/* * Handle the mapping of uid/gid and user/group names between systems. * * Copyright (C) 1996 Andrew Tridgell * Copyright (C) 1996 Paul Mackerras * Copyright (C) 2004-2008 Wayne Davison * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, visit the http://fsf.org website. */ /* If the source username/group does not exist on the target then use * the numeric IDs. Never do any mapping for uid=0 or gid=0 as these * are special. */ #include "rsync.h" #include "io.h" extern int verbose; extern int am_root; extern int preserve_uid; extern int preserve_gid; extern int preserve_acls; extern int numeric_ids; #ifdef HAVE_GETGROUPS # ifndef GETGROUPS_T # define GETGROUPS_T gid_t # endif #endif #define GID_NONE ((gid_t)-1) struct idlist { struct idlist *next; const char *name; id_t id, id2; uint16 flags; }; static struct idlist *uidlist; static struct idlist *gidlist; static struct idlist *add_to_list(struct idlist **root, id_t id, const char *name, id_t id2, uint16 flags) { struct idlist *node = new(struct idlist); if (!node) out_of_memory("add_to_list"); node->next = *root; node->name = name; node->id = id; node->id2 = id2; node->flags = flags; *root = node; return node; } /* turn a uid into a user name */ static const char *uid_to_name(uid_t uid) { struct passwd *pass = getpwuid(uid); if (pass) return strdup(pass->pw_name); return NULL; } /* turn a gid into a group name */ static const char *gid_to_name(gid_t gid) { struct group *grp = getgrgid(gid); if (grp) return strdup(grp->gr_name); return NULL; } static uid_t map_uid(uid_t id, const char *name) { uid_t uid; if (id != 0 && name_to_uid(name, &uid)) return uid; return id; } static gid_t map_gid(gid_t id, const char *name) { gid_t gid; if (id != 0 && name_to_gid(name, &gid)) return gid; return id; } static int is_in_group(gid_t gid) { #ifdef HAVE_GETGROUPS static gid_t last_in = GID_NONE, last_out; static int ngroups = -2; static GETGROUPS_T *gidset; int n; if (gid == last_in) return last_out; if (ngroups < -1) { gid_t mygid = MY_GID(); if ((ngroups = getgroups(0, NULL)) < 0) ngroups = 0; gidset = new_array(GETGROUPS_T, ngroups+1); if (!gidset) out_of_memory("is_in_group"); if (ngroups > 0) ngroups = getgroups(ngroups, gidset); /* The default gid might not be in the list on some systems. */ for (n = 0; n < ngroups; n++) { if (gidset[n] == mygid) break; } if (n == ngroups) gidset[ngroups++] = mygid; if (verbose > 3) { int pos; char *gidbuf = new_array(char, ngroups*21+32); if (!gidbuf) out_of_memory("is_in_group"); pos = snprintf(gidbuf, 32, "process has %d gid%s: ", ngroups, ngroups == 1? "" : "s"); for (n = 0; n < ngroups; n++) { pos += snprintf(gidbuf+pos, 21, " %d", (int)gidset[n]); } rprintf(FINFO, "%s\n", gidbuf); free(gidbuf); } } last_in = gid; for (n = 0; n < ngroups; n++) { if (gidset[n] == gid) return last_out = 1; } return last_out = 0; #else static gid_t mygid = GID_NONE; if (mygid == GID_NONE) { mygid = MY_GID(); if (verbose > 3) rprintf(FINFO, "process has gid %u\n", (unsigned)mygid); } return gid == mygid; #endif } /* Add a uid to the list of uids. Only called on receiving side. */ static struct idlist *recv_add_uid(uid_t id, const char *name) { uid_t id2 = name ? map_uid(id, name) : id; struct idlist *node; node = add_to_list(&uidlist, id, name, id2, 0); if (verbose > 3) { rprintf(FINFO, "uid %u(%s) maps to %u\n", (unsigned)id, name ? name : "", (unsigned)id2); } return node; } /* Add a gid to the list of gids. Only called on receiving side. */ static struct idlist *recv_add_gid(gid_t id, const char *name) { gid_t id2 = name ? map_gid(id, name) : id; struct idlist *node; node = add_to_list(&gidlist, id, name, id2, !am_root && !is_in_group(id2) ? FLAG_SKIP_GROUP : 0); if (verbose > 3) { rprintf(FINFO, "gid %u(%s) maps to %u\n", (unsigned)id, name ? name : "", (unsigned)id2); } return node; } /* this function is a