/*- * Copyright (c) 2003-2007 Tim Kientzle * Copyright (c) 2016 Martin Matuska * 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 "archive_platform.h" __FBSDID("$FreeBSD: head/lib/libarchive/archive_entry.c 201096 2009-12-28 02:41:27Z kientzle $"); #ifdef HAVE_SYS_STAT_H #include #endif #ifdef HAVE_SYS_TYPES_H #include #endif #if MAJOR_IN_MKDEV #include #define HAVE_MAJOR #elif MAJOR_IN_SYSMACROS #include #define HAVE_MAJOR #endif #ifdef HAVE_ERRNO_H #include #endif #ifdef HAVE_LIMITS_H #include #endif #ifdef HAVE_LINUX_FS_H #include /* for Linux file flags */ #endif /* * Some Linux distributions have both linux/ext2_fs.h and ext2fs/ext2_fs.h. * As the include guards don't agree, the order of include is important. */ #ifdef HAVE_LINUX_EXT2_FS_H #include /* for Linux file flags */ #endif #if defined(HAVE_EXT2FS_EXT2_FS_H) && !defined(__CYGWIN__) #include /* for Linux file flags */ #endif #include #include #ifdef HAVE_STDLIB_H #include #endif #ifdef HAVE_STRING_H #include #endif #ifdef HAVE_WCHAR_H #include #endif #include "archive.h" #include "archive_acl_private.h" #include "archive_entry.h" #include "archive_entry_locale.h" #include "archive_private.h" #include "archive_entry_private.h" #if !defined(HAVE_MAJOR) && !defined(major) /* Replacement for major/minor/makedev. */ #define major(x) ((int)(0x00ff & ((x) >> 8))) #define minor(x) ((int)(0xffff00ff & (x))) #define makedev(maj,min) ((0xff00 & ((maj)<<8)) | (0xffff00ff & (min))) #endif /* Play games to come up with a suitable makedev() definition. */ #ifdef __QNXNTO__ /* QNX. */ #include #define ae_makedev(maj, min) makedev(ND_LOCAL_NODE, (maj), (min)) #elif defined makedev /* There's a "makedev" macro. */ #define ae_makedev(maj, min) makedev((maj), (min)) #elif defined mkdev || ((defined _WIN32 || defined __WIN32__) && !defined(__CYGWIN__)) /* Windows. */ #define ae_makedev(maj, min) mkdev((maj), (min)) #else /* There's a "makedev" function. */ #define ae_makedev(maj, min) makedev((maj), (min)) #endif /* * This adjustment is needed to support the following idiom for adding * 1000ns to the stored time: * archive_entry_set_atime(archive_entry_atime(), * archive_entry_atime_nsec() + 1000) * The additional if() here compensates for ambiguity in the C standard, * which permits two possible interpretations of a % b when a is negative. */ #define FIX_NS(t,ns) \ do { \ t += ns / 1000000000; \ ns %= 1000000000; \ if (ns < 0) { --t; ns += 1000000000; } \ } while (0) static char * ae_fflagstostr(unsigned long bitset, unsigned long bitclear); static const wchar_t *ae_wcstofflags(const wchar_t *stringp, unsigned long *setp, unsigned long *clrp); static const char *ae_strtofflags(const char *stringp, unsigned long *setp, unsigned long *clrp); #ifndef HAVE_WCSCPY static wchar_t * wcscpy(wchar_t *s1, const wchar_t *s2) { wchar_t *dest = s1; while ((*s1 = *s2) != L'\0') ++s1, ++s2; return dest; } #endif #ifndef HAVE_WCSLEN static size_t wcslen(const wchar_t *s) { const wchar_t *p = s; while (*p != L'\0') ++p; return p - s; } #endif #ifndef HAVE_WMEMCMP /* Good enough for simple equality testing, but not for sorting. */ #define wmemcmp(a,b,i) memcmp((a), (b), (i) * sizeof(wchar_t)) #endif /**************************************************************************** * * Public Interface * ****************************************************************************/ struct archive_entry * archive_entry_clear(struct archive_entry *entry) { if (entry == NULL) return (NULL); archive_mstring_clean(&entry->ae_fflags_text); archive_mstring_clean(&entry->ae_gname); archive_mstring_clean(&entry->ae_hardlink); archive_mstring_clean(&entry->ae_pathname); archive_mstring_clean(&entry->ae_sourcepath); archive_mstring_clean(&entry->ae_symlink); archive_mstring_clean(&entry->ae_uname); archive_entry_copy_mac_metadata(entry, NULL, 0); archive_acl_clear(&entry->acl); archive_entry_xattr_clear(entry); archive_entry_sparse_clear(entry); free(entry->stat); entry->ae_symlink_type = AE_SYMLINK_TYPE_UNDEFINED; memset(entry, 0, sizeof(*entry)); return entry; } struct archive_entry * archive_entry_clone(struct archive_entry *entry) { struct archive_entry *entry2; struct ae_xattr *xp; struct ae_sparse *sp; size_t s; const void *p; /* Allocate new structure and copy over all of the fields. */ /* TODO: Should we copy the archive over? Or require a new archive * as an argument? */ entry2 = archive_entry_new2(entry->archive); if (entry2 == NULL) return (NULL); entry2->ae_stat = entry->ae_stat; entry2->ae_fflags_set = entry->ae_fflags_set; entry2->ae_fflags_clear = entry->ae_fflags_clear; /* TODO: XXX If clone can have a different archive, what do we do here if * character sets are different? XXX */ archive_mstring_copy(&entry2->ae_fflags_text, &entry->ae_fflags_text); archive_mstring_copy(&entry2->ae_gname, &entry->ae_gname); archive_mstring_copy(&entry2->ae_hardlink, &entry->ae_hardlink); archive_mstring_copy(&entry2->ae_pathname, &entry->ae_pathname); archive_mstring_copy(&entry2->ae_sourcepath, &entry->ae_sourcepath); archive_mstring_copy(&entry2->ae_symlink, &entry->ae_symlink); entry2->ae_set = entry->ae_set; archive_mstring_copy(&entry2->ae_uname, &entry->ae_uname); /* Copy symlink type */ entry2->ae_symlink_type = entry->ae_symlink_type; /* Copy encryption status */ entry2->encryption = entry->encryption; /* Copy digests */ #define copy_digest(_e2, _e, _t) \ memcpy(_e2->digest._t, _e->digest._t, sizeof(_e2->digest._t)) copy_digest(entry2, entry, md5); copy_digest(entry2, entry, rmd160); copy_digest(entry2, entry, sha1); copy_digest(entry2, entry, sha256); copy_digest(entry2, entry, sha384); copy_digest(entry2, entry, sha512); #undef copy_digest /* Copy ACL data over. */ archive_acl_copy(&entry2->acl, &entry->acl); /* Copy Mac OS metadata. */ p = archive_entry_mac_metadata(entry, &s); archive_entry_copy_mac_metadata(entry2, p, s); /* Copy xattr data over. */ xp = entry->xattr_head; while (xp != NULL) { archive_entry_xattr_add_entry(entry2, xp->name, xp->value, xp->size); xp = xp->next; } /* Copy sparse data over. */ sp = entry->sparse_head; while (sp != NULL) { archive_entry_sparse_add_entry(entry2, sp->offset, sp->length); sp = sp->next; } return (entry2); } void archive_entry_free(struct archive_entry *entry) { archive_entry_clear(entry); free(entry); } struct archive_entry * archive_entry_new(void) { return archive_entry_new2(NULL); } struct archive_entry * archive_entry_new2(struct archive *a) { struct archive_entry *entry; entry = (struct archive_entry *)calloc(1, sizeof(*entry)); if (entry == NULL) return (NULL); entry->archive = a; entry->ae_symlink_type = AE_SYMLINK_TYPE_UNDEFINED; return (entry); } /* * Functions for reading fields from an archive_entry. */ time_t archive_entry_atime(struct archive_entry *entry) { return (entry->ae_stat.aest_atime); } long archive_entry_atime_nsec(struct archive_entry *entry) { return (entry->ae_stat.aest_atime_nsec); } int archive_entry_atime_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_ATIME); } time_t archive_entry_birthtime(struct archive_entry *entry) { return (entry->ae_stat.aest_birthtime); } long archive_entry_birthtime_nsec(struct archive_entry *entry) { return (entry->ae_stat.aest_birthtime_nsec); } int archive_entry_birthtime_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_BIRTHTIME); } time_t archive_entry_ctime(struct archive_entry *entry) { return (entry->ae_stat.aest_ctime); } int archive_entry_ctime_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_CTIME); } long archive_entry_ctime_nsec(struct archive_entry *entry) { return (entry->ae_stat.aest_ctime_nsec); } dev_t archive_entry_dev(struct archive_entry *entry) { if (entry->ae_stat.aest_dev_is_broken_down) return ae_makedev(entry->ae_stat.aest_devmajor, entry->ae_stat.aest_devminor); else return (entry->ae_stat.aest_dev); } int archive_entry_dev_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_DEV); } dev_t archive_entry_devmajor(struct archive_entry *entry) { if (entry->ae_stat.aest_dev_is_broken_down) return (entry->ae_stat.aest_devmajor); else return major(entry->ae_stat.aest_dev); } dev_t archive_entry_devminor(struct archive_entry *entry) { if (entry->ae_stat.aest_dev_is_broken_down) return (entry->ae_stat.aest_devminor); else return minor(entry->ae_stat.aest_dev); } __LA_MODE_T archive_entry_filetype(struct archive_entry *entry) { return (AE_IFMT & entry->acl.mode); } void archive_entry_fflags(struct archive_entry *entry, unsigned long *set, unsigned long *clear) { *set = entry->ae_fflags_set; *clear = entry->ae_fflags_clear; } /* * Note: if text was provided, this just returns that text. If you * really need the text to be rebuilt in a canonical form, set the * text, ask for the bitmaps, then set the bitmaps. (Setting the * bitmaps clears any stored text.) This design is deliberate: if * we're editing archives, we don't want to discard flags just because * they aren't supported on the current system. The bitmap<->text * conversions are platform-specific (see below). */ const char * archive_entry_fflags_text(struct archive_entry *entry) { const char *f; char *p; if (archive_mstring_get_mbs(entry->archive, &entry->ae_fflags_text, &f) == 0) { if (f != NULL) return (f); } else if (errno == ENOMEM) __archive_errx(1, "No memory"); if (entry->ae_fflags_set == 0 && entry->ae_fflags_clear == 0) return (NULL); p = ae_fflagstostr(entry->ae_fflags_set, entry->ae_fflags_clear); if (p == NULL) return (NULL); archive_mstring_copy_mbs(&entry->ae_fflags_text, p); free(p); if (archive_mstring_get_mbs(entry->archive, &entry->ae_fflags_text, &f) == 0) return (f); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } la_int64_t archive_entry_gid(struct archive_entry *entry) { return (entry->ae_stat.aest_gid); } const char * archive_entry_gname(struct archive_entry *entry) { const char *p; if (archive_mstring_get_mbs(entry->archive, &entry->ae_gname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const char * archive_entry_gname_utf8(struct archive_entry *entry) { const char *p; if (archive_mstring_get_utf8(entry->archive, &entry->ae_gname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const wchar_t * archive_entry_gname_w(struct archive_entry *entry) { const wchar_t *p; if (archive_mstring_get_wcs(entry->archive, &entry->ae_gname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } int _archive_entry_gname_l(struct archive_entry *entry, const char **p, size_t *len, struct archive_string_conv *sc) { return (archive_mstring_get_mbs_l(entry->archive, &entry->ae_gname, p, len, sc)); } const char * archive_entry_hardlink(struct archive_entry *entry) { const char *p; if ((entry->ae_set & AE_SET_HARDLINK) == 0) return (NULL); if (archive_mstring_get_mbs( entry->archive, &entry->ae_hardlink, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const char * archive_entry_hardlink_utf8(struct archive_entry *entry) { const char *p; if ((entry->ae_set & AE_SET_HARDLINK) == 0) return (NULL); if (archive_mstring_get_utf8( entry->archive, &entry->ae_hardlink, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const wchar_t * archive_entry_hardlink_w(struct archive_entry *entry) { const wchar_t *p; if ((entry->ae_set & AE_SET_HARDLINK) == 0) return (NULL); if (archive_mstring_get_wcs( entry->archive, &entry->ae_hardlink, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } int _archive_entry_hardlink_l(struct archive_entry *entry, const char **p, size_t *len, struct archive_string_conv *sc) { if ((entry->ae_set & AE_SET_HARDLINK) == 0) { *p = NULL; *len = 0; return (0); } return (archive_mstring_get_mbs_l(entry->archive, &entry->ae_hardlink, p, len, sc)); } la_int64_t archive_entry_ino(struct archive_entry *entry) { return (entry->ae_stat.aest_ino); } int archive_entry_ino_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_INO); } la_int64_t archive_entry_ino64(struct archive_entry *entry) { return (entry->ae_stat.aest_ino); } __LA_MODE_T archive_entry_mode(struct archive_entry *entry) { return (entry->acl.mode); } time_t archive_entry_mtime(struct archive_entry *entry) { return (entry->ae_stat.aest_mtime); } long archive_entry_mtime_nsec(struct archive_entry *entry) { return (entry->ae_stat.aest_mtime_nsec); } int archive_entry_mtime_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_MTIME); } unsigned int archive_entry_nlink(struct archive_entry *entry) { return (entry->ae_stat.aest_nlink); } const char * archive_entry_pathname(struct archive_entry *entry) { const char *p; if (archive_mstring_get_mbs( entry->archive, &entry->ae_pathname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const char * archive_entry_pathname_utf8(struct archive_entry *entry) { const char *p; if (archive_mstring_get_utf8( entry->archive, &entry->ae_pathname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const wchar_t * archive_entry_pathname_w(struct archive_entry *entry) { const wchar_t *p; if (archive_mstring_get_wcs( entry->archive, &entry->ae_pathname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } int _archive_entry_pathname_l(struct archive_entry *entry, const char **p, size_t *len, struct archive_string_conv *sc) { return (archive_mstring_get_mbs_l(entry->archive, &entry->ae_pathname, p, len, sc)); } __LA_MODE_T archive_entry_perm(struct archive_entry *entry) { return (~AE_IFMT & entry->acl.mode); } dev_t archive_entry_rdev(struct archive_entry *entry) { if (entry->ae_stat.aest_rdev_is_broken_down) return ae_makedev(entry->ae_stat.aest_rdevmajor, entry->ae_stat.aest_rdevminor); else return (entry->ae_stat.aest_rdev); } dev_t archive_entry_rdevmajor(struct archive_entry *entry) { if (entry->ae_stat.aest_rdev_is_broken_down) return (entry->ae_stat.aest_rdevmajor); else return major(entry->ae_stat.aest_rdev); } dev_t archive_entry_rdevminor(struct archive_entry *entry) { if (entry->ae_stat.aest_rdev_is_broken_down) return (entry->ae_stat.aest_rdevminor); else return minor(entry->ae_stat.aest_rdev); } la_int64_t archive_entry_size(struct archive_entry *entry) { return (entry->ae_stat.aest_size); } int archive_entry_size_is_set(struct archive_entry *entry) { return (entry->ae_set & AE_SET_SIZE); } const char * archive_entry_sourcepath(struct archive_entry *entry) { const char *p; if (archive_mstring_get_mbs( entry->archive, &entry->ae_sourcepath, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const wchar_t * archive_entry_sourcepath_w(struct archive_entry *entry) { const wchar_t *p; if (archive_mstring_get_wcs( entry->archive, &entry->ae_sourcepath, &p) == 0) return (p); return (NULL); } const char * archive_entry_symlink(struct archive_entry *entry) { const char *p; if ((entry->ae_set & AE_SET_SYMLINK) == 0) return (NULL); if (archive_mstring_get_mbs( entry->archive, &entry->ae_symlink, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } int archive_entry_symlink_type(struct archive_entry *entry) { return (entry->ae_symlink_type); } const char * archive_entry_symlink_utf8(struct archive_entry *entry) { const char *p; if ((entry->ae_set & AE_SET_SYMLINK) == 0) return (NULL); if (archive_mstring_get_utf8( entry->archive, &entry->ae_symlink, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const wchar_t * archive_entry_symlink_w(struct archive_entry *entry) { const wchar_t *p; if ((entry->ae_set & AE_SET_SYMLINK) == 0) return (NULL); if (archive_mstring_get_wcs( entry->archive, &entry->ae_symlink, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } int _archive_entry_symlink_l(struct archive_entry *entry, const char **p, size_t *len, struct archive_string_conv *sc) { if ((entry->ae_set & AE_SET_SYMLINK) == 0) { *p = NULL; *len = 0; return (0); } return (archive_mstring_get_mbs_l(entry->archive, &entry->ae_symlink, p, len, sc)); } la_int64_t archive_entry_uid(struct archive_entry *entry) { return (entry->ae_stat.aest_uid); } const char * archive_entry_uname(struct archive_entry *entry) { const char *p; if (archive_mstring_get_mbs(entry->archive, &entry->ae_uname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const char * archive_entry_uname_utf8(struct archive_entry *entry) { const char *p; if (archive_mstring_get_utf8(entry->archive, &entry->ae_uname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } const wchar_t * archive_entry_uname_w(struct archive_entry *entry) { const wchar_t *p; if (archive_mstring_get_wcs(entry->archive, &entry->ae_uname, &p) == 0) return (p); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (NULL); } int _archive_entry_uname_l(struct archive_entry *entry, const char **p, size_t *len, struct archive_string_conv *sc) { return (archive_mstring_get_mbs_l(entry->archive, &entry->ae_uname, p, len, sc)); } int archive_entry_is_data_encrypted(struct archive_entry *entry) { return ((entry->encryption & AE_ENCRYPTION_DATA) == AE_ENCRYPTION_DATA); } int archive_entry_is_metadata_encrypted(struct archive_entry *entry) { return ((entry->encryption & AE_ENCRYPTION_METADATA) == AE_ENCRYPTION_METADATA); } int archive_entry_is_encrypted(struct archive_entry *entry) { return (entry->encryption & (AE_ENCRYPTION_DATA|AE_ENCRYPTION_METADATA)); } /* * Functions to set archive_entry properties. */ void archive_entry_set_filetype(struct archive_entry *entry, unsigned int type) { entry->stat_valid = 0; entry->acl.mode &= ~AE_IFMT; entry->acl.mode |= AE_IFMT & type; } void archive_entry_set_fflags(struct archive_entry *entry, unsigned long set, unsigned long clear) { archive_mstring_clean(&entry->ae_fflags_text); entry->ae_fflags_set = set; entry->ae_fflags_clear = clear; } const char * archive_entry_copy_fflags_text(struct archive_entry *entry, const char *flags) { archive_mstring_copy_mbs(&entry->ae_fflags_text, flags); return (ae_strtofflags(flags, &entry->ae_fflags_set, &entry->ae_fflags_clear)); } const wchar_t * archive_entry_copy_fflags_text_w(struct archive_entry *entry, const wchar_t *flags) { archive_mstring_copy_wcs(&entry->ae_fflags_text, flags); return (ae_wcstofflags(flags, &entry->ae_fflags_set, &entry->ae_fflags_clear)); } void archive_entry_set_gid(struct archive_entry *entry, la_int64_t g) { entry->stat_valid = 0; entry->ae_stat.aest_gid = g; } void archive_entry_set_gname(struct archive_entry *entry, const char *name) { archive_mstring_copy_mbs(&entry->ae_gname, name); } void archive_entry_set_gname_utf8(struct archive_entry *entry, const char *name) { archive_mstring_copy_utf8(&entry->ae_gname, name); } void archive_entry_copy_gname(struct archive_entry *entry, const char *name) { archive_mstring_copy_mbs(&entry->ae_gname, name); } void archive_entry_copy_gname_w(struct