/* * SPDX-License-Identifier: ISC * * Copyright (c) 1996, 1998-2005, 2007-2018 * Todd C. Miller * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Sponsored in part by the Defense Advanced Research Projects * Agency (DARPA) and Air Force Research Laboratory, Air Force * Materiel Command, USAF, under agreement number F39502-99-1-0512. */ /* * This is an open source non-commercial project. Dear PVS-Studio, please check it. * PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com */ #include #include #include #include #include #include #include #include #include #include #include "sudoers.h" #include "pwutil.h" #ifndef LOGIN_NAME_MAX # ifdef _POSIX_LOGIN_NAME_MAX # define LOGIN_NAME_MAX _POSIX_LOGIN_NAME_MAX # else # define LOGIN_NAME_MAX 9 # endif #endif /* LOGIN_NAME_MAX */ #define FIELD_SIZE(src, name, size) \ do { \ if (src->name) { \ size = strlen(src->name) + 1; \ total += size; \ } else { \ size = 0; \ } \ } while (0) #define FIELD_COPY(src, dst, name, size) \ do { \ if (src->name) { \ memcpy(cp, src->name, size); \ dst->name = cp; \ cp += size; \ } \ } while (0) /* * Dynamically allocate space for a struct item plus the key and data * elements. If name is non-NULL it is used as the key, else the * uid is the key. Fills in datum from struct password. * Returns NULL on calloc error or unknown name/id, setting errno * to ENOMEM or ENOENT respectively. */ struct cache_item * sudo_make_pwitem(uid_t uid, const char *name) { char *cp; const char *pw_shell; size_t nsize, psize, gsize, dsize, ssize, total; #ifdef HAVE_LOGIN_CAP_H size_t csize; #endif struct cache_item_pw *pwitem; struct passwd *pw, *newpw; debug_decl(sudo_make_pwitem, SUDOERS_DEBUG_NSS); /* Look up by name or uid. */ pw = name ? getpwnam(name) : getpwuid(uid); if (pw == NULL) { errno = ENOENT; debug_return_ptr(NULL); } /* If shell field is empty, expand to _PATH_BSHELL. */ pw_shell = (pw->pw_shell == NULL || pw->pw_shell[0] == '\0') ? _PATH_BSHELL : pw->pw_shell; /* Allocate in one big chunk for easy freeing. */ total = sizeof(*pwitem); FIELD_SIZE(pw, pw_name, nsize); FIELD_SIZE(pw, pw_passwd, psize); #ifdef HAVE_LOGIN_CAP_H FIELD_SIZE(pw, pw_class, csize); #endif FIELD_SIZE(pw, pw_gecos, gsize); FIELD_SIZE(pw, pw_dir, dsize); /* Treat shell specially since we expand "" -> _PATH_BSHELL */ ssize = strlen(pw_shell) + 1; total += ssize; if (name != NULL) total += strlen(name) + 1; /* Allocate space for struct item, struct passwd and the strings. */ if ((pwitem = calloc(1, total)) == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); debug_return_ptr(NULL); } newpw = &pwitem->pw; /* * Copy in passwd contents and make strings relative to space * at the end of the struct. */ memcpy(newpw, pw, sizeof(*pw)); cp = (char *)(pwitem + 1); FIELD_COPY(pw, newpw, pw_name, nsize); FIELD_COPY(pw, newpw, pw_passwd, psize); #ifdef HAVE_LOGIN_CAP_H FIELD_COPY(pw, newpw, pw_class, csize); #endif FIELD_COPY(pw, newpw, pw_gecos, gsize); FIELD_COPY(pw, newpw, pw_dir, dsize); /* Treat shell specially since we expand "" -> _PATH_BSHELL */ memcpy(cp, pw_shell, ssize); newpw->pw_shell = cp; cp += ssize; /* Set key and datum. */ if (name != NULL) { memcpy(cp, name, strlen(name) + 1); pwitem->cache.k.name = cp; } else { pwitem->cache.k.uid = pw->pw_uid; } pwitem->cache.d.pw = newpw; pwitem->cache.refcnt = 1; debug_return_ptr(&pwitem->cache); } /* * Dynamically allocate space for a struct item plus the key and data * elements. If name is non-NULL it is used as the key, else the * gid is the key. Fills in