Current Path : /usr/src/contrib/libarchive/libarchive/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/libarchive/libarchive/archive_entry.c |
/*- * 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 "archive_platform.h" __FBSDID("$FreeBSD: release/9.1.0/contrib/libarchive/libarchive/archive_entry.c 229592 2012-01-05 12:06:54Z mm $"); #ifdef HAVE_SYS_STAT_H #include <sys/stat.h> #endif #ifdef HAVE_SYS_TYPES_H #include <sys/types.h> #endif #if MAJOR_IN_MKDEV #include <sys/mkdev.h> #define HAVE_MAJOR #elif MAJOR_IN_SYSMACROS #include <sys/sysmacros.h> #define HAVE_MAJOR #endif #ifdef HAVE_LIMITS_H #include <limits.h> #endif #ifdef HAVE_LINUX_FS_H #include <linux/fs.h> /* 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 <linux/ext2_fs.h> /* for Linux file flags */ #endif #if defined(HAVE_EXT2FS_EXT2_FS_H) && !defined(__CYGWIN__) #include <ext2fs/ext2_fs.h> /* for Linux file flags */ #endif #include <stddef.h> #include <stdio.h> #ifdef HAVE_STDLIB_H #include <stdlib.h> #endif #ifdef HAVE_STRING_H #include <string.h> #endif #ifdef HAVE_WCHAR_H #include <wchar.h> #endif #include "archive.h" #include "archive_entry.h" #include "archive_private.h" #include "archive_entry_private.h" #undef max #define max(a, b) ((a)>(b)?(a):(b)) #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. <sigh> */ #include <sys/netmgr.h> #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. <sigh> */ #define ae_makedev(maj, min) mkdev((maj), (min)) #else /* There's a "makedev" function. */ #define ae_makedev(maj, min) makedev((maj), (min)) #endif static void aes_clean(struct aes *); static void aes_copy(struct aes *dest, struct aes *src); static const char * aes_get_mbs(struct aes *); static const wchar_t * aes_get_wcs(struct aes *); static int aes_set_mbs(struct aes *, const char *mbs); static int aes_copy_mbs(struct aes *, const char *mbs); /* static void aes_set_wcs(struct aes *, const wchar_t *wcs); */ static int aes_copy_wcs(struct aes *, const wchar_t *wcs); static int aes_copy_wcs_len(struct aes *, const wchar_t *wcs, size_t); 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); static void append_entry_w(wchar_t **wp, const wchar_t *prefix, int tag, const wchar_t *wname, int perm, int id); static void append_id_w(wchar_t **wp, int id); static int acl_special(struct archive_entry *entry, int type, int permset, int tag); static struct ae_acl *acl_new_entry(struct archive_entry *entry, int type, int permset, int tag, int id); static int isint_w(const wchar_t *start, const wchar_t *end, int *result); static int ismode_w(const wchar_t *start, const wchar_t *end, int *result); static void next_field_w(const wchar_t **wp, const wchar_t **start, const wchar_t **end, wchar_t *sep); static int prefix_w(const wchar_t *start, const wchar_t *end, const wchar_t *test); static void archive_entry_acl_add_entry_w_len(struct archive_entry *entry, int type, int permset, int tag, int id, const wchar_t *name, size_t); #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 #ifndef HAVE_WMEMCPY #define wmemcpy(a,b,i) (wchar_t *)memcpy((a), (b), (i) * sizeof(wchar_t)) #endif static void aes_clean(struct aes *aes) { if (aes->aes_wcs) { free((wchar_t *)(uintptr_t)aes->aes_wcs); aes->aes_wcs = NULL; } archive_string_free(&(aes->aes_mbs)); archive_string_free(&(aes->aes_utf8)); aes->aes_set = 0; } static void aes_copy(struct aes *dest, struct aes *src) { wchar_t *wp; dest->aes_set = src->aes_set; archive_string_copy(&(dest->aes_mbs), &(src->aes_mbs)); archive_string_copy(&(dest->aes_utf8), &(src->aes_utf8)); if (src->aes_wcs != NULL) { wp = (wchar_t *)malloc((wcslen(src->aes_wcs) + 1) * sizeof(wchar_t)); if (wp == NULL) __archive_errx(1, "No memory for aes_copy()"); wcscpy(wp, src->aes_wcs); dest->aes_wcs = wp; } } static const char * aes_get_utf8(struct aes *aes) { if (aes->aes_set & AES_SET_UTF8) return (aes->aes_utf8.s); if ((aes->aes_set & AES_SET_WCS) && archive_strappend_w_utf8(&(aes->aes_utf8), aes->aes_wcs) != NULL) { aes->aes_set |= AES_SET_UTF8; return (aes->aes_utf8.s); } return (NULL); } static const char * aes_get_mbs(struct aes *aes) { /* If we already have an MBS form, return that immediately. */ if (aes->aes_set & AES_SET_MBS) return (aes->aes_mbs.s); /* If there's a WCS form, try converting with the native locale. */ if ((aes->aes_set & AES_SET_WCS) && archive_strappend_w_mbs(&(aes->aes_mbs), aes->aes_wcs) != NULL) { aes->aes_set |= AES_SET_MBS; return (aes->aes_mbs.s); } /* We'll use UTF-8 for MBS if all else fails. */ return (aes_get_utf8(aes)); } static const wchar_t * aes_get_wcs(struct aes *aes) { wchar_t *w; size_t r; /* Return WCS form if we already have it. */ if (aes->aes_set & AES_SET_WCS) return (aes->aes_wcs); if (aes->aes_set & AES_SET_MBS) { /* Try converting MBS to WCS using native locale. */ /* * No single byte will be more than one wide character, * so this length estimate will always be big enough. */ size_t wcs_length = aes->aes_mbs.length; w = (wchar_t *)malloc((wcs_length + 1) * sizeof(wchar_t)); if (w == NULL) __archive_errx(1, "No memory for aes_get_wcs()"); r = mbstowcs(w, aes->aes_mbs.s, wcs_length); if (r != (size_t)-1 && r != 0) { w[r] = 0; aes->aes_set |= AES_SET_WCS; return (aes->aes_wcs = w); } free(w); } if (aes->aes_set & AES_SET_UTF8) { /* Try converting UTF8 to WCS. */ aes->aes_wcs = __archive_string_utf8_w(&(aes->aes_utf8)); if (aes->aes_wcs != NULL) aes->aes_set |= AES_SET_WCS; return (aes->aes_wcs); } return (NULL); } static int aes_set_mbs(struct aes *aes, const char *mbs) { return (aes_copy_mbs(aes, mbs)); } static int aes_copy_mbs(struct aes *aes, const char *mbs) { if (mbs == NULL) { aes->aes_set = 0; return (0); } aes->aes_set = AES_SET_MBS; /* Only MBS form is set now. */ archive_strcpy(&(aes->aes_mbs), mbs); archive_string_empty(&(aes->aes_utf8)); if (aes->aes_wcs) { free((wchar_t *)(uintptr_t)aes->aes_wcs); aes->aes_wcs = NULL; } return (0); } /* * The 'update' form tries to proactively update all forms of * this string (WCS and MBS) and returns an error if any of * them fail. This is used by the 'pax' handler, for instance, * to detect and report character-conversion failures early while * still allowing clients to get potentially useful values from * the more tolerant lazy conversions. (get_mbs and get_wcs will * strive to give the user something useful, so you can get hopefully * usable values even if some of the character conversions are failing.) */ static int aes_update_utf8(struct aes *aes, const char *utf8) { if (utf8 == NULL) { aes->aes_set = 0; return (1); /* Succeeded in clearing everything. */ } /* Save the UTF8 string. */ archive_strcpy(&(aes->aes_utf8), utf8); /* Empty the mbs and wcs strings. */ archive_string_empty(&(aes->aes_mbs)); if (aes->aes_wcs) { free((wchar_t *)(uintptr_t)aes->aes_wcs); aes->aes_wcs = NULL; } aes->aes_set = AES_SET_UTF8; /* Only UTF8 is set now. */ /* TODO: We should just do a direct UTF-8 to MBS conversion * here. That would be faster, use less space, and give the * same information. (If a UTF-8 to MBS conversion succeeds, * then UTF-8->WCS and Unicode->MBS conversions will both * succeed.) */ /* Try converting UTF8 to WCS, return false on failure. */ aes->aes_wcs = __archive_string_utf8_w(&(aes->aes_utf8)); if (aes->aes_wcs == NULL) return (0); aes->aes_set = AES_SET_UTF8 | AES_SET_WCS; /* Both UTF8 and WCS set. */ /* Try converting WCS to MBS, return false on failure. */ if (archive_strappend_w_mbs(&(aes->aes_mbs), aes->aes_wcs) == NULL) return (0); aes->aes_set = AES_SET_UTF8 | AES_SET_WCS | AES_SET_MBS; /* All conversions succeeded. */ return (1); } static int aes_copy_wcs(struct aes *aes, const wchar_t *wcs) { return aes_copy_wcs_len(aes, wcs, wcs == NULL ? 0 : wcslen(wcs)); } static int aes_copy_wcs_len(struct aes *aes, const wchar_t *wcs, size_t len) { wchar_t *w; if (wcs == NULL) { aes->aes_set = 0; return (0); } aes->aes_set = AES_SET_WCS; /* Only WCS form set. */ archive_string_empty(&(aes->aes_mbs)); archive_string_empty(&(aes->aes_utf8)); if (aes->aes_wcs) { free((wchar_t *)(uintptr_t)aes->aes_wcs); aes->aes_wcs = NULL; } w = (wchar_t *)malloc((len + 1) * sizeof(wchar_t)); if (w == NULL) __archive_errx(1, "No memory for aes_copy_wcs()"); wmemcpy(w, wcs, len); w[len] = L'\0'; aes->aes_wcs = w; return (0); } /**************************************************************************** * * Public Interface * ****************************************************************************/ struct archive_entry * archive_entry_clear(struct archive_entry *entry) { if (entry == NULL) return (NULL); aes_clean(&entry->ae_fflags_text); aes_clean(&entry->ae_gname); aes_clean(&entry->ae_hardlink); aes_clean(&entry->ae_pathname); aes_clean(&entry->ae_sourcepath); aes_clean(&entry->ae_symlink); aes_clean(&entry->ae_uname); archive_entry_acl_clear(entry); archive_entry_xattr_clear(entry); free(entry->stat); memset(entry, 0, sizeof(*entry)); return entry; } struct archive_entry * archive_entry_clone(struct archive_entry *entry) { struct