/* $OpenBSD: stat.c,v 1.12 2006/05/28 16:41:18 pedro Exp $ */ /* $NetBSD: stat.c,v 1.19 2004/06/20 22:20:16 jmc Exp $ */ /* * Copyright (c) 2002 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Andrew Brown. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef lint static const char rccs_id[] = "$OpenBSD: stat.c,v 1.12 2006/05/28 16:41:18 pedro Exp $"; #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #define DEF_FORMAT \ "%d %i %Sp %l %Su %Sg %r %z \"%Sa\" \"%Sm\" \"%Sc\" " \ "%k %b %#Xf %N" #define RAW_FORMAT "%d %i %#p %l %u %g %r %z %a %m %c " \ "%k %b %f %N" #define LS_FORMAT "%Sp %l %Su %Sg %Z %Sm %N%SY" #define LSF_FORMAT "%Sp %l %Su %Sg %Z %Sm %N%T%SY" #define SHELL_FORMAT \ "st_dev=%d st_ino=%i st_mode=%#p st_nlink=%l " \ "st_uid=%u st_gid=%g st_rdev=%r st_size=%z " \ "st_atime=%a st_mtime=%m st_ctime=%c " \ "st_blksize=%k st_blocks=%b st_flags=%f" #define LINUX_FORMAT \ " File: \"%N\"%n" \ " Size: %-11z FileType: %HT%n" \ " Mode: (%04OLp/%.10Sp) Uid: (%5u/%8Su) Gid: (%5g/%8Sg)%n" \ "Device: %Hd,%Ld Inode: %i Links: %l%n" \ "Access: %Sa%n" \ "Modify: %Sm%n" \ "Change: %Sc" #define TIME_FORMAT "%b %e %T %Y" #define FLAG_POUND 0x01 #define FLAG_SPACE 0x02 #define FLAG_PLUS 0x04 #define FLAG_ZERO 0x08 #define FLAG_MINUS 0x10 /* * These format characters must all be unique, except the magic one. */ #define FMT_MAGIC '%' #define FMT_DOT '.' #define SIMPLE_NEWLINE 'n' #define SIMPLE_TAB 't' #define SIMPLE_PERCENT '%' #define SIMPLE_NUMBER '@' #define FMT_POUND '#' #define FMT_SPACE ' ' #define FMT_PLUS '+' #define FMT_ZERO '0' #define FMT_MINUS '-' #define FMT_DECIMAL 'D' #define FMT_OCTAL 'O' #define FMT_UNSIGNED 'U' #define FMT_HEX 'X' #define FMT_FLOAT 'F' #define FMT_STRING 'S' #define FMTF_DECIMAL 0x01 #define FMTF_OCTAL 0x02 #define FMTF_UNSIGNED 0x04 #define FMTF_HEX 0x08 #define FMTF_FLOAT 0x10 #define FMTF_STRING 0x20 #define HIGH_PIECE 'H' #define MIDDLE_PIECE 'M' #define LOW_PIECE 'L' #define SHOW_st_dev 'd' #define SHOW_st_ino 'i' #define SHOW_st_mode 'p' #define SHOW_st_nlink 'l' #define SHOW_st_uid 'u' #define SHOW_st_gid 'g' #define SHOW_st_rdev 'r' #define SHOW_st_atime 'a' #define SHOW_st_mtime 'm' #define SHOW_st_ctime 'c' #define SHOW_st_btime 'B' #define SHOW_st_size 'z' #define SHOW_st_blocks 'b' #define SHOW_st_blksize 'k' #define SHOW_st_flags 'f' #define SHOW_st_gen 'v' #define SHOW_symlink 'Y' #define SHOW_filetype 'T' #define SHOW_filename 'N' #define SHOW_sizerdev 'Z' void usage(const char *); void output(const struct stat *, const char *, const char *, int, int); int format1(const struct stat *, /* stat info */ const char *, /* the file name */ const char *, int, /* the format string itself */ char *, size_t, /* a place to put the output */ int, int, int, int, /* the parsed format */ int, int); char *timefmt; int linkfail; #define addchar(s, c, nl) \ do { \ (void)fputc((c), (s)); \ (*nl) = ((c) == '\n'); \ } while (0/*CONSTCOND*/) extern char *__progname; int main(int argc, char *argv[]) { struct stat st; int ch, rc, errs; int lsF, fmtchar, usestat, fn, nonl, quiet; char *statfmt, *options, *synopsis; lsF = 0; fmtchar = '\0'; usestat = 0; nonl = 0; quiet = 0; linkfail = 0; statfmt = NULL; timefmt = NULL; options = "f:FlLnqrst:x"; synopsis = "[-FlLnqrsx] [-f format] [-t timefmt] [file ...]"; while ((ch = getopt(argc, argv, options)) != -1) switch (ch) { case 'F': lsF = 1; break; case 'L': usestat = 1; break; case 'n': nonl = 1; break; case 'q': quiet = 1; break; case 'f': statfmt = optarg; /* FALLTHROUGH */ case 'l': case 'r': case 's': case 'x': if (fmtchar != 0) errx(1, "can't use format '%c' with '%c'", fmtchar, ch); fmtchar = ch; break; case 't': timefmt = optarg; break; default: usage(synopsis); } argc -= optind; argv += optind; fn = 1; if (fmtchar == '\0') { if (lsF) fmtchar = 'l'; else { fmtchar = 'f'; statfmt = DEF_FORMAT; } } if (lsF && fmtchar != 'l') errx(1, "can't use format '%c' with -F", fmtchar); switch (fmtchar) { case 'f': /* statfmt already set */ break; case 'l': statfmt = lsF ? LSF_FORMAT : LS_FORMAT; break; case 'r': statfmt = RAW_FORMAT; break; case 's': statfmt = SHELL_FORMAT; break; case 'x': statfmt = LINUX_FORMAT; if (timefmt == NULL) timefmt = "%c"; break; default: usage(synopsis); /*NOTREACHED*/ } if (timefmt == NULL) timefmt = TIME_FORMAT; errs = 0; do { if (argc == 0) rc = fstat(STDIN_FILENO, &st); else if (usestat) { /* * Try stat() and if it fails, fall back to * lstat() just in case we're examining a * broken symlink. */ if ((rc = stat(argv[0], &st)) == -1 && errno == ENOENT && (rc = lstat(argv[0], &st)) == -1) errno = ENOENT; } else rc = lstat(argv[0], &st); if (rc == -1) { errs = 1; linkfail = 1; if (!quiet) warn("%s", argc == 0 ? "(stdin)" : argv[0]); } else output(&st, argv[0], statfmt, fn, nonl); argv++; argc--; fn++; } while (argc > 0); return (errs); } void usage(const char *synopsis) { (void)fprintf(stderr, "usage: %s %s\n", __progname, synopsis); exit(1); } /* * Parses a format string. */ void output(const struct stat *st, const char *file, const char *statfmt, int fn, int nonl) { int flags, size, prec, ofmt, hilo, what; char buf[PATH_MAX + 4 + 1]; const char *subfmt; int nl, t, i; nl = 1; while (*statfmt != '\0') { /* * Non-format characters go straight out. */ if (*statfmt != FMT_MAGIC) { addchar(stdout, *statfmt, &nl); statfmt++; continue; } /* * The current format "substring" starts here, * and then we skip the magic. */ subfmt = statfmt; statfmt++; /* * Some simple one-character "formats". */ switch (*statfmt) { case SIMPLE_NEWLINE: addchar(stdout, '\n', &nl); statfmt++; continue; case SIMPLE_TAB: addchar(stdout, '\t', &nl); statfmt++; continue; case SIMPLE_PERCENT: addchar(stdout, '%', &nl); statfmt++; continue; case SIMPLE_NUMBER: { char num[12], *p; snprintf(num, sizeof(num), "%d", fn); for (p = &num[0]; *p; p++) addchar(stdout, *p, &nl); statfmt++; continue; } } /* * This must be an actual format string. Format strings are * similar to printf(3) formats up to a point, and are of * the form: * * % required start of format * [-# +0] opt. format characters * size opt. field width * . opt. decimal separator, followed by * prec opt. precision * fmt opt. output