datum from struct group. * Returns NULL on calloc error or unknown name/id, setting errno * to ENOMEM or ENOENT respectively. */ struct cache_item * sudo_make_gritem(gid_t gid, const char *name) { char *cp; size_t nsize, psize, total, len, nmem = 0; struct cache_item_gr *gritem; struct group *gr, *newgr; debug_decl(sudo_make_gritem, SUDOERS_DEBUG_NSS); /* Look up by name or gid. */ gr = name ? getgrnam(name) : getgrgid(gid); if (gr == NULL) { errno = ENOENT; debug_return_ptr(NULL); } /* Allocate in one big chunk for easy freeing. */ total = sizeof(*gritem); FIELD_SIZE(gr, gr_name, nsize); FIELD_SIZE(gr, gr_passwd, psize); if (gr->gr_mem) { for (nmem = 0; gr->gr_mem[nmem] != NULL; nmem++) total += strlen(gr->gr_mem[nmem]) + 1; nmem++; total += sizeof(char *) * nmem; } if (name != NULL) total += strlen(name) + 1; if ((gritem = calloc(1, total)) == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); debug_return_ptr(NULL); } /* * Copy in group contents and make strings relative to space * at the end of the buffer. Note that gr_mem must come * immediately after struct group to guarantee proper alignment. */ newgr = &gritem->gr; memcpy(newgr, gr, sizeof(*gr)); cp = (char *)(gritem + 1); if (gr->gr_mem) { newgr->gr_mem = (char **)cp; cp += sizeof(char *) * nmem; for (nmem = 0; gr->gr_mem[nmem] != NULL; nmem++) { len = strlen(gr->gr_mem[nmem]) + 1; memcpy(cp, gr->gr_mem[nmem], len); newgr->gr_mem[nmem] = cp; cp += len; } newgr->gr_mem[nmem] = NULL; } FIELD_COPY(gr, newgr, gr_passwd, psize); FIELD_COPY(gr, newgr, gr_name, nsize); /* Set key and datum. */ if (name != NULL) { memcpy(cp, name, strlen(name) + 1); gritem->cache.k.name = cp; } else { gritem->cache.k.gid = gr->gr_gid; } gritem->cache.d.gr = newgr; gritem->cache.refcnt = 1; debug_return_ptr(&gritem->cache); } /* * Dynamically allocate space for a struct item plus the key and data * elements. Fills in datum from user_gids or from sudo_getgrouplist2(3). */ struct cache_item * sudo_make_gidlist_item(const struct passwd *pw, char * const *gidstrs, unsigned int type) { char *cp; size_t nsize, total; struct cache_item_gidlist *glitem; struct gid_list *gidlist; GETGROUPS_T *gids; int i, ngids; debug_decl(sudo_make_gidlist_item, SUDOERS_DEBUG_NSS); /* * Ignore supplied gids if the entry type says we must query the group db. */ if (type != ENTRY_TYPE_QUERIED && (gidstrs != NULL || (pw == sudo_user.pw && sudo_user.gids != NULL))) { if (gidstrs != NULL) { /* Use supplied gids list (string format). */ ngids = 1; for (i = 0; gidstrs[i] != NULL; i++) ngids++; gids = reallocarray(NULL, ngids, sizeof(GETGROUPS_T)); if (gids == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); debug_return_ptr(NULL); } ngids = 1; gids[0] = pw->pw_gid; for (i = 0; gidstrs[i] != NULL; i++) { const char *errstr; GETGROUPS_T gid = (gid_t) sudo_strtoid(gidstrs[i], &errstr); if (errstr != NULL) { sudo_debug_printf(SUDO_DEBUG_DIAG|SUDO_DEBUG_LINENO, "gid %s %s", gidstrs[i], errstr); continue; } if (gid != gids[0]) gids[ngids++] = gid; } } else { /* Adopt sudo_user.gids. */ gids = user_gids; ngids = user_ngids; user_gids = NULL; user_ngids = 0; } type = ENTRY_TYPE_FRONTEND; } else { type = ENTRY_TYPE_QUERIED; if (sudo_user.max_groups > 0) { ngids = sudo_user.max_groups; gids = reallocarray(NULL, ngids, sizeof(GETGROUPS_T)); if (gids == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); debug_return_ptr(NULL); } /* Clamp to max_groups if insufficient space for all groups. */ if (sudo_getgrouplist2(pw->pw_name, pw->pw_gid, &gids, &ngids) == -1) ngids = sudo_user.max_groups; } else { gids = NULL; if (sudo_getgrouplist2(pw->pw_name, pw->pw_gid, &gids, &ngids) == -1) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); debug_return_ptr(NULL); } } } if (ngids <= 0) { free(gids); errno = ENOENT; debug_return_ptr(NULL); } /* Allocate in one big chunk for easy freeing. */ nsize = strlen(pw->pw_name) + 1; total = sizeof(*glitem) + nsize; total += sizeof(gid_t *) * ngids; if ((glitem = calloc(1, total)) == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); free(gids); debug_return_ptr(NULL); } /* * Copy in group list and make pointers relative to space * at the end of the buffer. Note that the groups array must come * immediately after struct group to guarantee proper alignment. */ gidlist = &glitem->gidlist; cp = (char *)(glitem + 1); gidlist->gids = (gid_t *)cp; cp += sizeof(gid_t) * ngids; /* Set key and datum. */ memcpy(cp, pw->pw_name, nsize); glitem->cache.k.name = cp; glitem->cache.d.gidlist = gidlist; glitem->cache.refcnt = 1; glitem->cache.type = type; /* * Store group IDs. */ for (i = 0; i < ngids; i++) gidlist->gids[i] = gids[i]; gidlist->ngids = ngids; free(gids); debug_return_ptr(&glitem->cache); } /* * Dynamically allocate space for a struct item plus the key and data * elements. Fills in group names from a call to sudo_get_gidlist(). */ struct cache_item * sudo_make_grlist_item(const struct passwd *pw, char * const *unused1) { char *cp; size_t groupname_len, len, ngroups, nsize, total; struct cache_item_grlist *grlitem; struct group_list *grlist; struct gid_list *gidlist; struct group *grp = NULL; int i; debug_decl(sudo_make_grlist_item, SUDOERS_DEBUG_NSS); gidlist = sudo_get_gidlist(pw, ENTRY_TYPE_ANY); if (gidlist == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "no gid list for use %s", pw->pw_name); errno = ENOENT; debug_return_ptr(NULL); } #ifdef _SC_LOGIN_NAME_MAX groupname_len = MAX(sysconf(_SC_LOGIN_NAME_MAX), 32); #else groupname_len = MAX(LOGIN_NAME_MAX, 32); #endif /* Allocate in one big chunk for easy freeing. */ nsize = strlen(pw->pw_name) + 1; total = sizeof(*grlitem) + nsize; total += sizeof(char *) * gidlist->ngids; total += groupname_len * gidlist->ngids; again: if ((grlitem = calloc(1, total)) == NULL) { sudo_debug_printf(SUDO_DEBUG_ERROR|SUDO_DEBUG_LINENO, "unable to allocate memory"); sudo_gidlist_delref(gidlist); debug_return_ptr(NULL); } /* * Copy in group list and make pointers relative to space * at the end of the buffer. Note that the groups array must come * immediately after struct group to guarantee proper alignment. */ grlist = &grlitem->grlist; cp = (char *)(grlitem + 1); grlist->groups = (char **)cp; cp += sizeof(char *) * gidlist->ngids; /* Set key and datum. */ memcpy(cp, pw->pw_name, nsize); grlitem->cache.k.name = cp; grlitem->cache.d.grlist = grlist; grlitem->cache.refcnt = 1; cp += nsize; /* * Resolve and store group names by ID. */ #ifdef HAVE_SETAUTHDB if (grp == NULL) aix_setauthdb((char *) pw->pw_name, NULL); #endif ngroups = 0; for (i = 0; i < gidlist->ngids; i++) { if ((grp = sudo_getgrgid(gidlist->gids[i])) != NULL) { len = strlen(grp->gr_name) + 1; if (cp - (char *)grlitem + len > total) { total += len + groupname_len; free(grlitem); sudo_gr_delref(grp); goto again; } memcpy(cp, grp->gr_name, len); grlist->groups[ngroups++] = cp; cp += len; sudo_gr_delref(grp); } } grlist->ngroups = ngroups; sudo_gidlist_delref(gidlist); #ifdef HAVE_SETAUTHDB aix_restoreauthdb(); #endif debug_return_ptr(&grlitem->cache); }