archive_entry *entry, const wchar_t *name) { archive_mstring_copy_wcs(&entry->ae_gname, name); } int archive_entry_update_gname_utf8(struct archive_entry *entry, const char *name) { if (archive_mstring_update_utf8(entry->archive, &entry->ae_gname, name) == 0) return (1); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (0); } int _archive_entry_copy_gname_l(struct archive_entry *entry, const char *name, size_t len, struct archive_string_conv *sc) { return (archive_mstring_copy_mbs_len_l(&entry->ae_gname, name, len, sc)); } void archive_entry_set_ino(struct archive_entry *entry, la_int64_t ino) { entry->stat_valid = 0; entry->ae_set |= AE_SET_INO; entry->ae_stat.aest_ino = ino; } void archive_entry_set_ino64(struct archive_entry *entry, la_int64_t ino) { entry->stat_valid = 0; entry->ae_set |= AE_SET_INO; entry->ae_stat.aest_ino = ino; } void archive_entry_set_hardlink(struct archive_entry *entry, const char *target) { archive_mstring_copy_mbs(&entry->ae_hardlink, target); if (target != NULL) entry->ae_set |= AE_SET_HARDLINK; else entry->ae_set &= ~AE_SET_HARDLINK; } void archive_entry_set_hardlink_utf8(struct archive_entry *entry, const char *target) { archive_mstring_copy_utf8(&entry->ae_hardlink, target); if (target != NULL) entry->ae_set |= AE_SET_HARDLINK; else entry->ae_set &= ~AE_SET_HARDLINK; } void archive_entry_copy_hardlink(struct archive_entry *entry, const char *target) { archive_mstring_copy_mbs(&entry->ae_hardlink, target); if (target != NULL) entry->ae_set |= AE_SET_HARDLINK; else entry->ae_set &= ~AE_SET_HARDLINK; } void archive_entry_copy_hardlink_w(struct archive_entry *entry, const wchar_t *target) { archive_mstring_copy_wcs(&entry->ae_hardlink, target); if (target != NULL) entry->ae_set |= AE_SET_HARDLINK; else entry->ae_set &= ~AE_SET_HARDLINK; } int archive_entry_update_hardlink_utf8(struct archive_entry *entry, const char *target) { if (target != NULL) entry->ae_set |= AE_SET_HARDLINK; else entry->ae_set &= ~AE_SET_HARDLINK; if (archive_mstring_update_utf8(entry->archive, &entry->ae_hardlink, target) == 0) return (1); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (0); } int _archive_entry_copy_hardlink_l(struct archive_entry *entry, const char *target, size_t len, struct archive_string_conv *sc) { int r; r = archive_mstring_copy_mbs_len_l(&entry->ae_hardlink, target, len, sc); if (target != NULL && r == 0) entry->ae_set |= AE_SET_HARDLINK; else entry->ae_set &= ~AE_SET_HARDLINK; return (r); } void archive_entry_set_atime(struct archive_entry *entry, time_t t, long ns) { FIX_NS(t, ns); entry->stat_valid = 0; entry->ae_set |= AE_SET_ATIME; entry->ae_stat.aest_atime = t; entry->ae_stat.aest_atime_nsec = ns; } void archive_entry_unset_atime(struct archive_entry *entry) { archive_entry_set_atime(entry, 0, 0); entry->ae_set &= ~AE_SET_ATIME; } void archive_entry_set_birthtime(struct archive_entry *entry, time_t t, long ns) { FIX_NS(t, ns); entry->stat_valid = 0; entry->ae_set |= AE_SET_BIRTHTIME; entry->ae_stat.aest_birthtime = t; entry->ae_stat.aest_birthtime_nsec = ns; } void archive_entry_unset_birthtime(struct archive_entry *entry) { archive_entry_set_birthtime(entry, 0, 0); entry->ae_set &= ~AE_SET_BIRTHTIME; } void archive_entry_set_ctime(struct archive_entry *entry, time_t t, long ns) { FIX_NS(t, ns); entry->stat_valid = 0; entry->ae_set |= AE_SET_CTIME; entry->ae_stat.aest_ctime = t; entry->ae_stat.aest_ctime_nsec = ns; } void archive_entry_unset_ctime(struct archive_entry *entry) { archive_entry_set_ctime(entry, 0, 0); entry->ae_set &= ~AE_SET_CTIME; } void archive_entry_set_dev(struct archive_entry *entry, dev_t d) { entry->stat_valid = 0; entry->ae_set |= AE_SET_DEV; entry->ae_stat.aest_dev_is_broken_down = 0; entry->ae_stat.aest_dev = d; } void archive_entry_set_devmajor(struct archive_entry *entry, dev_t m) { entry->stat_valid = 0; entry->ae_set |= AE_SET_DEV; entry->ae_stat.aest_dev_is_broken_down = 1; entry->ae_stat.aest_devmajor = m; } void archive_entry_set_devminor(struct archive_entry *entry, dev_t m) { entry->stat_valid = 0; entry->ae_set |= AE_SET_DEV; entry->ae_stat.aest_dev_is_broken_down = 1; entry->ae_stat.aest_devminor = m; } /* Set symlink if symlink is already set, else set hardlink. */ void archive_entry_set_link(struct archive_entry *entry, const char *target) { if (entry->ae_set & AE_SET_SYMLINK) archive_mstring_copy_mbs(&entry->ae_symlink, target); else archive_mstring_copy_mbs(&entry->ae_hardlink, target); } void archive_entry_set_link_utf8(struct archive_entry *entry, const char *target) { if (entry->ae_set & AE_SET_SYMLINK) archive_mstring_copy_utf8(&entry->ae_symlink, target); else archive_mstring_copy_utf8(&entry->ae_hardlink, target); } /* Set symlink if symlink is already set, else set hardlink. */ void archive_entry_copy_link(struct archive_entry *entry, const char *target) { if (entry->ae_set & AE_SET_SYMLINK) archive_mstring_copy_mbs(&entry->ae_symlink, target); else archive_mstring_copy_mbs(&entry->ae_hardlink, target); } /* Set symlink if symlink is already set, else set hardlink. */ void archive_entry_copy_link_w(struct archive_entry *entry, const wchar_t *target) { if (entry->ae_set & AE_SET_SYMLINK) archive_mstring_copy_wcs(&entry->ae_symlink, target); else archive_mstring_copy_wcs(&entry->ae_hardlink, target); } int archive_entry_update_link_utf8(struct archive_entry *entry, const char *target) { int r; if (entry->ae_set & AE_SET_SYMLINK) r = archive_mstring_update_utf8(entry->archive, &entry->ae_symlink, target); else r = archive_mstring_update_utf8(entry->archive, &entry->ae_hardlink, target); if (r == 0) return (1); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (0); } int _archive_entry_copy_link_l(struct archive_entry *entry, const char *target, size_t len, struct archive_string_conv *sc) { int r; if (entry->ae_set & AE_SET_SYMLINK) r = archive_mstring_copy_mbs_len_l(&entry->ae_symlink, target, len, sc); else r = archive_mstring_copy_mbs_len_l(&entry->ae_hardlink, target, len, sc); return (r); } void archive_entry_set_mode(struct archive_entry *entry, mode_t m) { entry->stat_valid = 0; entry->acl.mode = m; } void archive_entry_set_mtime(struct