archive_entry *entry2; struct ae_acl *ap, *ap2; struct ae_xattr *xp; /* Allocate new structure and copy over all of the fields. */ entry2 = (struct archive_entry *)malloc(sizeof(*entry2)); if (entry2 == NULL) return (NULL); memset(entry2, 0, sizeof(*entry2)); entry2->ae_stat = entry->ae_stat; entry2->ae_fflags_set = entry->ae_fflags_set; entry2->ae_fflags_clear = entry->ae_fflags_clear; aes_copy(&entry2->ae_fflags_text, &entry->ae_fflags_text); aes_copy(&entry2->ae_gname, &entry->ae_gname); aes_copy(&entry2->ae_hardlink, &entry->ae_hardlink); aes_copy(&entry2->ae_pathname, &entry->ae_pathname); aes_copy(&entry2->ae_sourcepath, &entry->ae_sourcepath); aes_copy(&entry2->ae_symlink, &entry->ae_symlink); entry2->ae_set = entry->ae_set; aes_copy(&entry2->ae_uname, &entry->ae_uname); /* Copy ACL data over. */ ap = entry->acl_head; while (ap != NULL) { ap2 = acl_new_entry(entry2, ap->type, ap->permset, ap->tag, ap->id); if (ap2 != NULL) aes_copy(&ap2->name, &ap->name); ap = ap->next; } /* 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; } return (entry2); } void archive_entry_free(struct archive_entry *entry) { archive_entry_clear(entry); free(entry); } struct archive_entry * archive_entry_new(void) { struct archive_entry *entry; entry = (struct archive_entry *)malloc(sizeof(*entry)); if (entry == NULL) return (NULL); memset(entry, 0, sizeof(*entry)); 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); } 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); } mode_t archive_entry_filetype(struct archive_entry *entry) { return (AE_IFMT & entry->ae_stat.aest_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; f = aes_get_mbs(&entry->ae_fflags_text); if (f != NULL) return (f); 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); aes_copy_mbs(&entry->ae_fflags_text, p); free(p); f = aes_get_mbs(&entry->ae_fflags_text); return (f); } gid_t archive_entry_gid(struct archive_entry *entry) { return (entry->ae_stat.aest_gid); } const char * archive_entry_gname(struct archive_entry *entry) { return (aes_get_mbs(&entry->ae_gname)); } const wchar_t * archive_entry_gname_w(struct archive_entry *entry) { return (aes_get_wcs(&entry->ae_gname)); } const char * archive_entry_hardlink(struct archive_entry *entry) { if (entry->ae_set & AE_SET_HARDLINK) return (aes_get_mbs(&entry->ae_hardlink)); return (NULL); } const wchar_t * archive_entry_hardlink_w(struct archive_entry *entry) { if (entry->ae_set & AE_SET_HARDLINK) return (aes_get_wcs(&entry->ae_hardlink)); return (NULL); } ino_t archive_entry_ino(struct archive_entry *entry) { return (entry->ae_stat.aest_ino); } int64_t archive_entry_ino64(struct archive_entry *entry) { return (entry->ae_stat.aest_ino); } mode_t archive_entry_mode(struct archive_entry *entry) { return (entry->ae_stat.aest_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) { return (aes_get_mbs(&entry->ae_pathname)); } const wchar_t * archive_entry_pathname_w(struct archive_entry *entry) { return (aes_get_wcs(&entry->ae_pathname)); } 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); } 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) { return (aes_get_mbs(&entry->ae_sourcepath)); } const char * archive_entry_symlink(struct archive_entry *entry) { if (entry->ae_set & AE_SET_SYMLINK) return (aes_get_mbs(&entry->ae_symlink)); return (NULL); } const wchar_t * archive_entry_symlink_w(struct archive_entry *entry) { if (entry->ae_set & AE_SET_SYMLINK) return (aes_get_wcs(&entry->ae_symlink)); return (NULL); } uid_t archive_entry_uid(struct archive_entry *entry) { return (entry->ae_stat.aest_uid); } const char * archive_entry_uname(struct archive_entry *entry) { return (aes_get_mbs(&entry->ae_uname)); } const wchar_t * archive_entry_uname_w(struct archive_entry *entry) { return (aes_get_wcs(&entry->ae_uname)); } /* * Functions to set archive_entry properties. */ void archive_entry_set_filetype(struct archive_entry *entry, unsigned int type) { entry->stat_valid = 0; entry->ae_stat.aest_mode &= ~AE_IFMT; entry->ae_stat.aest_mode |= AE_IFMT & type; } void archive_entry_set_fflags(struct archive_entry *entry, unsigned long set, unsigned long clear) { aes_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) { aes_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) { aes_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, gid_t g) { entry->stat_valid = 0; entry->ae_stat.aest_gid = g; } void archive_entry_set_gname(struct archive_entry *entry, const char *name) { aes_set_mbs(&entry->ae_gname, name); } void