/*- * Copyright (c) 2003-2007 Tim Kientzle * All rights reserved. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``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 AUTHOR(S) 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. */ #include "bsdtar_platform.h" __FBSDID("$FreeBSD$"); #ifdef HAVE_SYS_STAT_H #include #endif #ifdef HAVE_SYS_TYPES_H #include /* Linux doesn't define mode_t, etc. in sys/stat.h. */ #endif #include #ifdef HAVE_ERRNO_H #include #endif #ifdef HAVE_STDARG_H #include #endif #include #ifdef HAVE_STDLIB_H #include #endif #ifdef HAVE_STRING_H #include #endif #ifdef HAVE_WCTYPE_H #include #else /* If we don't have wctype, we need to hack up some version of iswprint(). */ #define iswprint isprint #endif #include "bsdtar.h" static void bsdtar_vwarnc(struct bsdtar *, int code, const char *fmt, va_list ap); static size_t bsdtar_expand_char(char *, size_t, char); static const char *strip_components(const char *path, int elements); /* TODO: Hack up a version of mbtowc for platforms with no wide * character support at all. I think the following might suffice, * but it needs careful testing. * #if !HAVE_MBTOWC * #define mbtowc(wcp, p, n) ((*wcp = *p), 1) * #endif */ /* * Print a string, taking care with any non-printable characters. * * Note that we use a stack-allocated buffer to receive the formatted * string if we can. This is partly performance (avoiding a call to * malloc()), partly out of expedience (we have to call vsnprintf() * before malloc() anyway to find out how big a buffer we need; we may * as well point that first call at a small local buffer in case it * works), but mostly for safety (so we can use this to print messages * about out-of-memory conditions). */ void safe_fprintf(FILE *f, const char *fmt, ...) { char fmtbuff_stack[256]; /* Place to format the printf() string. */ char outbuff[256]; /* Buffer for outgoing characters. */ char *fmtbuff_heap; /* If fmtbuff_stack is too small, we use malloc */ char *fmtbuff; /* Pointer to fmtbuff_stack or fmtbuff_heap. */ int fmtbuff_length; int length; va_list ap; const char *p; unsigned i; wchar_t wc; char try_wc; /* Use a stack-allocated buffer if we can, for speed and safety. */ fmtbuff_heap = NULL; fmtbuff_length = sizeof(fmtbuff_stack); fmtbuff = fmtbuff_stack; /* Try formatting into the stack buffer. */ va_start(ap, fmt); length = vsnprintf(fmtbuff, fmtbuff_length, fmt, ap); va_end(ap); /* If the result was too large, allocate a buffer on the heap. */ if (length >= fmtbuff_length) { fmtbuff_length = length+1; fmtbuff_heap = malloc(fmtbuff_length); /* Reformat the result into the heap buffer if we can. */ if (fmtbuff_heap != NULL) { fmtbuff = fmtbuff_heap; va_start(ap, fmt); length = vsnprintf(fmtbuff, fmtbuff_length, fmt, ap); va_end(ap); } else { /* Leave fmtbuff pointing to the truncated * string in fmtbuff_stack. */ length = sizeof(fmtbuff_stack) - 1; } } /* Note: mbrtowc() has a cleaner API, but mbtowc() seems a bit * more portable, so we use that here instead. */ mbtowc(NULL, NULL, 0); /* Reset the shift state. */ /* Write data, expanding unprintable characters. */ p = fmtbuff; i = 0; try_wc = 1; while (*p != '\0') { int n; /* Convert to wide char, test if the wide * char is printable in the current locale. */ if (try_wc && (n = mbtowc(&wc, p, length)) != -1) { length -= n; if (iswprint(wc) && wc != L'\\') { /* Printable, copy the bytes through. */ while (n-- > 0) outbuff[i++] = *p++; } else { /* Not printable, format the bytes. */ while (n-- > 0) i += bsdtar_expand_char( outbuff, i, *p++); } } else { /* After any conversion failure, don't bother * trying to convert the rest. */ i += bsdtar_expand_char(outbuff, i, *p++); try_wc = 0; } /* If our output buffer is full, dump it and keep going. */ if (i > (sizeof(outbuff) - 20)) { outbuff[i++] = '\0'; fprintf(f, "%s", outbuff); i = 0; } } outbuff[i++] = '\0'; fprintf(f, "%s", outbuff); /* If we allocated a heap-based formatting buffer, free it now. */ if (fmtbuff_heap != NULL) free(fmtbuff_heap); } /* * Render an arbitrary sequence of bytes into printable ASCII characters. */ static size_t bsdtar_expand_char(char *buff, size_t offset, char c) { size_t i = offset; if (isprint(c) && c != '\\') buff[i++] = c; else { buff[i++] = '\\'; switch (c) { case '\a': buff[i++] = 'a'; break; case '\b': buff[i++] = 'b'; break; case '\f': buff[i++] = 'f'; break; case '\n': buff[i++] = 'n'; break; #if '\r' != '\n' /* On some platforms, \n and \r are the same. */ case '\r': buff[i++] = 'r'; break; #endif case '\t': buff[i++] = 't'; break; case '\v': buff[i++] = 