archive_entry *entry, time_t t, long ns) { FIX_NS(t, ns); entry->stat_valid = 0; entry->ae_set |= AE_SET_MTIME; entry->ae_stat.aest_mtime = t; entry->ae_stat.aest_mtime_nsec = ns; } void archive_entry_unset_mtime(struct archive_entry *entry) { archive_entry_set_mtime(entry, 0, 0); entry->ae_set &= ~AE_SET_MTIME; } void archive_entry_set_nlink(struct archive_entry *entry, unsigned int nlink) { entry->stat_valid = 0; entry->ae_stat.aest_nlink = nlink; } void archive_entry_set_pathname(struct archive_entry *entry, const char *name) { archive_mstring_copy_mbs(&entry->ae_pathname, name); } void archive_entry_set_pathname_utf8(struct archive_entry *entry, const char *name) { archive_mstring_copy_utf8(&entry->ae_pathname, name); } void archive_entry_copy_pathname(struct archive_entry *entry, const char *name) { archive_mstring_copy_mbs(&entry->ae_pathname, name); } void archive_entry_copy_pathname_w(struct archive_entry *entry, const wchar_t *name) { archive_mstring_copy_wcs(&entry->ae_pathname, name); } int archive_entry_update_pathname_utf8(struct archive_entry *entry, const char *name) { if (archive_mstring_update_utf8(entry->archive, &entry->ae_pathname, name) == 0) return (1); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (0); } int _archive_entry_copy_pathname_l(struct archive_entry *entry, const char *name, size_t len, struct archive_string_conv *sc) { return (archive_mstring_copy_mbs_len_l(&entry->ae_pathname, name, len, sc)); } void archive_entry_set_perm(struct archive_entry *entry, mode_t p) { entry->stat_valid = 0; entry->acl.mode &= AE_IFMT; entry->acl.mode |= ~AE_IFMT & p; } void archive_entry_set_rdev(struct archive_entry *entry, dev_t m) { entry->stat_valid = 0; entry->ae_stat.aest_rdev = m; entry->ae_stat.aest_rdev_is_broken_down = 0; } void archive_entry_set_rdevmajor(struct archive_entry *entry, dev_t m) { entry->stat_valid = 0; entry->ae_stat.aest_rdev_is_broken_down = 1; entry->ae_stat.aest_rdevmajor = m; } void archive_entry_set_rdevminor(struct archive_entry *entry, dev_t m) { entry->stat_valid = 0; entry->ae_stat.aest_rdev_is_broken_down = 1; entry->ae_stat.aest_rdevminor = m; } void archive_entry_set_size(struct archive_entry *entry, la_int64_t s) { entry->stat_valid = 0; entry->ae_stat.aest_size = s; entry->ae_set |= AE_SET_SIZE; } void archive_entry_unset_size(struct archive_entry *entry) { archive_entry_set_size(entry, 0); entry->ae_set &= ~AE_SET_SIZE; } void archive_entry_copy_sourcepath(struct archive_entry *entry, const char *path) { archive_mstring_copy_mbs(&entry->ae_sourcepath, path); } void archive_entry_copy_sourcepath_w(struct archive_entry *entry, const wchar_t *path) { archive_mstring_copy_wcs(&entry->ae_sourcepath, path); } void archive_entry_set_symlink(struct archive_entry *entry, const char *linkname) { archive_mstring_copy_mbs(&entry->ae_symlink, linkname); if (linkname != NULL) entry->ae_set |= AE_SET_SYMLINK; else entry->ae_set &= ~AE_SET_SYMLINK; } void archive_entry_set_symlink_type(struct archive_entry *entry, int type) { entry->ae_symlink_type = type; } void archive_entry_set_symlink_utf8(struct archive_entry *entry, const char *linkname) { archive_mstring_copy_utf8(&entry->ae_symlink, linkname); if (linkname != NULL) entry->ae_set |= AE_SET_SYMLINK; else entry->ae_set &= ~AE_SET_SYMLINK; } void archive_entry_copy_symlink(struct archive_entry *entry, const char *linkname) { archive_mstring_copy_mbs(&entry->ae_symlink, linkname); if (linkname != NULL) entry->ae_set |= AE_SET_SYMLINK; else entry->ae_set &= ~AE_SET_SYMLINK; } void archive_entry_copy_symlink_w(struct archive_entry *entry, const wchar_t *linkname) { archive_mstring_copy_wcs(&entry->ae_symlink, linkname); if (linkname != NULL) entry->ae_set |= AE_SET_SYMLINK; else entry->ae_set &= ~AE_SET_SYMLINK; } int archive_entry_update_symlink_utf8(struct archive_entry *entry, const char *linkname) { if (linkname != NULL) entry->ae_set |= AE_SET_SYMLINK; else entry->ae_set &= ~AE_SET_SYMLINK; if (archive_mstring_update_utf8(entry->archive, &entry->ae_symlink, linkname) == 0) return (1); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (0); } int _archive_entry_copy_symlink_l(struct archive_entry *entry, const char *linkname, size_t len, struct archive_string_conv *sc) { int r; r = archive_mstring_copy_mbs_len_l(&entry->ae_symlink, linkname, len, sc); if (linkname != NULL && r == 0) entry->ae_set |= AE_SET_SYMLINK; else entry->ae_set &= ~AE_SET_SYMLINK; return (r); } void archive_entry_set_uid(struct archive_entry *entry, la_int64_t u) { entry->stat_valid = 0; entry->ae_stat.aest_uid = u; } void archive_entry_set_uname(struct archive_entry *entry, const char *name) { archive_mstring_copy_mbs(&entry->ae_uname, name); } void archive_entry_set_uname_utf8(struct archive_entry *entry, const char *name) { archive_mstring_copy_utf8(&entry->ae_uname, name); } void archive_entry_copy_uname(struct archive_entry *entry, const char *name) { archive_mstring_copy_mbs(&entry->ae_uname, name); } void archive_entry_copy_uname_w(struct archive_entry *entry, const wchar_t *name) { archive_mstring_copy_wcs(&entry->ae_uname, name); } int archive_entry_update_uname_utf8(struct archive_entry *entry, const char *name) { if (archive_mstring_update_utf8(entry->archive, &entry->ae_uname, name) == 0) return (1); if (errno == ENOMEM) __archive_errx(1, "No memory"); return (0); } void archive_entry_set_is_data_encrypted(struct archive_entry *entry, char is_encrypted) { if (is_encrypted) { entry->encryption |= AE_ENCRYPTION_DATA; } else { entry->encryption &= ~AE_ENCRYPTION_DATA; } } void archive_entry_set_is_metadata_encrypted(struct archive_entry *entry, char is_encrypted) { if (is_encrypted) { entry->encryption |= AE_ENCRYPTION_METADATA; } else { entry->encryption &= ~AE_ENCRYPTION_METADATA; } } int _archive_entry_copy_uname_l(struct archive_entry *entry, const char *name, size_t len, struct archive_string_conv *sc) { return (archive_mstring_copy_mbs_len_l(&entry->ae_uname, name, len, sc)); } const void * archive_entry_mac_metadata(struct archive_entry *entry, size_t *s) { *s = entry->mac_metadata_size; return entry->mac_metadata; } void archive_entry_copy_mac_metadata(struct