/* debug problems */ /* #define TRUST_DEBUG */ /* switch off full check */ /* #define TEST_ONLY */ /* standalone */ /* #define TRUST_MAIN */ /* $(CC) -DTRUST_MAIN -DSL_ALWAYS_TRUSTED=... */ /* LINTLIBRARY */ /* * This is the file with all the library routines in it * * Author information: * Matt Bishop * Department of Computer Science * University of California at Davis * Davis, CA 95616-8562 * phone (916) 752-8060 * email bishop@cs.ucdavis.edu * * This code is placed in the public domain. I do ask that * you keep my name associated with it, that you not represent * it as written by you, and that you preserve these comments. * This software is provided "as is" and without any guarantees * of any sort. * * Compilation notes: * * this does NOT use malloc(3), but fixed storage. this means we * do lots of bounds checking, but it still is faster, and smaller, * than forcing inclusion of malloc. All buffers etc. are of size * MAXFILENAME (defined in trustfile.h); to get more room, recompile * with this set larger. * * if you support the following directory semantics, define STICKY; * otherwise, undefine it * "if a directory is both world-writeable AND has the sticky bit * set, then ONLY the owner of an existing file may delete it" * On some systems (eg, IRIX), you can delete the file under these * conditions if the file is world writeable. Foor our purposes, * this is irrelevant since if the file is world-writeable it is * untrustworthy; either it can be replaced with another file (the * IRIX version) or it can be altered (all versions). * if this is true and STICKY is not set, the sticky bit is ignored * and the directory will be flagged as untrustworthy, even when only * a trusted user could delete the file * * this uses a library call to get the name of the current working * directory. Define the following to get the various versions: * GETCWD for Solaris 2.x, SunOS 4.1.x, IRIX 5.x * char *getcwd(char *buf, int bufsz); * where buf is a buffer for the path name, and bufsz is * the size of the buffer; if the size if too small, you * get an error return (NULL) * GETWD for Ultrix 4.4 * char *getwd(char *buf) * where buf is a buffer for the path name, and it is * assumed to be at lease as big as MAXPATHLEN. * *** IMPORTANT NOTE *** * Ultrix supports getcwd as well, but it uses popen to * run the command "pwd" (according to the manual). This * means it's vulnerable to a number of attacks if used * in a privileged program. YOU DON'T WANT THIS. * * the debugging flag DEBUG prints out each step of the file name * checking, as well as info on symbolic links (if S_IFLNK defined), * file name canonicalization, and user, group, and permission for * each file or directory; this is useful if you want to be sure * you're checking the right file * * Version information: * 1.0 December 28, 1995 Matt Bishop * * 2.0 March 26, 2000 Rainer Wichmann -- adapted for slib. */ /* --- Why strcpy is safe here: ---- */ /* The input path is checked once, and then either shortened [in dirz()], * or safely expanded (symlinks) with bound checking. * I.e., the path length can never exceed (MAXFILENAME-1), while the path * is always copied between buffers of length MAXFILENAME. */ #ifndef TRUST_MAIN #include "config_xor.h" #include "sh_calls.h" #else #define UID_CAST long #endif #include #include #include #include #include #include #include #include #ifndef TRUST_MAIN #include "slib.h" #define