'v'; break; case '\\': buff[i++] = '\\'; break; default: sprintf(buff + i, "%03o", 0xFF & (int)c); i += 3; } } return (i - offset); } static void bsdtar_vwarnc(struct bsdtar *bsdtar, int code, const char *fmt, va_list ap) { fprintf(stderr, "%s: ", bsdtar->progname); vfprintf(stderr, fmt, ap); if (code != 0) fprintf(stderr, ": %s", strerror(code)); fprintf(stderr, "\n"); } void bsdtar_warnc(struct bsdtar *bsdtar, int code, const char *fmt, ...) { va_list ap; va_start(ap, fmt); bsdtar_vwarnc(bsdtar, code, fmt, ap); va_end(ap); } void bsdtar_errc(struct bsdtar *bsdtar, int eval, int code, const char *fmt, ...) { va_list ap; va_start(ap, fmt); bsdtar_vwarnc(bsdtar, code, fmt, ap); va_end(ap); exit(eval); } int yes(const char *fmt, ...) { char buff[32]; char *p; ssize_t l; va_list ap; va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); fprintf(stderr, " (y/N)? "); fflush(stderr); l = read(2, buff, sizeof(buff) - 1); if (l <= 0) return (0); buff[l] = 0; for (p = buff; *p != '\0'; p++) { if (isspace(0xff & (int)*p)) continue; switch(*p) { case 'y': case 'Y': return (1); case 'n': case 'N': return (0); default: return (0); } } return (0); } /* * Read lines from file and do something with each one. If option_null * is set, lines are terminated with zero bytes; otherwise, they're * terminated with newlines. * * This uses a self-sizing buffer to handle arbitrarily-long lines. * If the "process" function returns non-zero for any line, this * function will return non-zero after attempting to process all * remaining lines. */ int process_lines(struct bsdtar *bsdtar, const char *pathname, int (*process)(struct bsdtar *, const char *)) { FILE *f; char *buff, *buff_end, *line_start, *line_end, *p; size_t buff_length, new_buff_length, bytes_read, bytes_wanted; int separator; int ret; separator = bsdtar->option_null ? '\0' : '\n'; ret = 0; if (strcmp(pathname, "-") == 0) f = stdin; else f = fopen(pathname, "r"); if (f == NULL) bsdtar_errc(bsdtar, 1, errno, "Couldn't open %s", pathname); buff_length = 8192; buff = malloc(buff_length); if (buff == NULL) bsdtar_errc(bsdtar, 1, ENOMEM, "Can't read %s", pathname); line_start = line_end = buff_end = buff; for (;;) { /* Get some more data into the buffer. */ bytes_wanted = buff + buff_length - buff_end; bytes_read = fread(buff_end, 1, bytes_wanted, f); buff_end += bytes_read; /* Process all complete lines in the buffer. */ while (line_end < buff_end) { if (*line_end == separator) { *line_end = '\0'; if ((*process)(bsdtar, line_start) != 0) ret = -1; line_start = line_end + 1; line_end = line_start; } else line_end++; } if (feof(f)) break; if (ferror(f)) bsdtar_errc(bsdtar, 1, errno, "Can't read %s", pathname); if (line_start > buff) { /* Move a leftover fractional line to the beginning. */ memmove(buff, line_start, buff_end - line_start); buff_end -= line_start - buff; line_end -= line_start - buff; line_start = buff; } else { /* Line is too big; enlarge the buffer. */ new_buff_length = buff_length * 2; if (new_buff_length <= buff_length) bsdtar_errc(bsdtar, 1, ENOMEM, "Line too long in %s", pathname); buff_length = new_buff_length; p = realloc(buff, buff_length); if (p == NULL) bsdtar_errc(bsdtar, 1, ENOMEM, "Line too long in %s", pathname); buff_end = p + (buff_end - buff); line_end = p + (line_end - buff); line_start = buff = p; } } /* At end-of-file, handle the final line. */ if (line_end > line_start) { *line_end = '\0'; if ((*process)(bsdtar, line_start) != 0) ret = -1; } free(buff); if (f != stdin) fclose(f); return (ret); } /*- * The logic here for -C attempts to avoid * chdir() as long as possible. For example: * "-C /foo -C /bar file" needs chdir("/bar") but not chdir("/foo") * "-C /foo -C bar file" needs chdir("/foo/bar") * "-C /foo -C bar /file1" does not need chdir() * "-C /foo -C bar /file1 file2" needs chdir("/foo/bar") before file2 * * The only correct way to handle this is to record a "pending" chdir * request and combine multiple requests intelligently until we * need to process a non-absolute file. set_chdir() adds the new dir * to the pending list; do_chdir() actually executes any pending chdir. * * This way, programs that build tar command lines don't have to worry * about -C with non-existent directories; such requests will only * fail if the directory must be accessed. */ void set_chdir(struct bsdtar *bsdtar, const char *newdir) { if (newdir[0] == '/') { /* The -C /foo -C /bar case; dump first one. */ free(bsdtar->pending_chdir); bsdtar->pending_chdir = NULL; } if (bsdtar->pending_chdir == NULL) /* Easy case: no previously-saved dir. */ bsdtar->pending_chdir = strdup(newdir); else { /* The -C /foo -C bar case; concatenate */ char *old_pending = bsdtar->pending_chdir; size_t old_len = strlen(old_pending); bsdtar->pending_chdir = malloc(old_len + strlen(newdir) + 2); if (old_pending[old_len - 1] == '/') old_pending[old_len - 1] = '\0'; if (bsdtar->pending_chdir != NULL) sprintf(bsdtar->pending_chdir, "%s/%s", old_pending, newdir); free(old_pending); } if (bsdtar->pending_chdir == NULL) bsdtar_errc(bsdtar, 1, errno, "No memory"); } void do_chdir(struct bsdtar *bsdtar) { if (bsdtar->pending_chdir == NULL) return; if (chdir(bsdtar->pending_chdir) != 0) { bsdtar_errc(bsdtar, 1, 0, "could not chdir to '%s'\n", bsdtar->pending_chdir); } free(bsdtar->pending_chdir); bsdtar->pending_chdir = NULL; } const char * strip_components(const char *path, int elements) { const char *p = path; while (elements > 0) { switch (*p++) { case '/': elements--; path = p; break; case '\0': /* Path is too short, skip it. */ return (NULL); } } while (*path == '/') ++path; if (*path == '\0') return (NULL); return (path); } /* * Handle --strip-components and any future path-rewriting options. * Returns non-zero if the pathname should not be extracted. * * TODO: Support pax-style regex path rewrites. */ int edit_pathname(struct bsdtar *bsdtar, struct archive_entry *entry) { const char *name = archive_entry_pathname(entry); #if HAVE_REGEX_H char *subst_name; #endif int r; #if HAVE_REGEX_H r = apply_substitution(bsdtar, name, &subst_name, 0); if (r == -1) { bsdtar_warnc(bsdtar, 0, "Invalid substituion, skipping entry"); return 1; } if (r == 1) { archive_entry_copy_pathname(entry, subst_name); if (*subst_name == '\0') { free(subst_name); return -1; } else free(subst_name); name = archive_entry_pathname(entry); } if (archive_entry_hardlink(entry)) { r = apply_substitution(bsdtar, archive_entry_hardlink(entry), &subst_name, 1); if (r == -1) { bsdtar_warnc(bsdtar, 0, "Invalid substituion, skipping entry"); return 1; } if (r == 1) { archive_entry_copy_hardlink(entry, subst_name); free(subst_name); } } if (archive_entry_symlink(entry) != NULL) { r = apply_substitution(bsdtar, archive_entry_symlink(entry), &subst_name, 1); if (r == -1) { bsdtar_warnc(bsdtar, 0, "Invalid substituion, skipping entry"); return 1; } if (r == 1) { archive_entry_copy_symlink(entry, subst_name); free(subst_name); } } #endif /* Strip leading dir names as per --strip-components option. */ if (bsdtar->strip_components > 0) { const char *linkname = archive_entry_hardlink(entry); name = strip_components(name, bsdtar->strip_components); if (name == NULL) return (1); if (linkname != NULL) { linkname = strip_components(linkname, bsdtar->strip_components); if (linkname == NULL) return (1); archive_entry_copy_hardlink(entry, linkname); } } /* Strip redundant leading '/' characters. */ while (name[0] == '/' && name[1] == '/') name++; /* Strip leading '/' unless user has asked us not to. */ if (name[0] == '/' && !bsdtar->option_absolute_paths) { /* Generate a warning the first time this happens. */ if (!bsdtar->warned_lead_slash) { bsdtar_warnc(bsdtar, 0, "Removing leading '/' from member names"); bsdtar->warned_lead_slash = 1; } name++; /* Special case: Stripping leading '/' from "/" yields ".". */ if (*name == '\0') name = "."; } /* Safely replace name in archive_entry. */ if (name != archive_entry_pathname(entry)) { char *q = strdup(name); archive_entry_copy_pathname(entry, q); free(q); } return (0); } /* * Like strcmp(), but try to be a little more aware of the fact that * we're comparing two paths. Right now, it just handles leading * "./" and trailing '/' specially, so that "a/b/" == "./a/b" * * TODO: Make this better, so that "./a//b/./c/" == "a/b/c" * TODO: After this works, push it down into libarchive. * TODO: Publish the path normalization routines in libarchive so * that bsdtar can normalize paths and use fast strcmp() instead * of this. */ int pathcmp(const char *a, const char *b) { /* Skip leading './' */ if (a[0] == '.' && a[1] == '/' && a[2] != '\0') a += 2; if (b[0] == '.' && b[1] == '/' && b[2] != '\0') b += 2; /* Find the first difference, or return (0) if none. */ while (*a == *b) { if (*a == '\0') return (0); a++; b++; } /* * If one ends in '/' and the other one doesn't, * they're the same. */ if (a[0] == '/' && a[1] == '\0' && b[0] == '\0') return (0); if (a[0] == '\0' && b[0] == '/' && b[1] == '\0') return (0); /* They're really different, return the correct sign. */ return (*(const unsigned char *)a - *(const unsigned char *)b); }