archive_entry *entry, const void *p, size_t s) { free(entry->mac_metadata); if (p == NULL || s == 0) { entry->mac_metadata = NULL; entry->mac_metadata_size = 0; } else { entry->mac_metadata_size = s; entry->mac_metadata = malloc(s); if (entry->mac_metadata == NULL) abort(); memcpy(entry->mac_metadata, p, s); } } /* Digest handling */ const unsigned char * archive_entry_digest(struct archive_entry *entry, int type) { switch (type) { case ARCHIVE_ENTRY_DIGEST_MD5: return entry->digest.md5; case ARCHIVE_ENTRY_DIGEST_RMD160: return entry->digest.rmd160; case ARCHIVE_ENTRY_DIGEST_SHA1: return entry->digest.sha1; case ARCHIVE_ENTRY_DIGEST_SHA256: return entry->digest.sha256; case ARCHIVE_ENTRY_DIGEST_SHA384: return entry->digest.sha384; case ARCHIVE_ENTRY_DIGEST_SHA512: return entry->digest.sha512; default: return NULL; } } int archive_entry_set_digest(struct archive_entry *entry, int type, const unsigned char *digest) { #define copy_digest(_e, _t, _d)\ memcpy(_e->digest._t, _d, sizeof(_e->digest._t)) switch (type) { case ARCHIVE_ENTRY_DIGEST_MD5: copy_digest(entry, md5, digest); break; case ARCHIVE_ENTRY_DIGEST_RMD160: copy_digest(entry, rmd160, digest); break; case ARCHIVE_ENTRY_DIGEST_SHA1: copy_digest(entry, sha1, digest); break; case ARCHIVE_ENTRY_DIGEST_SHA256: copy_digest(entry, sha256, digest); break; case ARCHIVE_ENTRY_DIGEST_SHA384: copy_digest(entry, sha384, digest); break; case ARCHIVE_ENTRY_DIGEST_SHA512: copy_digest(entry, sha512, digest); break; default: return ARCHIVE_WARN; } return ARCHIVE_OK; #undef copy_digest } /* * ACL management. The following would, of course, be a lot simpler * if: 1) the last draft of POSIX.1e were a really thorough and * complete standard that addressed the needs of ACL archiving and 2) * everyone followed it faithfully. Alas, neither is true, so the * following is a lot more complex than might seem necessary to the * uninitiated. */ struct archive_acl * archive_entry_acl(struct archive_entry *entry) { return &entry->acl; } void archive_entry_acl_clear(struct archive_entry *entry) { archive_acl_clear(&entry->acl); } /* * Add a single ACL entry to the internal list of ACL data. */ int archive_entry_acl_add_entry(struct archive_entry *entry, int type, int permset, int tag, int id, const char *name) { return archive_acl_add_entry(&entry->acl, type, permset, tag, id, name); } /* * As above, but with a wide-character name. */ int archive_entry_acl_add_entry_w(struct archive_entry *entry, int type, int permset, int tag, int id, const wchar_t *name) { return archive_acl_add_entry_w_len(&entry->acl, type, permset, tag, id, name, wcslen(name)); } /* * Return a bitmask of ACL types in an archive entry ACL list */ int archive_entry_acl_types(struct archive_entry *entry) { return (archive_acl_types(&entry->acl)); } /* * Return a count of entries matching "want_type". */ int archive_entry_acl_count(struct archive_entry *entry, int want_type) { return archive_acl_count(&entry->acl, want_type); } /* * Prepare for reading entries from the ACL data. Returns a count * of entries matching "want_type", or zero if there are no * non-extended ACL entries of that type. */ int archive_entry_acl_reset(struct archive_entry *entry, int want_type) { return archive_acl_reset(&entry->acl, want_type); } /* * Return the next ACL entry in the list. Fake entries for the * standard permissions and include them in the returned list. */ int archive_entry_acl_next(struct archive_entry *entry, int want_type, int *type, int *permset, int *tag, int *id, const char **name) { int r; r = archive_acl_next(entry->archive, &entry->acl, want_type, type, permset, tag, id, name); if (r == ARCHIVE_FATAL && errno == ENOMEM) __archive_errx(1, "No memory"); return (r); } /* * Generate a text version of the ACL. The flags parameter controls * the style of the generated ACL. */ wchar_t * archive_entry_acl_to_text_w(struct archive_entry *entry, la_ssize_t *len, int flags) { return (archive_acl_to_text_w(&entry->acl, len, flags, entry->archive)); } char * archive_entry_acl_to_text(struct archive_entry *entry, la_ssize_t *len, int flags) { return (archive_acl_to_text_l(&entry->acl, len, flags, NULL)); } char * _archive_entry_acl_to_text_l(struct archive_entry *entry, ssize_t *len, int flags, struct archive_string_conv *sc) { return (archive_acl_to_text_l(&entry->acl, len, flags, sc)); } /* * ACL text parser. */ int archive_entry_acl_from_text_w(struct archive_entry *entry, const wchar_t *wtext, int type) { return (archive_acl_from_text_w(&entry->acl, wtext, type)); } int archive_entry_acl_from_text(struct archive_entry *entry, const char *text, int type) { return (archive_acl_from_text_l(&entry->acl, text, type, NULL)); } int _archive_entry_acl_from_text_l(struct archive_entry *entry, const char *text, int type, struct archive_string_conv *sc) { return (archive_acl_from_text_l(&entry->acl, text, type, sc)); } /* Deprecated */ static int archive_entry_acl_text_compat(int *flags) { if ((*flags & ARCHIVE_ENTRY_ACL_TYPE_POSIX1E) == 0) return (1); /* ABI compat with old ARCHIVE_ENTRY_ACL_STYLE_EXTRA_ID */ if ((*flags & OLD_ARCHIVE_ENTRY_ACL_STYLE_EXTRA_ID) != 0) *flags |= ARCHIVE_ENTRY_ACL_STYLE_EXTRA_ID; /* ABI compat with old ARCHIVE_ENTRY_ACL_STYLE_MARK_DEFAULT */ if ((*flags & OLD_ARCHIVE_ENTRY_ACL_STYLE_MARK_DEFAULT) != 0) *flags |= ARCHIVE_ENTRY_ACL_STYLE_MARK_DEFAULT; *flags |= ARCHIVE_ENTRY_ACL_STYLE_SEPARATOR_COMMA; return (0); } /* Deprecated */ const wchar_t * archive_entry_acl_text_w(struct archive_entry *entry, int flags) { free(entry->acl.acl_text_w); entry->acl.acl_text_w = NULL; if (archive_entry_acl_text_compat(&flags) == 0) entry->acl.acl_text_w = archive_acl_to_text_w(&entry->acl, NULL, flags, entry->archive); return (entry->acl.acl_text_w); } /* Deprecated */ const char * archive_entry_acl_text(struct archive_entry *entry, int flags) { free(entry->acl.acl_text); entry->acl.acl_text = NULL; if (archive_entry_acl_text_compat(&flags) == 0) entry->acl.acl_text = archive_acl_to_text_l(&entry->acl, NULL, flags, NULL); return (entry->acl.acl_text); } /* Deprecated */ int _archive_entry_acl_text_l(struct archive_entry *entry, int flags, const char **acl_text, size_t *len, struct archive_string_conv *sc) { free(entry->acl.acl_text); entry->acl.acl_text = NULL; if (archive_entry_acl_text_compat(&flags) == 0) entry->acl.acl_text = archive_acl_to_text_l(&entry->acl, (ssize_t *)len, flags, sc); *acl_text = entry->acl.acl_text; return (0); } /* * Following code is modified from UC Berkeley sources, and * is subject to the following copyright notice. */ /*- * Copyright (c) 1993 * The Regents of the University of California. 