SH_NEED_PWD_GRP 1 #include "sh_static.h" #define SH_GRBUF_SIZE 4096 #define SH_PWBUF_SIZE 4096 #else #define sh_getgrgid getgrgid #define sh_getgrgid_r getgrgid_r #define sh_getpwnam getpwnam #define sh_getpwnam_r getpwnam_r #define sh_getpwuid getpwuid #define sh_getpwuid_r getpwuid_r #define sh_getpwent getpwent #define sh_endpwent endpwent #define TRUST_DEBUG #define SL_FALSE 0 #define SL_TRUE 1 #define SL_ENTER(string) #define SL_IRETURN(a, b) return a #define retry_lstat(a,b,c,d) lstat(c,d) #define _(string) string #define N_(string) string #define MAXFILENAME 4096 static int sl_errno = 0; #define SL_ENONE 0 #define SL_ENULL -1024 /* Invalid use of NULL pointer. */ #define SL_ERANGE -1025 /* Argument out of range. */ #define SL_ETRUNC -1026 /* Result truncated. */ #define SL_EINTERNAL -1028 /* Internal error. */ #define SL_EBADFILE -1030 /* File access error. Check errno. */ #define SL_EBADNAME -1040 /* Invalid name. */ #define SL_ESTAT -1041 /* stat of file failed. Check errno. */ #define SL_EBADUID -1050 /* Owner not trustworthy. */ #define SL_EBADGID -1051 /* Group writeable and not trustworthy.*/ #define SL_EBADOTH -1052 /* World writeable. */ #endif #if defined(__linux__) || defined(__FreeBSD__) #define STICKY #endif #undef FIL__ #define FIL__ _("trustfile.c") /* * the get current working directory function * every version of UNIX seems to have its own * idea of how to do this, so we group them by * arguments ... * all must return a pointer to the right name */ #ifndef TRUST_MAIN #if defined(HAVE_GETCWD) && !defined(HAVE_BROKEN_GETCWD) #define CURDIR(buf,nbuf) getcwd((buf), (nbuf)) #elif defined(HAVE_GETWD) #define CURDIR(buf,nbuf) getwd((buf)) #endif #else #define CURDIR(buf,nbuf) getcwd((buf), (nbuf)) #endif /* * this checks to see if there are symbolic links * assumes the link bit in the protection mask is called S_IFLNK * (seems to be true on all UNIXes with them) */ #ifndef S_IFLNK #define lstat stat #endif /* * these are useful global variables * * first set: who you gonna trust, by default? * if the user does not specify a trusted or untrusted set of users, * all users are considered untrusted EXCEPT: * UID 0 -- root as root can do anything on most UNIX systems, this * seems reasonable * tf_euid -- programmer-selectable UID * if the caller specifies a specific UID by putting * it in this variable, it will be trusted; this is * typically used to trust the effective UID of the * process (note: NOT the real UID, which will cause all * sorts of problems!) By default, this is set to -1, * so if it's not set, root is the only trusted user */ /* modified Tue Feb 22 10:36:44 NFT 2000 Rainer Wichmann */ #ifndef SL_ALWAYS_TRUSTED #define SL_ALWAYS_TRUSTED 0 #endif static uid_t test_rootonly[] = { SL_ALWAYS_TRUSTED }; #define tf_uid_neg ((uid_t)-1) uid_t rootonly[] = { SL_ALWAYS_TRUSTED, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg, tf_uid_neg }; uid_t tf_euid = tf_uid_neg; int EUIDSLOT = sizeof(test_rootonly)/sizeof(uid_t); int ORIG_EUIDSLOT = sizeof(test_rootonly)/sizeof(uid_t); char tf_path[MAXFILENAME]; /* error path for trust function */ uid_t tf_baduid; gid_t tf_badgid; static int dirz(char *path) { register char *p = path;/* points to rest of path to clean up */ register char *q; /* temp pointer for skipping over stuff */ static char swp[MAXFILENAME]; SL_ENTER(_("dirz")); /* * standard error checking */ if (path == NULL) SL_IRETURN(SL_ENULL, _("dirz")); if (path[0] == '.') SL_IRETURN(SL_EINTERNAL, _("dirz")); /* * loop over the path name until everything is checked */ while(*p) { /* skip */ if (*p != '/') { p++; continue; } /* "/./" or "/." */ if (p[1] == '.' && (p[2] == '/' || p[2] == '\0')) { /* yes -- delete "/." */ (void) strcpy(swp, &p[2]); /* known to fit */ (void) strcpy(p, swp); /* known to fit */ /* special case "/." as full path name */ if (p == path && *p == '\0') { *p++ = '/'; *p = '\0'; } } /* "//" */ else if (p[1] == '/') { /* yes -- skip */ for(q = &p[2]; *q == '/'; q++) ; (void) strcpy(swp, q); /* known to fit */ (void) strcpy(&p[1], swp); /* known to fit */ } /* "/../" or "/.." */ else if (p[1] == '.' && p[2] == '.' && (p[3] == '/' || p[3] == '\0')) { /* yes -- if it's root, delete .. only */ if (p == path) { (void) strcpy(swp, &p[3]); /* known to fit */ (void) strcpy(p, swp); /* known to fit */ } else { /* back up over previous component */ q = p - 1; while(q != path && *q != '/') q--; /* now wipe it out */ (void) strcpy(swp, &p[3]); /* known to fit */ (void) strcpy(q, swp); /* known to fit */ p = q; } } else p++; } SL_IRETURN(SL_ENONE, _("dirz")); } /* not static to circumvent stupid gcc 4 bug */ int getfname(char *fname, char *rbuf, int rsz) { #ifndef TRUST_MAIN register int status; #endif SL_ENTER(_("getfname")); /* * do the initial checking * NULL pointer */ if (fname == NULL || rbuf == NULL) SL_IRETURN(SL_ENULL, _("getfname")); if (rsz <= 0) SL_IRETURN(SL_ERANGE, _("getfname")); /* already a full path name */ if (*fname == '/') rbuf[0] = '\0'; else { if (CURDIR(rbuf, rsz) == NULL) { #ifdef TRUST_DEBUG fprintf(stderr, "trustfile: getcwd failed\n"); #endif SL_IRETURN(SL_EBADNAME, _("getfname")); } } /* * append the file name and reduce */ if (fname != NULL && *fname != '\0') { #ifndef TRUST_MAIN status = sl_strlcat(rbuf, "/", rsz); if (status == SL_ENONE) status = sl_strlcat(rbuf, fname, rsz); if (status != SL_ENONE) SL_IRETURN(status, _("getfname")); #else strncat(rbuf, "/", rsz-strlen(rbuf)); strncat(rbuf, fname, rsz-strlen(rbuf)); #endif } SL_IRETURN(dirz(rbuf), _("getfname")); } static int isin(uid_t n, uid_t *list) { SL_ENTER(_("isin")); if (list == NULL) SL_IRETURN(SL_FALSE, _("isin")); while(*list != tf_uid_neg && *list != n) { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: owner_uid=%ld, trusted uid=%ld, no match\n", (UID_CAST) n, (UID_CAST) *list); #endif list++; } if (*list == tf_uid_neg) { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: owner_uid=%ld, no match with any trusted user --> ERROR\n", (UID_CAST) n); #endif SL_IRETURN(SL_FALSE, _("isin")); } #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: owner_uid=%ld, trusted_uid=%ld, match found --> OK\n", (UID_CAST)n, (UID_CAST)*list); #endif SL_IRETURN(SL_TRUE, _("isin")); } /* comment added by R. Wichmann * RETURN TRUE if ANYONE in ulist is group member */ /* not static to circumvent stupid gcc 4 bug */ int isingrp(gid_t grp, uid_t *ulist) { register struct passwd *w; /* info about group member */ register uid_t *u; /* points to current ulist member */ register char **p; /* points to current group member */ register struct group *g; /* pointer to group information */ #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETGRGID_R) struct group gr; char buffer[SH_GRBUF_SIZE]; struct passwd pwd; char pbuffer[SH_PWBUF_SIZE]; #endif