specifier (string, numeric, etc.) * sub opt. sub field specifier (high, middle, low) * datum required field specifier (size, mode, etc) * * Only the % and the datum selector are required. All data * have reasonable default output forms. The "sub" specifier * only applies to certain data (mode, dev, rdev, filetype). * The symlink output defaults to STRING, yet will only emit * the leading " -> " if STRING is explicitly specified. The * sizerdev datum will generate rdev output for character or * block devices, and size output for all others. */ flags = 0; do { if (*statfmt == FMT_POUND) flags |= FLAG_POUND; else if (*statfmt == FMT_SPACE) flags |= FLAG_SPACE; else if (*statfmt == FMT_PLUS) flags |= FLAG_PLUS; else if (*statfmt == FMT_ZERO) flags |= FLAG_ZERO; else if (*statfmt == FMT_MINUS) flags |= FLAG_MINUS; else break; statfmt++; } while (1/*CONSTCOND*/); size = -1; if (isdigit((unsigned)*statfmt)) { size = 0; while (isdigit((unsigned)*statfmt)) { size = (size * 10) + (*statfmt - '0'); statfmt++; if (size < 0) goto badfmt; } } prec = -1; if (*statfmt == FMT_DOT) { statfmt++; prec = 0; while (isdigit((unsigned)*statfmt)) { prec = (prec * 10) + (*statfmt - '0'); statfmt++; if (prec < 0) goto badfmt; } } #define fmtcase(x, y) case (y): (x) = (y); statfmt++; break #define fmtcasef(x, y, z) case (y): (x) = (z); statfmt++; break switch (*statfmt) { fmtcasef(ofmt, FMT_DECIMAL, FMTF_DECIMAL); fmtcasef(ofmt, FMT_OCTAL, FMTF_OCTAL); fmtcasef(ofmt, FMT_UNSIGNED, FMTF_UNSIGNED); fmtcasef(ofmt, FMT_HEX, FMTF_HEX); fmtcasef(ofmt, FMT_FLOAT, FMTF_FLOAT); fmtcasef(ofmt, FMT_STRING, FMTF_STRING); default: ofmt = 0; break; } switch (*statfmt) { fmtcase(hilo, HIGH_PIECE); fmtcase(hilo, MIDDLE_PIECE); fmtcase(hilo, LOW_PIECE); default: hilo = 0; break; } switch (*statfmt) { fmtcase(what, SHOW_st_dev); fmtcase(what, SHOW_st_ino); fmtcase(what, SHOW_st_mode); fmtcase(what, SHOW_st_nlink); fmtcase(what, SHOW_st_uid); fmtcase(what, SHOW_st_gid); fmtcase(what, SHOW_st_rdev); fmtcase(what, SHOW_st_atime); fmtcase(what, SHOW_st_mtime); fmtcase(what, SHOW_st_ctime); fmtcase(what, SHOW_st_btime); fmtcase(what, SHOW_st_size); fmtcase(what, SHOW_st_blocks); fmtcase(what, SHOW_st_blksize); fmtcase(what, SHOW_st_flags); fmtcase(what, SHOW_st_gen); fmtcase(what, SHOW_symlink); fmtcase(what, SHOW_filetype); fmtcase(what, SHOW_filename); fmtcase(what, SHOW_sizerdev); default: goto badfmt; } #undef fmtcasef #undef fmtcase t = format1(st, file, subfmt, statfmt - subfmt, buf, sizeof(buf), flags, size, prec, ofmt, hilo, what); for (i = 0; i < t && i < sizeof(buf) - 1; i++) addchar(stdout, buf[i], &nl); continue; badfmt: errx(1, "%.