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. * 4. Neither the name of the University 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 REGENTS 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 REGENTS 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. */ /* * Supported file flags on FreeBSD and Mac OS: * sappnd,sappend SF_APPEND * arch,archived SF_ARCHIVED * schg,schange,simmutable SF_IMMUTABLE * sunlnk,sunlink SF_NOUNLINK (FreeBSD only) * uappnd,uappend UF_APPEND * compressed UF_COMPRESSED (Mac OS only) * hidden,uhidden UF_HIDDEN * uchg,uchange,uimmutable UF_IMMUTABLE * nodump UF_NODUMP * uunlnk,uunlink UF_NOUNLINK (FreeBSD only) * offline,uoffline UF_OFFLINE (FreeBSD only) * opaque UF_OPAQUE * rdonly,urdonly,readonly UF_READONLY (FreeBSD only) * reparse,ureparse UF_REPARSE (FreeBSD only) * sparse,usparse UF_SPARSE (FreeBSD only) * system,usystem UF_SYSTEM (FreeBSD only) * * See chflags(2) for more information * * Supported file attributes on Linux: * a append only FS_APPEND_FL sappnd * A no atime updates FS_NOATIME_FL atime * c compress FS_COMPR_FL compress * C no copy on write FS_NOCOW_FL cow * d no dump FS_NODUMP_FL dump * D synchronous directory updates FS_DIRSYNC_FL dirsync * i immutable FS_IMMUTABLE_FL schg * j data journalling FS_JOURNAL_DATA_FL journal * P project hierarchy FS_PROJINHERIT_FL projinherit * s secure deletion FS_SECRM_FL securedeletion * S synchronous updates FS_SYNC_FL sync * t no tail-merging FS_NOTAIL_FL tail * T top of directory hierarchy FS_TOPDIR_FL topdir * u undeletable FS_UNRM_FL undel * * See ioctl_iflags(2) for more information * * Equivalent file flags supported on FreeBSD / Mac OS and Linux: * SF_APPEND FS_APPEND_FL sappnd * SF_IMMUTABLE FS_IMMUTABLE_FL schg * UF_NODUMP FS_NODUMP_FL nodump */ static const struct flag { const char *name; const wchar_t *wname; unsigned long set; unsigned long clear; } fileflags[] = { /* Preferred (shorter) names per flag first, all prefixed by "no" */ #ifdef SF_APPEND { "nosappnd", L"nosappnd", SF_APPEND, 0}, { "nosappend", L"nosappend", SF_APPEND, 0}, #endif #if defined(FS_APPEND_FL) /* 'a' */ { "nosappnd", L"nosappnd", FS_APPEND_FL, 0}, { "nosappend", L"nosappend", FS_APPEND_FL, 0}, #elif defined(EXT2_APPEND_FL) /* 'a' */ { "nosappnd", L"nosappnd", EXT2_APPEND_FL, 0}, { "nosappend", L"nosappend", EXT2_APPEND_FL, 0}, #endif #ifdef SF_ARCHIVED { "noarch", L"noarch", SF_ARCHIVED, 0}, { "noarchived", L"noarchived", SF_ARCHIVED, 0}, #endif #ifdef SF_IMMUTABLE { "noschg", L"noschg", SF_IMMUTABLE, 0}, { "noschange", L"noschange", SF_IMMUTABLE, 0}, { "nosimmutable", L"nosimmutable", SF_IMMUTABLE, 0}, #endif #if defined(FS_IMMUTABLE_FL) /* 'i' */ { "noschg", L"noschg", FS_IMMUTABLE_FL, 0}, { "noschange", L"noschange", FS_IMMUTABLE_FL, 0}, { "nosimmutable", L"nosimmutable", FS_IMMUTABLE_FL, 0}, #elif defined(EXT2_IMMUTABLE_FL) /* 'i' */ { "noschg", L"noschg", EXT2_IMMUTABLE_FL, 0}, { "noschange", L"noschange", EXT2_IMMUTABLE_FL, 0}, { "nosimmutable", L"nosimmutable", EXT2_IMMUTABLE_FL, 0}, #endif #ifdef SF_NOUNLINK { "nosunlnk", L"nosunlnk", SF_NOUNLINK, 0}, { "nosunlink", L"nosunlink", SF_NOUNLINK, 0}, #endif #ifdef UF_APPEND { "nouappnd", L"nouappnd", UF_APPEND, 0}, { "nouappend", L"nouappend", UF_APPEND, 0}, #endif #ifdef UF_IMMUTABLE { "nouchg", L"nouchg", UF_IMMUTABLE, 0}, { "nouchange", L"nouchange", UF_IMMUTABLE, 0}, { "nouimmutable", L"nouimmutable", UF_IMMUTABLE, 0}, #endif #ifdef UF_NODUMP { "nodump", L"nodump", 0, UF_NODUMP}, #endif #if defined(FS_NODUMP_FL) /* 'd' */ { "nodump", L"nodump", 0, FS_NODUMP_FL}, #elif defined(EXT2_NODUMP_FL) { "nodump", L"nodump", 0, EXT2_NODUMP_FL}, #endif #ifdef UF_OPAQUE { "noopaque", L"noopaque", UF_OPAQUE, 0}, #endif #ifdef UF_NOUNLINK { "nouunlnk", L"nouunlnk", UF_NOUNLINK, 0}, { "nouunlink", L"nouunlink", UF_NOUNLINK, 0}, #endif #ifdef UF_COMPRESSED /* Mac OS */ { "nocompressed", L"nocompressed", UF_COMPRESSED, 0}, #endif #ifdef UF_HIDDEN { "nohidden", L"nohidden", UF_HIDDEN, 0}, { "nouhidden", L"nouhidden", UF_HIDDEN, 0}, #endif #ifdef FILE_ATTRIBUTE_HIDDEN { "nohidden", L"nohidden", FILE_ATTRIBUTE_HIDDEN, 0}, { "nouhidden", L"nouhidden", FILE_ATTRIBUTE_HIDDEN, 0}, #endif #ifdef UF_OFFLINE { "nooffline", L"nooffline", UF_OFFLINE, 0}, { "nouoffline", L"nouoffline", UF_OFFLINE, 0}, #endif #ifdef UF_READONLY { "nordonly", L"nordonly", UF_READONLY, 0}, { "nourdonly", L"nourdonly", UF_READONLY, 0}, { "noreadonly", L"noreadonly", UF_READONLY, 0}, #endif #ifdef FILE_ATTRIBUTE_READONLY { "nordonly", L"nordonly", FILE_ATTRIBUTE_READONLY, 0}, { "nourdonly", L"nourdonly", FILE_ATTRIBUTE_READONLY, 0}, { "noreadonly", L"noreadonly", FILE_ATTRIBUTE_READONLY, 0}, #endif #ifdef UF_SPARSE { "nosparse", L"nosparse", UF_SPARSE, 0}, { "nousparse", L"nousparse", UF_SPARSE, 0}, #endif #ifdef UF_REPARSE { "noreparse", L"noreparse", UF_REPARSE, 0}, { "noureparse", L"noureparse", UF_REPARSE, 0}, #endif #ifdef UF_SYSTEM { "nosystem", L"nosystem", UF_SYSTEM, 0}, { "nousystem", L"nousystem", UF_SYSTEM, 0}, #endif #ifdef FILE_ATTRIBUTE_SYSTEM { "nosystem", L"nosystem", FILE_ATTRIBUTE_SYSTEM, 0}, { "nousystem", L"nousystem", FILE_ATTRIBUTE_SYSTEM, 0}, #endif #if defined(FS_UNRM_FL) /* 'u' */ { "noundel", L"noundel", FS_UNRM_FL, 0}, #elif defined(EXT2_UNRM_FL) { "noundel", L"noundel", EXT2_UNRM_FL, 0}, #endif #if defined(FS_COMPR_FL) /* 'c' */ { "nocompress", L"nocompress", FS_COMPR_FL, 0}, #elif defined(EXT2_COMPR_FL) { "nocompress", L"nocompress", EXT2_COMPR_FL, 0}, #endif #if defined(FS_NOATIME_FL) /* 'A' */ { "noatime", L"noatime", 0, FS_NOATIME_FL}, #elif defined(EXT2_NOATIME_FL) { "noatime", L"noatime", 0, EXT2_NOATIME_FL}, #endif #if defined(FS_DIRSYNC_FL) /* 'D' */ { "nodirsync", L"nodirsync", FS_DIRSYNC_FL, 0}, #elif defined(EXT2_DIRSYNC_FL) { "nodirsync", L"nodirsync", EXT2_DIRSYNC_FL, 0}, #endif #if defined(FS_JOURNAL_DATA_FL) /* 'j' */ { "nojournal-data",L"nojournal-data", FS_JOURNAL_DATA_FL, 0}, { "nojournal", L"nojournal", FS_JOURNAL_DATA_FL, 0}, #elif defined(EXT3_JOURNAL_DATA_FL) { "nojournal-data",L"nojournal-data", EXT3_JOURNAL_DATA_FL, 0}, { "nojournal", L"nojournal", EXT3_JOURNAL_DATA_FL, 0}, #endif #if defined(FS_SECRM_FL) /* 's' */ { "nosecdel", L"nosecdel", FS_SECRM_FL, 0}, { "nosecuredeletion",L"nosecuredeletion",FS_SECRM_FL, 0}, #elif defined(EXT2_SECRM_FL) { "nosecdel", L"nosecdel", EXT2_SECRM_FL, 0}, { "nosecuredeletion",L"nosecuredeletion",EXT2_SECRM_FL, 0}, #endif #if defined(FS_SYNC_FL) /* 'S' */ { "nosync", L"nosync", FS_SYNC_FL, 0}, #elif defined(EXT2_SYNC_FL) { "nosync", L"nosync", EXT2_SYNC_FL, 0}, #endif #if defined(FS_NOTAIL_FL) /* 't' */ { "notail", L"notail", 0, FS_NOTAIL_FL}, #elif defined(EXT2_NOTAIL_FL) { "notail", L"notail", 0, EXT2_NOTAIL_FL}, #endif #if defined(FS_TOPDIR_FL) /* 'T' */ { "notopdir", L"notopdir", FS_TOPDIR_FL, 0}, #elif defined(EXT2_TOPDIR_FL) { "notopdir", L"notopdir", EXT2_TOPDIR_FL, 0}, #endif #ifdef FS_NOCOW_FL /* 'C' */ { "nocow", L"nocow", 0, FS_NOCOW_FL}, #endif #ifdef FS_PROJINHERIT_FL /* 'P' */ { "noprojinherit",L"noprojinherit", FS_PROJINHERIT_FL, 0}, #endif { NULL, NULL, 0, 0} }; /* * fflagstostr -- * Convert file flags to a comma-separated string. If no flags * are set, return the empty string. */ static char * ae_fflagstostr(unsigned long bitset, unsigned long bitclear) { char *string, *dp; const char *sp; unsigned long bits; const struct flag *flag; size_t length; bits = bitset | bitclear; length = 0; for (flag = fileflags; flag->name != NULL; flag++) if (bits & (flag->set | flag->clear)) { length += strlen(flag->name) + 1; bits &= ~(flag->set | flag->clear); } if (length == 0) return (NULL); string = (char *)malloc(length); if (string == NULL) return (NULL); dp = string; for (flag = fileflags; flag->name != NULL; flag++) { if (bitset & flag->set || bitclear & flag->clear) { sp = flag->name + 2; } else if (bitset & flag->clear || bitclear & flag->set) { sp = flag->name; } else continue; bitset &= ~(flag->set | flag->clear); bitclear &= ~(flag->set | flag->clear); if (dp > string) *dp++ = ','; while ((*dp++ = *sp++) != '\0') ; dp--; } *dp = '\0'; return (string); } /* * strtofflags -- * Take string of arguments and return file flags. This * version works a little differently than strtofflags(3). * In particular, it always tests every token, skipping any * unrecognized tokens. It returns a pointer to the first * unrecognized token, or NULL if every token was recognized. * This version is also const-correct and does not modify the * provided string. */ static const char * ae_strtofflags(const char *s, unsigned long *setp, unsigned long *clrp) { const char *start, *end; const struct flag *flag; unsigned long set, clear; const char *failed; set = clear = 0; start = s; failed = NULL; /* Find start of first token. */ while (*start == '\t' || *start == ' ' || *start == ',') start++; while (*start != '\0') { size_t length; /* Locate end of token. */ end = start; while (*end != '\0' && *end != '\t' && *end != ' ' && *end != ',') end++; length = end - start; for (flag = fileflags; flag->name != NULL; flag++) { size_t flag_length = strlen(flag->name); if (length == flag_length && memcmp(start, flag->name, length) == 0) { /* Matched "noXXXX", so reverse the sense. */ clear |= flag->set; set |= flag->clear; break; } else if (length == flag_length - 2 && memcmp(start, flag->name + 2, length) == 0) { /* Matched "XXXX", so don't reverse. */ set |= flag->set; clear |= flag->clear; break; } } /* Ignore unknown flag names. */ if (flag->name == NULL && failed == NULL) failed = start; /* Find start of next token. */ start = end; while (*start == '\t' || *start == ' ' || *start == ',') start++; } if (setp) *setp = set; if (clrp) *clrp = clear; /* Return location of first failure. */ return (failed); } /* * wcstofflags -- * Take string of arguments and return file flags. This * version works a little differently than strtofflags(3). * In particular, it always tests every token, skipping any * unrecognized tokens. It returns a pointer to the first * unrecognized token, or NULL if every token was recognized. * This version is also const-correct and does not modify the * provided string. */ static const wchar_t * ae_wcstofflags(const wchar_t *s, unsigned long *setp, unsigned long *clrp) { const wchar_t *start, *end; const struct flag *flag; unsigned long set, clear; const wchar_t *failed; set = clear = 0; start = s; failed = NULL; /* Find start of first token. */ while (*start == L'\t' || *start == L' ' || *start == L',') start++; while (*start != L'\0') { size_t length; /* Locate end of token. */ end = start; while (*end != L'\0' && *end != L'\t' && *end != L' ' && *end != L',') end++; length = end - start; for (flag = fileflags; flag->wname != NULL; flag++) { size_t flag_length = wcslen(flag->wname); if (length == flag_length && wmemcmp(start, flag->wname, length) == 0) { /* Matched "noXXXX", so reverse the sense. */ clear |= flag->set; set |= flag->clear; break; } else if (length == flag_length - 2 && wmemcmp(start, flag->wname + 2, length) == 0) { /* Matched "XXXX", so don't reverse. */ set |= flag->set; clear |= flag->clear; break; } } /* Ignore unknown flag names. */ if (flag->wname == NULL && failed == NULL) failed = start; /* Find start of next token. */ start = end; while (*start == L'\t' || *start == L' ' || *start == L',') start++; } if (setp) *setp = set; if (clrp) *clrp = clear; /* Return location of first failure. */ return (failed); } #ifdef TEST #include int main(int argc, char **argv) { struct archive_entry *entry = archive_entry_new(); unsigned long set, clear; const wchar_t *remainder; remainder = archive_entry_copy_fflags_text_w(entry, L"nosappnd dump archive,,,,,,,"); archive_entry_fflags(entry, &set, &clear); wprintf(L"set=0x%lX clear=0x%lX remainder='%ls'\n", set, clear, remainder); wprintf(L"new flags='%s'\n", archive_entry_fflags_text(entry)); return (0); } #endif