SL_ENTER(_("isingrp")); #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETGRGID_R) sh_getgrgid_r(grp, &gr, buffer, sizeof(buffer), &g); #else g = sh_getgrgid(grp); #endif if (g == NULL) { SL_IRETURN(SL_FALSE, _("isingrp") ); } /* if(g->gr_mem == NULL || g->gr_mem[0] == NULL ) SL_IRETURN(SL_FALSE, _("isingrp") ); */ /* this will return at the first match */ for(p = g->gr_mem; *p != NULL; p++) { for(u = ulist; *u != tf_uid_neg; u++) { /* map user name to UID and compare */ #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETPWNAM_R) sh_getpwnam_r(*p, &pwd, pbuffer, sizeof(pbuffer), &w); #else w = sh_getpwnam(*p); #endif #ifdef TRUST_MAIN if (w != NULL && *u == (uid_t)(w->pw_uid) ) SL_IRETURN(SL_TRUE, _("isingrp")); #else if (w != NULL && *u == (uid_t)(w->pw_uid) ) { SL_IRETURN(SL_TRUE, _("isingrp")); } #endif } } /* added by R. Wichmann Fri Mar 30 08:16:14 CEST 2001: * a user can have a GID but no entry in /etc/group */ for(u = ulist; *u != tf_uid_neg; u++) { #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETPWUID_R) sh_getpwuid_r(*u, &pwd, pbuffer, sizeof(pbuffer), &w); #else w = sh_getpwuid(*u); #endif #ifdef TRUST_MAIN if (w != NULL && grp == (gid_t)(w->pw_gid) ) SL_IRETURN(SL_TRUE, _("isingrp")); #else if (w != NULL && grp == (gid_t)(w->pw_gid) ) { SL_IRETURN(SL_TRUE, _("isingrp")); } #endif } SL_IRETURN(SL_FALSE, _("isingrp")); } /* added by R. Wichmann Fri Mar 30 08:16:14 CEST 2001 * RETURN TRUE only if ALL group members are trusted */ /* not static to circumvent stupid gcc 4 bug */ int onlytrustedingrp(gid_t grp, uid_t *ulist) { register struct passwd *w; /* info about group member */ register uid_t *u; /* points to current ulist member */ register char **p; /* points to current group member */ register struct group *g; /* pointer to group information */ register int flag = -1; /* group member found */ #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETGRGID_R) struct group gr; char buffer[SH_GRBUF_SIZE]; struct group pw; char pbuffer[SH_PWBUF_SIZE]; #endif int retval = SL_FALSE; SL_ENTER(_("onlytrustedingrp")); #ifdef TRUST_DEBUG fprintf(stderr, "trustfile: group writeable, group_gid: %ld\n", (UID_CAST)grp); #endif #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETGRGID_R) sh_getgrgid_r(grp, &gr, buffer, sizeof(buffer), &g); #else g = sh_getgrgid(grp); #endif if (g == NULL) { #ifdef TRUST_DEBUG fprintf(stderr, "trustfile: group_gid: %ld, no such group --> ERROR\n", (UID_CAST)grp); #endif SL_IRETURN(SL_FALSE, _("onlytrustedingrp") ); } /* empty group -> no problem if(g->gr_mem == NULL || g->gr_mem[0] == NULL ) SL_IRETURN(SL_TRUE, _("onlytrustedingrp") ); */ /* check for untrusted members of the group */ for(p = g->gr_mem; *p != NULL; p++) { flag = -1; #ifdef TRUST_DEBUG fprintf(stderr, "trustfile: group_member: %s\n", *p); #endif /* map user name to UID and compare */ #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_GETPWNAM_R) sh_getpwnam_r(*p, &pw, pbuffer, sizeof(pbuffer), &w); #else w = sh_getpwnam(*p); #endif if (w == NULL) /* not a valid user, ignore */ { flag = 0; } else /* check list of trusted users */ { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: uid=%ld, checking whether it is trusted\n", (UID_CAST)(w->pw_uid)); #endif for(u = ulist; *u != tf_uid_neg; u++) { if (*u == (w->pw_uid) ) { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: uid=%ld, trusted_uid=%ld, match found --> OK\n", (UID_CAST)(w->pw_uid), (UID_CAST)*u); #endif flag = 0; break; } else { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: uid=%ld, trusted_uid=%ld, no match\n", (UID_CAST)(w->pw_uid), (UID_CAST)*u); #endif ; } } } /* not found */ if (flag == -1) { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: user=%s (gid %ld), not a trusted user --> ERROR\n", *p, (UID_CAST)grp); #endif tf_baduid = w->pw_uid; SL_IRETURN(SL_FALSE, _("onlytrustedingrp")); } } #ifndef TEST_ONLY #ifdef HAVE_GETPWENT /* now check ALL users for their GID !!! */ SH_MUTEX_LOCK(mutex_pwent); while (NULL != (w = sh_getpwent())) { if (grp == (gid_t)(w->pw_gid)) { #ifdef TRUST_DEBUG fprintf(stderr, "trustfile: checking group member %s, uid %ld\n", w->pw_name, (UID_CAST)w->pw_uid); #endif /* is it a trusted user ? */ flag = -1; for(u = ulist; *u != tf_uid_neg; u++) { if (*u == (uid_t)(w->pw_uid)) { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: uid=%ld, trusted_uid=%ld, match found --> OK\n", (UID_CAST)(w->pw_uid), *u); #endif flag = 0; break; } else { #ifdef TRUST_DEBUG fprintf (stderr, "trustfile: uid=%ld, trusted_uid=%ld, no match\n", (UID_CAST)(w->pw_uid), (UID_CAST)*u); #endif ; } } /* not found */ if (flag == -1) { #ifdef TRUST_DEBUG fprintf(stderr,"trustfile: group member %s not found in trusted users --> ERROR\n", w->pw_name); #endif tf_baduid = w->pw_uid; retval = SL_FALSE; goto out; /* SL_IRETURN(SL_FALSE, _("onlytrustedingrp")); */ } } } retval = SL_TRUE; out: #ifdef HAVE_ENDPWENT sh_endpwent(); #endif SH_MUTEX_UNLOCK(mutex_pwent); /* TEST_ONLY */ #endif /* #ifdef HAVE_GETPWENT */ #endif #ifdef TRUST_DEBUG if (retval == SL_TRUE) fprintf(stderr, "trustfile: group %ld: all members are trusted users --> OK\n", (UID_CAST)grp); #endif /* all found */ SL_IRETURN(retval, _("onlytrustedingrp")); } int sl_trustfile(char *fname, uid_t *okusers, uid_t *badusers) { char fexp[MAXFILENAME]; /* file name fully expanded */ register char *p = fexp; /* used to hold name to be checked */ struct stat stbuf; /* used to check file permissions */ char c; /* used to hold temp char */ SL_ENTER(_("sl_trustfile")); if (fname == NULL) SL_IRETURN(SL_EBADFILE, _("sl_trustfile")); /* * next expand to the full file name * getfname sets sl_errno as appropriate */ #ifdef TRUST_MAIN sl_errno = getfname(fname, fexp, MAXFILENAME); if (sl_errno != 0) return sl_errno; #else if (SL_ISERROR(getfname(fname, fexp, MAXFILENAME))) SL_IRETURN(sl_errno, _("sl_trustfile")); #endif if (okusers == NULL && badusers == NULL) { okusers = rootonly; rootonly[EUIDSLOT] = tf_euid; } /* * now loop through the path a component at a time * note we have to special-case root */ while(*p) { /* * get next component */ while(*p && *p != '/') p++; /* save where you are */ if (p == fexp) { /* keep the / if it's the root dir */ c = p[1]; p[1] = '\0'; } else { /* clobber the / if it isn't the root dir */ c = *p; *p = '\0'; } /* * now get the information */ if (retry_lstat(FIL__, __LINE__, fexp, &stbuf) < 0) { (void) strncpy(tf_path, fexp, sizeof(tf_path)); tf_path[sizeof(tf_path)-1] = '\0'; #ifdef TRUST_MAIN fprintf(stderr, "---------------------------------------------\n"); fprintf(stderr, "trustfile: ESTAT: stat(%s) failed,\n", fexp); fprintf(stderr, "maybe the file does not exist\n"); fprintf(stderr, "---------------------------------------------\n"); #endif SL_IRETURN(SL_ESTAT, _("sl_trustfile")); } #ifdef S_IFLNK /* * if it's a symbolic link, recurse */ if ((stbuf.st_mode & S_IFLNK) == S_IFLNK) { /* * this is tricky * if