archive_entry_copy_gname(struct archive_entry *entry, const char *name) { aes_copy_mbs(&entry->ae_gname, name); } void archive_entry_copy_gname_w(struct archive_entry *entry, const wchar_t *name) { aes_copy_wcs(&entry->ae_gname, name); } int archive_entry_update_gname_utf8(struct archive_entry *entry, const char *name) { return (aes_update_utf8(&entry->ae_gname, name)); } void archive_entry_set_ino(struct archive_entry *entry, unsigned long ino) { entry->stat_valid = 0; entry->ae_stat.aest_ino = ino; } void archive_entry_set_ino64(struct archive_entry *entry, int64_t ino) { entry->stat_valid = 0; entry->ae_stat.aest_ino = ino; } void archive_entry_set_hardlink(struct archive_entry *entry, const char *target) { aes_set_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(struct archive_entry *entry, const char *target) { aes_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) { aes_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; return (aes_update_utf8(&entry->ae_hardlink, target)); } void archive_entry_set_atime(struct archive_entry *entry, time_t t, long 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 m, long ns) { entry->stat_valid = 0; entry->ae_set |= AE_SET_BIRTHTIME; entry->ae_stat.aest_birthtime = m; 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) { 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_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_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_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) aes_set_mbs(&entry->ae_symlink, target); else aes_set_mbs(&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) aes_copy_mbs(&entry->ae_symlink, target); else aes_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) aes_copy_wcs(&entry->ae_symlink, target); else aes_copy_wcs(&entry->ae_hardlink, target); } int archive_entry_update_link_utf8(struct archive_entry *entry, const char *target) { if (entry->ae_set & AE_SET_SYMLINK) return (aes_update_utf8(&entry->ae_symlink, target)); else return (aes_update_utf8(&entry->ae_hardlink, target)); } void archive_entry_set_mode(struct archive_entry *entry, mode_t m) { entry->stat_valid = 0; entry->ae_stat.aest_mode = m; } void archive_entry_set_mtime(struct archive_entry *entry, time_t m, long ns) { entry->stat_valid = 0; entry->ae_set |= AE_SET_MTIME; entry->ae_stat.aest_mtime = m; 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) { aes_set_mbs(&entry->ae_pathname, name); } void archive_entry_copy_pathname(struct archive_entry *entry, const char *name) { aes_copy_mbs(&entry->ae_pathname, name); } void archive_entry_copy_pathname_w(struct archive_entry *entry, const wchar_t *name) { aes_copy_wcs(&entry->ae_pathname, name); } int archive_entry_update_pathname_utf8(struct archive_entry *entry, const char *name) { return (aes_update_utf8(&entry->ae_pathname, name)); } void archive_entry_set_perm(struct archive_entry *entry, mode_t p) { entry->stat_valid = 0; entry->ae_stat.aest_mode &= AE_IFMT; entry->ae_stat.aest_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, 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) { aes_set_mbs(&entry->ae_sourcepath, path); } void archive_entry_set_symlink(struct archive_entry *entry, const char *linkname) { aes_set_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(struct archive_entry *entry, const char *linkname) { aes_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) { aes_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; return (aes_update_utf8(&entry->ae_symlink, linkname)); } void archive_entry_set_uid(struct archive_entry *entry, uid_t u) { entry->stat_valid = 0; entry->ae_stat.aest_uid = u; } void archive_entry_set_uname(struct archive_entry *entry, const char *name) { aes_set_mbs(&entry->ae_uname, name); } void archive_entry_copy_uname(struct archive_entry *entry, const char *name) { aes_copy_mbs(&entry->ae_uname, name); } void archive_entry_copy_uname_w(struct archive_entry *entry, const wchar_t *name) { aes_copy_wcs(&entry->ae_uname, name); } int archive_entry_update_uname_utf8(struct archive_entry *entry, const char *name) { return (aes_update_utf8(&entry->ae_uname, name)); } /* * 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. */ void archive_entry_acl_clear(struct archive_entry *entry) { struct ae_acl *ap; while (entry->acl_head != NULL) { ap = entry->acl_head->next; aes_clean(&entry->acl_head->name); free(entry->acl_head); entry->acl_head = ap; } if (entry->acl_text_w != NULL) { free(entry->acl_text_w); entry->acl_text_w = NULL; } entry->acl_p = NULL; entry->acl_state = 0; /* Not counting. */ } /* * Add a single ACL entry to the internal list of ACL data. */ void archive_entry_acl_add_entry(struct archive_entry *entry, int type, int permset, int tag, int id, const char *name) { struct ae_acl *ap; if (acl_special(entry, type, permset, tag) == 0) return; ap = acl_new_entry(entry, type, permset, tag, id); if (ap == NULL) { /* XXX Error XXX */ return; } if (name != NULL && *name != '\0') aes_copy_mbs(&ap->name, name); else aes_clean(&ap->name); } /* * As above, but with a wide-character name. */ void archive_entry_acl_add_entry_w(struct archive_entry *entry, int type, int permset, int tag, int id, const wchar_t *name) { archive_entry_acl_add_entry_w_len(entry, type, permset, tag, id, name, wcslen(name)); } static void archive_entry_acl_add_entry_w_len(struct archive_entry *entry, int type, int permset, int tag, int id, const wchar_t *name, size_t len) { struct ae_acl *ap; if (acl_special(entry, type, permset, tag) == 0) return; ap = acl_new_entry(entry, type, permset, tag, id); if (ap == NULL) { /* XXX Error XXX */ return; } if (name != NULL && *name != L'\0' && len > 0) aes_copy_wcs_len(&ap->name, name, len); else aes_clean(&ap->name); } /* * If this ACL entry is part of the standard POSIX permissions set, * store the permissions in the stat structure and return zero. */ static int acl_special(struct archive_entry *entry, int type, int permset, int tag) { if (type == ARCHIVE_ENTRY_ACL_TYPE_ACCESS) { switch (tag) { case ARCHIVE_ENTRY_ACL_USER_OBJ: entry->ae_stat.aest_mode &= ~0700; entry->ae_stat.aest_mode |= (permset & 7) << 6; return (0); case ARCHIVE_ENTRY_ACL_GROUP_OBJ: entry->ae_stat.aest_mode &= ~0070; entry->ae_stat.aest_mode |= (permset & 7) << 3; return (0); case ARCHIVE_ENTRY_ACL_OTHER: entry->ae_stat.aest_mode &= ~0007; entry->ae_stat.aest_mode |= permset & 7; return (0); } } return (1); } /* * Allocate and populate a new ACL entry with everything but the * name. */ static struct ae_acl * acl_new_entry(struct archive_entry *entry, int type, int permset, int tag, int id) { struct ae_acl *ap, *aq; if (type != ARCHIVE_ENTRY_ACL_TYPE_ACCESS && type != ARCHIVE_ENTRY_ACL_TYPE_DEFAULT) return (NULL); if (entry->acl_text_w != NULL) { free(entry->acl_text_w); entry->acl_text_w = NULL; } /* XXX TODO: More sanity-checks on the arguments XXX */ /* If there's a matching entry already in the list, overwrite it. */ ap = entry->acl_head; aq = NULL; while (ap != NULL) { if (ap->type == type && ap->tag == tag && ap->id == id) { ap->permset = permset; return (ap); } aq = ap; ap = ap->next; } /* Add a new entry to the end of the list. */ ap = (struct ae_acl *)malloc(sizeof(*ap)); if (ap == NULL) return (NULL); memset(ap, 0, sizeof(*ap)); if (aq == NULL) entry->acl_head = ap; else aq->next = ap; ap->type = type; ap->tag = tag; ap->id = id; ap->permset = permset; return (ap); } /* * Return a count of entries matching "want_type". */ int archive_entry_acl_count(struct archive_entry *entry, int want_type) { int count; struct ae_acl *ap; count = 0; ap = entry->acl_head; while (ap != NULL) { if ((ap->type & want_type) != 0) count++; ap = ap->next; } if (count > 0 && ((want_type & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0)) count += 3; return (count); } /* * 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) { int count, cutoff; count = archive_entry_acl_count(entry, want_type); /* * If the only entries are the three standard ones, * then don't return any ACL data. (In this case, * client can just use chmod(2) to set permissions.) */ if ((want_type & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0) cutoff = 3; else cutoff = 0; if (count > cutoff) entry->acl_state = ARCHIVE_ENTRY_ACL_USER_OBJ; else entry->acl_state = 0; entry->acl_p = entry->acl_head; return (count); } /* * 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) { *name = NULL; *id = -1; /* * The acl_state is either zero (no entries available), -1 * (reading from list), or an entry type (retrieve that type * from ae_stat.aest_mode). */ if (entry->acl_state == 0) return (ARCHIVE_WARN); /* The first three access entries are special. */ if ((want_type & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0) { switch (entry->acl_state) { case ARCHIVE_ENTRY_ACL_USER_OBJ: *permset = (entry->ae_stat.aest_mode >> 6) & 7; *type = ARCHIVE_ENTRY_ACL_TYPE_ACCESS; *tag = ARCHIVE_ENTRY_ACL_USER_OBJ; entry->acl_state = ARCHIVE_ENTRY_ACL_GROUP_OBJ; return (ARCHIVE_OK); case ARCHIVE_ENTRY_ACL_GROUP_OBJ: *permset = (entry->ae_stat.aest_mode >> 3) & 7; *type = ARCHIVE_ENTRY_ACL_TYPE_ACCESS; *tag = ARCHIVE_ENTRY_ACL_GROUP_OBJ; entry->acl_state = ARCHIVE_ENTRY_ACL_OTHER; return (ARCHIVE_OK); case ARCHIVE_ENTRY_ACL_OTHER: *permset = entry->ae_stat.aest_mode & 7; *type = ARCHIVE_ENTRY_ACL_TYPE_ACCESS; *tag = ARCHIVE_ENTRY_ACL_OTHER; entry->acl_state = -1; entry->acl_p = entry->acl_head; return (ARCHIVE_OK); default: break; } } while (entry->acl_p != NULL && (entry->acl_p->type & want_type) == 0) entry->acl_p = entry->acl_p->next; if (entry->acl_p == NULL) { entry->acl_state = 0; *type = 0; *permset = 0; *tag = 0; *id = -1; *name = NULL; return (ARCHIVE_EOF); /* End of ACL entries. */ } *type = entry->acl_p->type; *permset = entry->acl_p->permset; *tag = entry->acl_p->tag; *id = entry->acl_p->id; *name = aes_get_mbs(&entry->acl_p->name); entry->acl_p = entry->acl_p->next; return (ARCHIVE_OK); } /* * Generate a text version of the ACL. The flags parameter controls * the style of the generated ACL. */ const wchar_t * archive_entry_acl_text_w(struct archive_entry *entry, int flags) { int count; size_t length; const wchar_t *wname; const wchar_t *prefix; wchar_t separator; struct ae_acl *ap; int id; wchar_t *wp; if (entry->acl_text_w != NULL) { free (entry->acl_text_w); entry->acl_text_w = NULL; } separator = L','; count = 0; length = 0; ap = entry->acl_head; while (ap != NULL) { if ((ap->type & flags) != 0) { count++; if ((flags & ARCHIVE_ENTRY_ACL_STYLE_MARK_DEFAULT) && (ap->type & ARCHIVE_ENTRY_ACL_TYPE_DEFAULT)) length += 8; /* "default:" */ length += 5; /* tag name */ length += 1; /* colon */ wname = aes_get_wcs(&ap->name); if (wname != NULL) length += wcslen(wname); else length += sizeof(uid_t) * 3 + 1; length ++; /* colon */ length += 3; /* rwx */ length += 1; /* colon */ length += max(sizeof(uid_t), sizeof(gid_t)) * 3 + 1; length ++; /* newline */ } ap = ap->next; } if (count > 0 && ((flags & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0)) { length += 10; /* "user::rwx\n" */ length += 11; /* "group::rwx\n" */ length += 11; /* "other::rwx\n" */ } if (count == 0) return (NULL); /* Now, allocate the string and actually populate it. */ wp = entry->acl_text_w = (wchar_t *)malloc(length * sizeof(wchar_t)); if (wp == NULL) __archive_errx(1, "No memory to generate the text version of the ACL"); count = 0; if ((flags & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0) { append_entry_w(&wp, NULL, ARCHIVE_ENTRY_ACL_USER_OBJ, NULL, entry->ae_stat.aest_mode & 0700, -1); *wp++ = ','; append_entry_w(&wp, NULL, ARCHIVE_ENTRY_ACL_GROUP_OBJ, NULL, entry->ae_stat.aest_mode & 0070, -1); *wp++ = ','; append_entry_w(&wp, NULL, ARCHIVE_ENTRY_ACL_OTHER, NULL, entry->ae_stat.aest_mode & 0007, -1); count += 3; ap = entry->acl_head; while (ap != NULL) { if ((ap->type & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0) { wname = aes_get_wcs(&ap->name); *wp++ = separator; if (flags & ARCHIVE_ENTRY_ACL_STYLE_EXTRA_ID) id = ap->id; else id = -1; append_entry_w(&wp, NULL, ap->tag, wname, ap->permset, id); count++; } ap = ap->next; } } if ((flags & ARCHIVE_ENTRY_ACL_TYPE_DEFAULT) != 0) { if (flags & ARCHIVE_ENTRY_ACL_STYLE_MARK_DEFAULT) prefix = L"default:"; else prefix = NULL; ap = entry->acl_head; count = 0; while (ap != NULL) { if ((ap->type & ARCHIVE_ENTRY_ACL_TYPE_DEFAULT) != 0) { wname = aes_get_wcs(&ap->name); if (count > 0) *wp++ = separator; if (flags & ARCHIVE_ENTRY_ACL_STYLE_EXTRA_ID) id = ap->id; else id = -1; append_entry_w(&wp, prefix, ap->tag, wname, ap->permset, id); count ++; } ap = ap->next; } } return (entry->acl_text_w); } static void append_id_w(wchar_t **wp, int id) { if (id < 0) id = 0; if (id > 9) append_id_w(wp, id / 10); *(*wp)++ = L"0123456789"[id % 10]; } static void append_entry_w(wchar_t **wp, const wchar_t *prefix, int tag, const wchar_t *wname, int perm, int id) { if (prefix != NULL) { wcscpy(*wp, prefix); *wp += wcslen(*wp); } switch (tag) { case ARCHIVE_ENTRY_ACL_USER_OBJ: wname = NULL; id = -1; /* FALLTHROUGH */ case ARCHIVE_ENTRY_ACL_USER: wcscpy(*wp, L"user"); break; case ARCHIVE_ENTRY_ACL_GROUP_OBJ: wname = NULL; id = -1; /* FALLTHROUGH */ case ARCHIVE_ENTRY_ACL_GROUP: wcscpy(*wp, L"group"); break; case ARCHIVE_ENTRY_ACL_MASK: wcscpy(*wp, L"mask"); wname = NULL; id = -1; break; case ARCHIVE_ENTRY_ACL_OTHER: wcscpy(*wp, L"other"); wname = NULL; id = -1; break; } *wp += wcslen(*wp); *(*wp)++ = L':'; if (wname != NULL) { wcscpy(*wp, wname); *wp += wcslen(*wp); } else if (tag == ARCHIVE_ENTRY_ACL_USER || tag == ARCHIVE_ENTRY_ACL_GROUP) { append_id_w(wp, id); id = -1; } *(*wp)++ = L':'; *(*wp)++ = (perm & 0444) ? L'r' : L'-'; *(*wp)++ = (perm & 0222) ? L'w' : L'-'; *(*wp)++ = (perm & 0111) ? L'x' : L'-'; if (id != -1) { *(*wp)++ = L':'; append_id_w(wp, id); } **wp = L'\0'; } /* * Parse a textual ACL. This automatically recognizes and supports * extensions described above. The 'type' argument is used to * indicate the type that should be used for any entries not * explicitly marked as "default:". */ int __archive_entry_acl_parse_w(struct archive_entry *entry, const wchar_t *text, int default_type) { struct { const wchar_t *start; const wchar_t *end; } field[4], name; int fields, n; int type, tag, permset, id; wchar_t sep; while (text != NULL && *text != L'\0') { /* * Parse the fields out of the next entry, * advance 'text' to start of next entry. */ fields = 0; do { const wchar_t *start, *end; next_field_w(&text, &start, &end, &sep); if (fields < 4) { field[fields].start = start; field[fields].end = end; } ++fields; } while (sep == L':'); /* Set remaining fields to blank. */ for (n = fields; n < 4; ++n) field[n].start = field[n].end = NULL; /* Check for a numeric ID in field 1 or 3. */ id = -1; isint_w(field[1].start, field[1].end, &id); /* Field 3 is optional. */ if (id == -1 && fields > 3) isint_w(field[3].start, field[3].end, &id); /* * Solaris extension: "defaultuser::rwx" is the * default ACL corresponding to "user::rwx", etc. */ if (field[0].end - field[0].start > 7 && wmemcmp(field[0].start, L"default", 7) == 0) { type = ARCHIVE_ENTRY_ACL_TYPE_DEFAULT; field[0].start += 7; } else type = default_type; name.start = name.end = NULL; if (prefix_w(field[0].start, field[0].end, L"user")) { if (!ismode_w(field[2].start, field[2].end, &permset)) return (ARCHIVE_WARN); if (id != -1 || field[1].start < field[1].end) { tag = ARCHIVE_ENTRY_ACL_USER; name = field[1]; } else tag = ARCHIVE_ENTRY_ACL_USER_OBJ; } else if (prefix_w(field[0].start, field[0].end, L"group")) { if (!ismode_w(field[2].start, field[2].end, &permset)) return (ARCHIVE_WARN); if (id != -1 || field[1].start < field[1].end) { tag = ARCHIVE_ENTRY_ACL_GROUP; name = field[1]; } else tag = ARCHIVE_ENTRY_ACL_GROUP_OBJ; } else if (prefix_w(field[0].start, field[0].end, L"other")) { if (fields == 2 && field[1].start < field[1].end && ismode_w(field[1].start, field[1].end, &permset)) { /* This is Solaris-style "other:rwx" */ } else if (fields == 3 && field[1].start == field[1].end && field[2].start < field[2].end && ismode_w(field[2].start, field[2].end, &permset)) { /* This is FreeBSD-style "other::rwx" */ } else return (ARCHIVE_WARN); tag = ARCHIVE_ENTRY_ACL_OTHER; } else if (prefix_w(field[0].start, field[0].end, L"mask")) { if (fields == 2 && field[1].start < field[1].end && ismode_w(field[1].start, field[1].end, &permset)) { /* This is Solaris-style "mask:rwx" */ } else if (fields == 3 && field[1].start == field[1].end && field[2].start < field[2].end && ismode_w(field[2].start, field[2].end, &permset)) { /* This is FreeBSD-style "mask::rwx" */ } else return (ARCHIVE_WARN); tag = ARCHIVE_ENTRY_ACL_MASK; } else return (ARCHIVE_WARN); /* Add entry to the internal list. */ archive_entry_acl_add_entry_w_len(entry, type, permset, tag, id, name.start, name.end - name.start); } return (ARCHIVE_OK); } /* * Parse a string to a positive decimal integer. Returns true if * the string is non-empty and consists only of decimal digits, * false otherwise. */ static int isint_w(const wchar_t *start, const wchar_t *end, int *result) { int n = 0; if (start >= end) return (0); while (start < end) { if (*start < '0' || *start > '9') return (0); if (n > (INT_MAX / 10)) n = INT_MAX; else { n *= 10; n += *start - '0'; } start++; } *result = n; return (1); } /* * Parse a string as a mode field. Returns true if * the string is non-empty and consists only of mode characters, * false otherwise. */ static int ismode_w(const wchar_t *start, const wchar_t *end, int *permset) { const wchar_t *p; if (start >= end) return (0); p = start; *permset = 0; while (p < end) { switch (*p++) { case 'r': case 'R': *permset |= ARCHIVE_ENTRY_ACL_READ; break; case 'w': case 'W': *permset |= ARCHIVE_ENTRY_ACL_WRITE; break; case 'x': case 'X': *permset |= ARCHIVE_ENTRY_ACL_EXECUTE; break; case '-': break; default: return (0); } } return (1); } /* * Match "[:whitespace:]*(.