*s: bad format", (int)(statfmt - subfmt + 1), subfmt); } if (!nl && !nonl) (void)fputc('\n', stdout); (void)fflush(stdout); } /* * Arranges output according to a single parsed format substring. */ int format1(const struct stat *st, const char *file, const char *fmt, int flen, char *buf, size_t blen, int flags, int size, int prec, int ofmt, int hilo, int what) { u_int64_t data; char *sdata, lfmt[24], tmp[20]; char smode[12], sid[12], path[PATH_MAX + 4]; struct passwd *pw; struct group *gr; struct tm *tm; time_t secs; long nsecs; int l, small, formats, gottime, n; formats = 0; small = 0; gottime = 0; secs = 0; nsecs = 0; /* * First, pick out the data and tweak it based on hilo or * specified output format (symlink output only). */ switch (what) { case SHOW_st_dev: case SHOW_st_rdev: small = (sizeof(st->st_dev) == 4); data = (what == SHOW_st_dev) ? st->st_dev : st->st_rdev; sdata = (what == SHOW_st_dev) ? devname(st->st_dev, S_IFBLK) : devname(st->st_rdev, S_ISCHR(st->st_mode) ? S_IFCHR : S_ISBLK(st->st_mode) ? S_IFBLK : 0U); if (sdata == NULL) sdata = "???"; if (hilo == HIGH_PIECE) { data = major(data); hilo = 0; } else if (hilo == LOW_PIECE) { data = minor((unsigned)data); hilo = 0; } formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX | FMTF_STRING; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_ino: small = (sizeof(st->st_ino) == 4); data = st->st_ino; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_mode: small = (sizeof(st->st_mode) == 4); data = st->st_mode; strmode(st->st_mode, smode); sdata = smode; l = strlen(sdata); if (sdata[l - 1] == ' ') sdata[--l] = '\0'; if (hilo == HIGH_PIECE) { data >>= 12; sdata += 1; sdata[3] = '\0'; hilo = 0; } else if (hilo == MIDDLE_PIECE) { data = (data >> 9) & 07; sdata += 4; sdata[3] = '\0'; hilo = 0; } else if (hilo == LOW_PIECE) { data &= 0777; sdata += 7; sdata[3] = '\0'; hilo = 0; } formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX | FMTF_STRING; if (ofmt == 0) ofmt = FMTF_OCTAL; break; case SHOW_st_nlink: small = (sizeof(st->st_dev) == 4); data = st->st_nlink; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_uid: small = (sizeof(st->st_uid) == 4); data = st->st_uid; if ((pw = getpwuid(st->st_uid)) != NULL) sdata = pw->pw_name; else { snprintf(sid, sizeof(sid), "(%ld)", (long)st->st_uid); sdata = sid; } formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX | FMTF_STRING; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_gid: small = (sizeof(st->st_gid) == 4); data = st->st_gid; if ((gr = getgrgid(st->st_gid)) != NULL) sdata = gr->gr_name; else { snprintf(sid, sizeof(sid), "(%ld)", (long)st->st_gid); sdata = sid; } formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX | FMTF_STRING; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_atime: gottime = 1; secs = st->st_atime; nsecs = st->st_atimensec; /* FALLTHROUGH */ case SHOW_st_mtime: if (!gottime) { gottime = 1; secs = st->st_mtime; nsecs = st->st_mtimensec; } /* FALLTHROUGH */ case SHOW_st_ctime: if (!gottime) { gottime = 1; secs = st->st_ctime; nsecs = st->st_ctimensec; } /* FALLTHROUGH */ case SHOW_st_btime: if (!gottime) { gottime = 1; secs = st->__st_birthtimespec.tv_sec; nsecs = st->__st_birthtimespec.tv_nsec; } small = (sizeof(secs) == 4); data = secs; small = 1; tm = localtime(&secs); (void)strftime(path, sizeof(path), timefmt, tm); sdata = path; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX | FMTF_FLOAT | FMTF_STRING; if (ofmt == 0) ofmt = FMTF_DECIMAL; break; case SHOW_st_size: small = (sizeof(st->st_size) == 4); data = st->st_size; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_blocks: small = (sizeof(st->st_blocks) == 4); data = st->st_blocks; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_blksize: small = (sizeof(st->st_blksize) == 4); data = st->st_blksize; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_flags: small = (sizeof(st->st_flags) == 4); data = st->st_flags; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_st_gen: small = (sizeof(st->st_gen) == 4); data = st->st_gen; sdata = NULL; formats = FMTF_DECIMAL | FMTF_OCTAL | FMTF_UNSIGNED | FMTF_HEX; if (ofmt == 0) ofmt = FMTF_UNSIGNED; break; case SHOW_symlink: small = 0; data = 0; if (S_ISLNK(st->st_mode)) { snprintf(path, sizeof(path), " -> "); l = readlink(file, path + 4, sizeof(path) - 4 - 1); if (l == -1) { linkfail = 1; l = 0; path[0] = '\0'; } path[l + 4] = '\0'; sdata = path + (ofmt == FMTF_STRING ? 0 : 4); } else { linkfail = 1; sdata = ""; } formats = FMTF_STRING; if (ofmt == 0) ofmt = FMTF_STRING; break; case SHOW_filetype: small = 0; data = 0; sdata = smode; sdata[0] = '\0'; if (hilo == 0 || hilo == LOW_PIECE) { switch (st->st_mode & S_IFMT) { case S_IFIFO: (void)strlcat(sdata, "|", sizeof(smode)); break; case S_IFDIR: (void)strlcat(sdata, "/", sizeof(smode)); break; case S_IFREG: if (st->st_mode & (S_IXUSR | S_IXGRP | S_IXOTH)) (void)strlcat(sdata, "*", sizeof(smode)); break; case S_IFLNK: (void)strlcat(sdata, "@", sizeof(smode)); break; case S_IFSOCK: (void)strlcat(sdata, "=", sizeof(smode)); break; } hilo = 0; } else if (hilo == HIGH_PIECE) { switch (st->st_mode & S_IFMT) { case S_IFIFO: sdata = "Fifo File"; break; case S_IFCHR: sdata = "Character Device"; break; case S_IFDIR: sdata = "Directory"; break; case S_IFBLK: sdata = "Block Device"; break; case S_IFREG: sdata = "Regular File"; break; case S_IFLNK: sdata = "Symbolic Link"; break; case S_IFSOCK: sdata = "Socket"; break; default: sdata = "???"; break; } hilo = 0; } formats = FMTF_STRING; if (ofmt == 0) ofmt = FMTF_STRING; break; case SHOW_filename: small = 0; data = 0; if (file == NULL) (void)strlcpy(path, "(stdin)", sizeof(path)); else (void)strlcpy(path, file, sizeof(path)); sdata = path; formats = FMTF_STRING; if (ofmt == 0) ofmt = FMTF_STRING; break; case SHOW_sizerdev: if (S_ISCHR(st->st_mode) || S_ISBLK(st->st_mode)) { char majdev[20], mindev[20]; int l1, l2; l1 = format1(st, file, fmt, flen, majdev, sizeof(majdev), flags, size, prec, ofmt, HIGH_PIECE, SHOW_st_rdev); l2 = format1(st, file, fmt, flen, mindev, sizeof(mindev), flags, size, prec, ofmt, LOW_PIECE, SHOW_st_rdev); n = snprintf(buf, blen, "%.*s,%.*s", l1, majdev, l2, mindev); return (n >= blen ? blen : n); } else { return (format1(st, file, fmt, flen, buf, blen, flags, size, prec, ofmt, 0, SHOW_st_size)); } /*NOTREACHED*/ default: errx(1, "%.*s: bad format", (int)flen, fmt); } /* * If a subdatum was specified but not supported, or an output * format was selected that is not supported, that's an error. */ if (hilo != 0 || (ofmt & formats) == 0) errx(1, "%.