the symlink is to an absolute path * name, just call trustfile on it; but * if it's a relative path name, it's * interpreted WRT the current working * directory AND NOT THE FILE NAME!!!!! * so, we simply put /../ at the end of * the file name, then append the symlink * contents; trustfile will canonicalize * this, and the /../ we added "undoes" * the name of the symlink to put us in * the current working directory, at * which point the symlink contents (appended * to the CWD) are interpreted correctly. * got it? */ char csym[MAXFILENAME]; /* contents of symlink file */ char full[MAXFILENAME]; /* "full" name of symlink */ register char *b, *t; /* used to copy stuff around */ register int lsym; /* num chars in symlink ref */ register int i; /* trustworthy or not? */ /* * get what the symbolic link points to * * The original code does not check the return code of readlink(), * and has an off-by-one error * (MAXFILENAME instead of MAXFILENAME-1) * R.W. Tue May 29 22:05:16 CEST 2001 */ lsym = readlink(fexp, csym, MAXFILENAME-1); if (lsym >= 0) csym[lsym] = '\0'; else { #ifdef TRUST_MAIN fprintf(stderr, "---------------------------------------------\n"); fprintf(stderr, "trustfile: EBADNAME: readlink(%s) failed\n", fexp); fprintf(stderr, "---------------------------------------------\n"); #endif SL_IRETURN(SL_EBADNAME, _("sl_trustfile")); } /* * relative or absolute referent? */ if (csym[0] != '/') { /* initialize pointers */ b = full; /* copy in base path */ t = fexp; while(*t && b < &full[MAXFILENAME]) *b++ = *t++; /* smack on the /../ */ t = "/../"; while(*t && b < &full[MAXFILENAME]) *b++ = *t++; /* append the symlink referent */ t = csym; while(*t && b < &full[MAXFILENAME]) *b++ = *t++; /* see if we're too big */ if (*t || b == &full[MAXFILENAME]) { /* yes -- error */ (void) strncpy(tf_path, fexp, sizeof(tf_path)); tf_path[sizeof(tf_path)-1] = '\0'; #ifdef TRUST_MAIN fprintf(stderr, "---------------------------------------------\n"); fprintf(stderr, "trustfile: ETRUNC: normalized path too long (%s)\n", fexp); fprintf(stderr, "---------------------------------------------\n"); #endif SL_IRETURN(SL_ETRUNC, _("sl_trustfile")); } *b = '\0'; } else { /* absolute -- just copy */ /* overflow can't occur as the arrays */ /* are the same size */ (void) strcpy(full, csym); /* known to fit */ } /* * now check out this file and its ancestors */ if ((i = sl_trustfile(full, okusers, badusers)) != SL_ENONE) SL_IRETURN(i, _("sl_trustfile")); /* * okay, this part is valid ... let's check the rest * put the / back */ if (p == fexp) { /* special case for root */ p[1] = c; p++; } else { /* ordinary case for everything else */ *p = c; if (*p) p++; } continue; } #endif #ifdef TRUST_DEBUG fprintf(stderr, "\ntrustfile: checking path=%s\n", fexp); #endif /* * if the owner is not trusted then -- as the owner can * change protection modes -- he/she can write to the * file regardless of permissions, so bomb */ if (((okusers != NULL && SL_FALSE == isin((uid_t)stbuf.st_uid,okusers))|| (badusers != NULL && SL_TRUE == isin((uid_t)stbuf.st_uid,badusers)))) { #ifdef TRUST_DEBUG fprintf(stderr, "---------------------------------------------\n"); fprintf(stderr, "trustfile: EBADUID %s (owner not trusted)\n", fexp); fprintf(stderr, "The owner of this file/directory is not in samhains\n"); fprintf(stderr, "list of trusted users.