/* $NetBSD: sftp-usergroup.c,v 1.2.2.1 2023/11/02 22:15:22 sborrill Exp $ */ /* * Copyright (c) 2022 Damien 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. */ /* sftp client user/group lookup and caching */ #include "includes.h" __RCSID("$NetBSD: sftp-usergroup.c,v 1.2.2.1 2023/11/02 22:15:22 sborrill Exp $"); #include #include #include #include #include #include #include "log.h" #include "xmalloc.h" #include "sftp-common.h" #include "sftp-client.h" #include "sftp-usergroup.h" /* Tree of id, name */ struct idname { u_int id; char *name; RB_ENTRY(idname) entry; /* XXX implement bounded cache as TAILQ */ }; static int idname_cmp(struct idname *a, struct idname *b) { if (a->id == b->id) return 0; return a->id > b->id ? 1 : -1; } RB_HEAD(idname_tree, idname); RB_GENERATE_STATIC(idname_tree, idname, entry, idname_cmp) static struct idname_tree user_idname = RB_INITIALIZER(&user_idname); static struct idname_tree group_idname = RB_INITIALIZER(&group_idname); static void idname_free(struct idname *idname) { if (idname == NULL) return; free(idname->name); free(idname); } static void idname_enter(struct idname_tree *tree, u_int id, const char *name) { struct idname *idname; if ((idname = xcalloc(1, sizeof(*idname))) == NULL) fatal_f("alloc"); idname->id = id; idname->name = xstrdup(name); if (RB_INSERT(idname_tree, tree, idname) != NULL) idname_free(idname); } static const char * idname_lookup(struct idname_tree *tree, u_int id) { struct idname idname, *found; memset(&idname, 0, sizeof(idname)); idname.id = id; if ((found = RB_FIND(idname_tree, tree, &idname)) != NULL) return found->name; return NULL; } static void freenames(char **names, u_int nnames) { u_int i; if (names == NULL) return; for (i = 0; i < nnames; i++) free(names[i]); free(names); } static void lookup_and_record(struct sftp_conn *conn, u_int *uids, u_int nuids, u_int *gids, u_int ngids) { int r; u_int i; char **usernames = NULL, **groupnames = NULL; if ((r = sftp_get_users_groups_by_id(conn, uids, nuids, gids, ngids, &usernames, &groupnames)) != 0) { debug_fr(r, "sftp_get_users_groups_by_id"); return; } for (i = 0; i < nuids; i++) { if (usernames[i] == NULL) { debug3_f("uid %u not resolved", uids[i]); continue; } debug3_f("record uid %u => \"%s\"", uids[i], usernames[i]); idname_enter(&user_idname, uids[i], usernames[i]); } for (i = 0; i < ngids; i++) { if (groupnames[i] == NULL) { debug3_f("gid %u not resolved", gids[i]); continue; } debug3_f("record gid %u => \"%s\"", gids[i], groupnames[i]); idname_enter(&group_idname, gids[i], groupnames[i]); } freenames(usernames, nuids); freenames(groupnames, ngids); } static int has_id(u_int id, u_int *ids, u_int nids) { u_int i; if (nids == 0) return 0; /* XXX O(N^2) */ for (i = 0; i < nids; i++) { if (ids[i] == id) break; } return i < nids; } static void collect_ids_from_glob(glob_t *g, int user, u_int **idsp, u_int *nidsp) { u_int id, i, n = 0, *ids = NULL; for (i = 0; g->gl_pathv[i] != NULL; i++) { struct stat *stp; #if GLOB_KEEPSTAT != 0 stp = g->gl_statv[i]; #else struct stat st; if (lstat(g->gl_pathv[i], stp = &st) == -1) { error("no stat information for %s", g->gl_pathv[i]); continue; } #endif if (user) { if (ruser_name(stp->st_uid) != NULL) continue; /* Already seen */ id = (u_int)stp->st_uid; } else { if (rgroup_name(stp->st_gid) != NULL) continue; /* Already seen */ id = (u_int)stp->st_gid; } if (has_id(id, ids, n)) continue; ids = xrecallocarray(ids, n, n + 1, sizeof(*ids)); ids[n++] = id; } *idsp = ids; *nidsp = n; } void get_remote_user_groups_from_glob(struct sftp_conn *conn, glob_t *g) { u_int *uids = NULL, nuids = 0, *gids = NULL, ngids = 0; if (!sftp_can_get_users_groups_by_id(conn)) return; collect_ids_from_glob(g, 1, &uids, &nuids); collect_ids_from_glob(g, 0, &gids, &ngids); lookup_and_record(conn, uids, nuids, gids, ngids); free(uids); free(gids); } static void collect_ids_from_dirents(SFTP_DIRENT **d, int user, u_int **idsp, u_int *nidsp) { u_int id, i, n = 0, *ids = NULL; for (i = 0; d[i] != NULL; i++) { if (user) { if (ruser_name((uid_t)(d[i]->a.uid)) != NULL) continue; /* Already seen */ id = d[i]->a.uid; } else { if (rgroup_name((gid_t)(d[i]->a.gid)) != NULL) continue; /* Already seen */ id = d[i]->a.gid; } if (has_id(id, ids, n)) continue; ids = xrecallocarray(ids, n, n + 1, sizeof(*ids)); ids[n++] = id; } *idsp = ids; *nidsp = n; } void get_remote_user_groups_from_dirents(struct sftp_conn *conn, SFTP_DIRENT **d) { u_int *uids = NULL, nuids = 0, *gids = NULL, ngids = 0; if (!sftp_can_get_users_groups_by_id(conn)) return; collect_ids_from_dirents(d, 1, &uids, &nuids); collect_ids_from_dirents(d, 0, &gids, &ngids); lookup_and_record(conn, uids, nuids, gids, ngids); free(uids); free(gids); } const char * ruser_name(uid_t uid) { return idname_lookup(&user_idname, (u_int)uid); } const char * rgroup_name(uid_t gid) { return idname_lookup(&group_idname, (u_int)gid); }