*s: bad format", (int)flen, fmt); /* * Assemble the format string for passing to printf(3). */ lfmt[0] = '\0'; (void)strlcat(lfmt, "%", sizeof(lfmt)); if (flags & FLAG_POUND) (void)strlcat(lfmt, "#", sizeof(lfmt)); if (flags & FLAG_SPACE) (void)strlcat(lfmt, " ", sizeof(lfmt)); if (flags & FLAG_PLUS) (void)strlcat(lfmt, "+", sizeof(lfmt)); if (flags & FLAG_MINUS) (void)strlcat(lfmt, "-", sizeof(lfmt)); if (flags & FLAG_ZERO) (void)strlcat(lfmt, "0", sizeof(lfmt)); /* * Only the timespecs support the FLOAT output format, and that * requires work that differs from the other formats. */ if (ofmt == FMTF_FLOAT) { /* * Nothing after the decimal point, so just print seconds. */ if (prec == 0) { if (size != -1) { (void)snprintf(tmp, sizeof(tmp), "%d", size); (void)strlcat(lfmt, tmp, sizeof(lfmt)); } (void)strlcat(lfmt, "d", sizeof(lfmt)); n = snprintf(buf, blen, lfmt, secs); return (n >= blen ? blen : n); } /* * Unspecified precision gets all the precision we have: * 9 digits. */ if (prec == -1) prec = 9; /* * Adjust the size for the decimal point and the digits * that will follow. */ size -= prec + 1; /* * Any leftover size that's legitimate will be used. */ if (size > 0) { (void)snprintf(tmp, sizeof(tmp), "%d", size); (void)strlcat(lfmt, tmp, sizeof(lfmt)); } (void)strlcat(lfmt, "d", sizeof(lfmt)); /* * The stuff after the decimal point always needs zero * filling. */ (void)strlcat(lfmt, ".%0", sizeof(lfmt)); /* * We can "print" at most nine digits of precision. The * rest we will pad on at the end. */ (void)snprintf(tmp, sizeof(tmp), "%dd", prec > 9 ? 9 : prec); (void)strlcat(lfmt, tmp, sizeof(lfmt)); /* * For precision of less that nine digits, trim off the * less significant figures. */ for (; prec < 9; prec++) nsecs /= 10; /* * Use the format, and then tack on any zeroes that * might be required to make up the requested precision. */ l = snprintf(buf, blen, lfmt, secs, nsecs); if (l >= blen) return (l); for (; prec > 9 && l < blen; prec--, l++) (void)strlcat(buf, "0", blen); return (l); } /* * Add on size and precision, if specified, to the format. */ if (size != -1) { (void)snprintf(tmp, sizeof(tmp), "%d", size); (void)strlcat(lfmt, tmp, sizeof(lfmt)); } if (prec != -1) { (void)snprintf(tmp, sizeof(tmp), ".%d", prec); (void)strlcat(lfmt, tmp, sizeof(lfmt)); } /* * String output uses the temporary sdata. */ if (ofmt == FMTF_STRING) { if (sdata == NULL) errx(1, "%.*s: bad format", (int)flen, fmt); (void)strlcat(lfmt, "s", sizeof(lfmt)); n = snprintf(buf, blen, lfmt, sdata); return (n >= blen ? blen : n); } /* * Ensure that sign extension does not cause bad looking output * for some forms. */ if (small && ofmt != FMTF_DECIMAL) data = (u_int32_t)data; /* * The four "numeric" output forms. */ (void)strlcat(lfmt, "ll", sizeof(lfmt)); switch (ofmt) { case FMTF_DECIMAL: (void)strlcat(lfmt, "d", sizeof(lfmt)); break; case FMTF_OCTAL: (void)strlcat(lfmt, "o", sizeof(lfmt)); break; case FMTF_UNSIGNED: (void)strlcat(lfmt, "u", sizeof(lfmt)); break; case FMTF_HEX: (void)strlcat(lfmt, "x", sizeof(lfmt)); break; } n = snprintf(buf, blen, lfmt, data); return (n >= blen ? blen : n); }