definate candidate for a faster algorithm */ uid_t match_uid(uid_t uid) { static uid_t last_in, last_out; struct idlist *list; if (uid == 0) return 0; if (uid == last_in) return last_out; last_in = uid; for (list = uidlist; list; list = list->next) { if (list->id == uid) return last_out = list->id2; } return last_out = uid; } gid_t match_gid(gid_t gid, uint16 *flags_ptr) { static struct idlist *last = NULL; struct idlist *list; if (last && gid == last->id) list = last; else { for (list = gidlist; list; list = list->next) { if (list->id == gid) break; } if (!list) list = recv_add_gid(gid, NULL); last = list; } if (flags_ptr && list->flags & FLAG_SKIP_GROUP) *flags_ptr |= FLAG_SKIP_GROUP; return list->id2; } /* Add a uid to the list of uids. Only called on sending side. */ const char *add_uid(uid_t uid) { struct idlist *list; struct idlist *node; if (uid == 0) /* don't map root */ return NULL; for (list = uidlist; list; list = list->next) { if (list->id == uid) return NULL; } node = add_to_list(&uidlist, uid, uid_to_name(uid), 0, 0); return node->name; } /* Add a gid to the list of gids. Only called on sending side. */ const char *add_gid(gid_t gid) { struct idlist *list; struct idlist *node; if (gid == 0) /* don't map root */ return NULL; for (list = gidlist; list; list = list->next) { if (list->id == gid) return NULL; } node = add_to_list(&gidlist, gid, gid_to_name(gid), 0, 0); return node->name; } /* send a complete uid/gid mapping to the peer */ void send_id_list(int f) { struct idlist *list; if (preserve_uid || preserve_acls) { int len; /* we send sequences of uid/byte-length/name */ for (list = uidlist; list; list = list->next) { if (!list->name) continue; len = strlen(list->name); write_varint30(f, list->id); write_byte(f, len); write_buf(f, list->name, len); } /* terminate the uid list with a 0 uid. We explicitly exclude * 0 from the list */ write_varint30(f, 0); } if (preserve_gid || preserve_acls) { int len; for (list = gidlist; list; list = list->next) { if (!list->name) continue; len = strlen(list->name); write_varint30(f, list->id); write_byte(f, len); write_buf(f, list->name, len); } write_varint30(f, 0); } } uid_t recv_user_name(int f, uid_t uid) { struct idlist *node; int len = read_byte(f); char *name = new_array(char, len+1); if (!name) out_of_memory("recv_user_name"); read_sbuf(f, name, len); if (numeric_ids < 0) { free(name); name = NULL; } node = recv_add_uid(uid, name); /* node keeps name's memory */ return node->id2; } gid_t recv_group_name(int f, gid_t gid, uint16 *flags_ptr) { struct idlist *node; int len = read_byte(f); char *name = new_array(char, len+1); if (!name) out_of_memory("recv_group_name"); read_sbuf(f, name, len); if (numeric_ids < 0) { free(name); name = NULL; } node = recv_add_gid(gid, name); /* node keeps name's memory */ if (flags_ptr && node->flags & FLAG_SKIP_GROUP) *flags_ptr |= FLAG_SKIP_GROUP; return node->id2; } /* recv a complete uid/gid mapping from the peer and map the uid/gid * in the file list to local names */ void recv_id_list(int f, struct file_list *flist) { id_t id; int i; if ((preserve_uid || preserve_acls) && numeric_ids <= 0) { /* read the uid list */ while ((id = read_varint30(f)) != 0) recv_user_name(f, id); } if ((preserve_gid || preserve_acls) && numeric_ids <= 0) { /* read the gid list */ while ((id = read_varint30(f)) != 0) recv_group_name(f, id, NULL); } /* Now convert all the uids/gids from sender values to our values. */ #ifdef SUPPORT_ACLS if (preserve_acls && !numeric_ids) match_acl_ids(); #endif if (am_root && preserve_uid && !numeric_ids) { for (i = 0; i < flist->used; i++) F_OWNER(flist->files[i]) = match_uid(F_OWNER(flist->files[i])); } if (preserve_gid && (!am_root || !numeric_ids)) { for (i = 0; i < flist->used; i++) { F_GROUP(flist->files[i]) = match_gid(F_GROUP(flist->files[i]), &flist->files[i]->flags); } } }