeflag(optarg); break; case 'U': Uflag++; break; case 'X': Xflag++; break; case 'd': expr = chain(parse_expr("type == d && prune || print"), EXPR_AND, expr); break; case 'e': expr = chain(expr, EXPR_AND, mkstrexpr(PROP_NAME, EXPR_REGEX, optarg, 0)); break; case 'f': format = optarg; break; case 'h': hflag++; break; case 'l': lflag++; Qflag++; format = long_format; break; case 'o': ordering = optarg; break; case 's': sflag++; break; case 't': need_stat++; // overapproximation expr = chain(expr, EXPR_AND, parse_expr(optarg)); break; case 'x': xflag++; break; default: fprintf(stderr, "Usage: %s [-0|-F|-l [-TA|-TC|-TM]|-S|-f FMT] [-D] [-H|-L] [-1AGQdhsx]\n" " [-U|-o ORD] [-e REGEX]* [-t TEST]* [-C [COLOR:]PATH]* PATH...\n", argv0); exit(2); } if (isatty(1)) { Qflag = 1; } else { if (Gflag == 1) Gflag = 0; if (Xflag == 1) Xflag = 0; } analyze_format(); if (Xflag) { basepath = realpath(".", 0); if (!basepath) { fprintf(stderr, "%s: cannot resolve base path, disabling -X: %s\n", argv0, strerror(errno)); Xflag = 0; } if (gethostname(host, sizeof host) == 0) { // termination not posix guaranteed host[sizeof host - 1] = 0; } else { // ignore errors, use no host *host = 0; } } for (i = 0; i < Cflag; i++) { char *r; errno = 0; current_color = strtol(Cflags[i], &r, 10); if (errno == 0 && r != Cflags[i] && *r == ':') { current_color = current_color & 0xff; traverse(r + 1); } else { current_color = 2; traverse(Cflags[i]); } } current_color = -1; if (!Cflag && optind == argc) { traverse(""); } else { for (i = optind; i < argc; i++) traverse(argv[i]); } if (!Uflag) twalk(root, print); return status; }