\n"); fprintf(stderr, "Please run ./configure again with the option\n"); fprintf(stderr, " ./configure [more options] --with-trusted=0,...,UID\n"); fprintf(stderr, "where UID is the UID of the (yet) untrusted user.\n"); fprintf(stderr, "---------------------------------------------\n"); #endif (void) strncpy(tf_path, fexp, sizeof(tf_path)); tf_path[sizeof(tf_path)-1] = '\0'; tf_baduid = (uid_t) stbuf.st_uid; SL_IRETURN(SL_EBADUID, _("sl_trustfile")); } /* * if a group member can write but the * member is not trusted, bomb; but if * sticky bit semantics are honored, it's * okay */ /* Thu Mar 29 21:10:28 CEST 2001 Rainer Wichmann * replace !isingrp() with onlytrustedingrp(), as isingrp() * will return at the first trusted user, even if there are additional * (untrusted) users in the group */ if (((stbuf.st_mode & S_IWGRP) == S_IWGRP) && ((okusers != NULL && !onlytrustedingrp((gid_t)stbuf.st_gid,okusers))|| (badusers != NULL && isingrp((gid_t)stbuf.st_gid, badusers))) #ifdef STICKY && ((stbuf.st_mode&S_IFDIR) != S_IFDIR || (stbuf.st_mode&S_ISVTX) != S_ISVTX) #endif ) { #ifdef TRUST_DEBUG fprintf(stderr, "---------------------------------------------\n"); fprintf(stderr, "trustfile: EBADGID %ld %s (group member not trusted)\n", (UID_CAST)stbuf.st_gid, fexp); fprintf(stderr, "This file/directory is group writeable, and one of the group members\n"); fprintf(stderr, "is not in samhains list of trusted users.\n"); fprintf(stderr, "Please run ./configure again with the option\n"); fprintf(stderr, " ./configure [more options] --with-trusted=0,...,UID\n"); fprintf(stderr, "where UID is the UID of the (yet) untrusted user.\n"); fprintf(stderr, "---------------------------------------------\n"); #endif (void) strncpy(tf_path, fexp, sizeof(tf_path)); tf_path[sizeof(tf_path)-1] = '\0'; tf_badgid = (gid_t) stbuf.st_gid; SL_IRETURN(SL_EBADGID, _("sl_trustfile")); } /* * if other can write, bomb; but if the sticky * bit semantics are honored, it's okay */ if (((stbuf.st_mode & S_IWOTH) == S_IWOTH) #ifdef STICKY && ((stbuf.st_mode&S_IFDIR) != S_IFDIR || (stbuf.st_mode&S_ISVTX) != S_ISVTX) #endif ) { #ifdef TRUST_DEBUG fprintf(stderr, "---------------------------------------------\n"); fprintf(stderr, "trustfile: EBADOTH (world writeable): %s\n", fexp); fprintf(stderr, "This file/directory is world writeable.\n"); fprintf(stderr, "---------------------------------------------\n"); #endif (void) strncpy(tf_path, fexp, sizeof(tf_path)); tf_path[sizeof(tf_path)-1] = '\0'; SL_IRETURN(SL_EBADOTH, _("sl_trustfile")); } /* * put the / back */ if (p == fexp) { /* special case for root */ p[1] = c; p++; } else { /* ordinary case for everything else */ *p = c; if (*p) p++; } } /* * yes, it can be trusted */ (void) strncpy(tf_path, fexp, sizeof(tf_path)); tf_path[sizeof(tf_path)-1] = '\0'; SL_IRETURN(SL_ENONE, _("sl_trustfile")); } #ifdef TRUST_MAIN int main (int argc, char * argv[]) { int status; #if defined(SH_WITH_SERVER) struct passwd * pass; #endif if (argc < 2) { fprintf(stderr, "%s: Usage: %s \n", argv[0], argv[0]); return 1; } tf_path[0] = '\0'; #if defined(SH_WITH_SERVER) pass = sh_getpwnam(SH_IDENT); /* TESTONLY */ if (pass != NULL) tf_euid = pass->pw_uid; else { fprintf(stderr, "trustfile: ERROR: getpwnam(%s) failed\n", SH_IDENT); return 1; } #else tf_euid = geteuid(); #endif status = sl_trustfile(argv[1], NULL, NULL); if (status != SL_ENONE) { fprintf(stderr, "trustfile: ERROR: not a trusted path: %s\n", argv[1]); return 1; } return 0; } #endif