*)[:whitespace:]*[:,\n]". *wp is updated * to point to just after the separator. *start points to the first * character of the matched text and *end just after the last * character of the matched identifier. In particular *end - *start * is the length of the field body, not including leading or trailing * whitespace. */ static void next_field_w(const wchar_t **wp, const wchar_t **start, const wchar_t **end, wchar_t *sep) { /* Skip leading whitespace to find start of field. */ while (**wp == L' ' || **wp == L'\t' || **wp == L'\n') { (*wp)++; } *start = *wp; /* Scan for the separator. */ while (**wp != L'\0' && **wp != L',' && **wp != L':' && **wp != L'\n') { (*wp)++; } *sep = **wp; /* Trim trailing whitespace to locate end of field. */ *end = *wp - 1; while (**end == L' ' || **end == L'\t' || **end == L'\n') { (*end)--; } (*end)++; /* Adjust scanner location. */ if (**wp != L'\0') (*wp)++; } /* * Return true if the characters [start...end) are a prefix of 'test'. * This makes it easy to handle the obvious abbreviations: 'u' for 'user', etc. */ static int prefix_w(const wchar_t *start, const wchar_t *end, const wchar_t *test) { if (start == end) return (0); if (*start++ != *test++) return (0); while (start < end && *start++ == *test++) ; if (start < end) return (0); return (1); } /* * 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. */ static struct flag { const char *name; const wchar_t *wname; unsigned long set; unsigned long clear; } flags[] = { /* 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 #ifdef 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 #ifdef 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 SF_SNAPSHOT { "nosnapshot", L"nosnapshot", SF_SNAPSHOT, 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 #ifdef EXT2_NODUMP_FL /* 'd' */ { "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 EXT2_UNRM_FL { "nouunlink", L"nouunlink", EXT2_UNRM_FL, 0}, #endif #ifdef EXT2_BTREE_FL { "nobtree", L"nobtree", EXT2_BTREE_FL, 0 }, #endif #ifdef EXT2_ECOMPR_FL { "nocomperr", L"nocomperr", EXT2_ECOMPR_FL, 0 }, #endif #ifdef EXT2_COMPR_FL /* 'c' */ { "nocompress", L"nocompress", EXT2_COMPR_FL, 0 }, #endif #ifdef EXT2_NOATIME_FL /* 'A' */ { "noatime", L"noatime", 0, EXT2_NOATIME_FL}, #endif #ifdef EXT2_DIRTY_FL { "nocompdirty",L"nocompdirty", EXT2_DIRTY_FL, 0}, #endif #ifdef EXT2_COMPRBLK_FL #ifdef EXT2_NOCOMPR_FL { "nocomprblk", L"nocomprblk", EXT2_COMPRBLK_FL, EXT2_NOCOMPR_FL}, #else { "nocomprblk", L"nocomprblk", EXT2_COMPRBLK_FL, 0}, #endif #endif #ifdef EXT2_DIRSYNC_FL { "nodirsync", L"nodirsync", EXT2_DIRSYNC_FL, 0}, #endif #ifdef EXT2_INDEX_FL { "nohashidx", L"nohashidx", EXT2_INDEX_FL, 0}, #endif #ifdef EXT2_IMAGIC_FL { "noimagic", L"noimagic", EXT2_IMAGIC_FL, 0}, #endif #ifdef EXT3_JOURNAL_DATA_FL { "nojournal", L"nojournal", EXT3_JOURNAL_DATA_FL, 0}, #endif #ifdef EXT2_SECRM_FL { "nosecuredeletion",L"nosecuredeletion",EXT2_SECRM_FL, 0}, #endif #ifdef EXT2_SYNC_FL { "nosync", L"nosync", EXT2_SYNC_FL, 0}, #endif #ifdef EXT2_NOTAIL_FL { "notail", L"notail", 0, EXT2_NOTAIL_FL}, #endif #ifdef EXT2_TOPDIR_FL { "notopdir", L"notopdir", EXT2_TOPDIR_FL, 0}, #endif #ifdef EXT2_RESERVED_FL { "noreserved", L"noreserved", EXT2_RESERVED_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; struct flag *flag; size_t length; bits = bitset | bitclear; length = 0; for (flag = flags; 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 = flags; 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; 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') { /* Locate end of token. */ end = start; while (*end != '\0' && *end != '\t' && *end != ' ' && *end != ',') end++; for (flag = flags; flag->name != NULL; flag++) { if (memcmp(start, flag->name, end - start) == 0) { /* Matched "noXXXX", so reverse the sense. */ clear |= flag->set; set |= flag->clear; break; } else if (memcmp(start, flag->name + 2, end - start) == 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; 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') { /* Locate end of token. */ end = start; while (*end != L'\0' && *end != L'\t' && *end != L' ' && *end != L',') end++; for (flag = flags; flag->wname != NULL; flag++) { if (wmemcmp(start, flag->wname, end - start) == 0) { /* Matched "noXXXX", so reverse the sense. */ clear |= flag->set; set |= flag->clear; break; } else if (wmemcmp(start, flag->wname + 2, end - start) == 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 <stdio.h> 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