/* vi: set sw=4 ts=4: */ /* * Mini nsenter implementation for busybox. * * Copyright (C) 2016 by Bartosz Golaszewski * * Licensed under GPLv2 or later, see file LICENSE in this source tree. */ //config:config NSENTER //config: bool "nsenter" //config: default y //config: select PLATFORM_LINUX //config: help //config: Run program with namespaces of other processes. //config: //config:config FEATURE_NSENTER_LONG_OPTS //config: bool "Enable long options" //config: default y //config: depends on NSENTER && LONG_OPTS //config: help //config: Support long options for the nsenter applet. This makes //config: the busybox implementation more compatible with upstream. //applet:IF_NSENTER(APPLET(nsenter, BB_DIR_USR_BIN, BB_SUID_DROP)) //kbuild:lib-$(CONFIG_NSENTER) += nsenter.o //usage:#define nsenter_trivial_usage //usage: "[OPTIONS] [PROG [ARGS]]" //usage:#if ENABLE_FEATURE_NSENTER_LONG_OPTS //usage:#define nsenter_full_usage "\n" //usage: "\n -t, --target=PID Target process to get namespaces from" //usage: "\n -m, --mount[=FILE] Enter mount namespace" //usage: "\n -u, --uts[=FILE] Enter UTS namespace (hostname etc)" //usage: "\n -i, --ipc[=FILE] Enter System V IPC namespace" //usage: "\n -n, --net[=FILE] Enter network namespace" //usage: "\n -p, --pid[=FILE] Enter pid namespace" //usage: "\n -U, --user[=FILE] Enter user namespace" //usage: "\n -S, --setuid=UID Set uid in entered namespace" //usage: "\n -G, --setgid=GID Set gid in entered namespace" //usage: "\n --preserve-credentials Don't touch uids or gids" //usage: "\n -r, --root[=DIR] Set root directory" //usage: "\n -w, --wd[=DIR] Set working directory" //usage: "\n -F, --no-fork Don't fork before exec'ing PROG" //usage:#else //usage:#define nsenter_full_usage "\n" //usage: "\n -t PID Target process to get namespaces from" //usage: "\n -m[FILE] Enter mount namespace" //usage: "\n -u[FILE] Enter UTS namespace (hostname etc)" //usage: "\n -i[FILE] Enter System V IPC namespace" //usage: "\n -n[FILE] Enter network namespace" //usage: "\n -p[FILE] Enter pid namespace" //usage: "\n -U[FILE] Enter user namespace" //usage: "\n -S UID Set uid in entered namespace" //usage: "\n -G GID Set gid in entered namespace" //usage: "\n -r[DIR] Set root directory" //usage: "\n -w[DIR] Set working directory" //usage: "\n -F Don't fork before exec'ing PROG" //usage:#endif #include #include "libbb.h" struct namespace_descr { int flag; /* value passed to setns() */ char ns_nsfile8[8]; /* "ns/" + namespace file in process' procfs entry */ }; struct namespace_ctx { char *path; /* optional path to a custom ns file */ int fd; /* opened namespace file descriptor */ }; enum { OPT_user = 1 << 0, OPT_ipc = 1 << 1, OPT_uts = 1 << 2, OPT_network = 1 << 3, OPT_pid = 1 << 4, OPT_mount = 1 << 5, OPT_target = 1 << 6, OPT_setuid = 1 << 7, OPT_setgid = 1 << 8, OPT_root = 1 << 9, OPT_wd = 1 << 10, OPT_nofork = 1 << 11, OPT_prescred = (1 << 12) * ENABLE_FEATURE_NSENTER_LONG_OPTS, }; enum { NS_USR_POS = 0, NS_IPC_POS, NS_UTS_POS, NS_NET_POS, NS_PID_POS, NS_MNT_POS, NS_COUNT, }; /* * The order is significant in nsenter. * The user namespace comes first, so that it is entered first. * This gives an unprivileged user the potential to enter other namespaces. */ static const struct namespace_descr ns_list[] = { { CLONE_NEWUSER, "ns/user", }, { CLONE_NEWIPC, "ns/ipc", }, { CLONE_NEWUTS, "ns/uts", }, { CLONE_NEWNET, "ns/net", }, { CLONE_NEWPID, "ns/pid", }, { CLONE_NEWNS, "ns/mnt", }, }; /* * Upstream nsenter doesn't support the short option for --preserve-credentials */ static const char opt_str[] = "U::i::u::n::p::m::""t+S+G+r::w::F"; #if ENABLE_FEATURE_NSENTER_LONG_OPTS static const char nsenter_longopts[] ALIGN1 = "user\0" Optional_argument "U" "ipc\0" Optional_argument "i" "uts\0" Optional_argument "u" "network\0" Optional_argument "n" "pid\0" Optional_argument "p" "mount\0" Optional_argument "m" "target\0" Required_argument "t" "setuid\0" Required_argument "S" "setgid\0" Required_argument "G" "root\0" Optional_argument "r" "wd\0" Optional_argument "w" "no-fork\0" No_argument "F" "preserve-credentials\0" No_argument "\xff" ; #endif /* * Open a file and return the new descriptor. If a full path is provided in * fs_path, then the file to which it points is opened. Otherwise (fd_path is * NULL) the routine builds a path to a procfs file using the following * template: '/proc//'. */ static int open_by_path_or_target(const char *path, pid_t target_pid, const char *target_file) { char proc_path_buf[sizeof("/proc/%u/1234567890") + sizeof(int)*3]; if (!path) { if (target_pid == 0) { /* Example: * "nsenter -p PROG" - neither -pFILE nor -tPID given. */ bb_show_usage(); } snprintf(proc_path_buf, sizeof(proc_path_buf), "/proc/%u/%s", (unsigned)target_pid, target_file); path = proc_path_buf; } return xopen(path, O_RDONLY); } int nsenter_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int nsenter_main(int argc UNUSED_PARAM, char **argv) { int i; unsigned int opts; const char *root_dir_str = NULL; const char *wd_str = NULL; struct namespace_ctx ns_ctx_list[NS_COUNT]; int setgroups_failed; int root_fd, wd_fd; int target_pid = 0; int uid = 0; int gid = 0; memset(ns_ctx_list, 0, sizeof(ns_ctx_list)); IF_FEATURE_NSENTER_LONG_OPTS(applet_long_options = nsenter_longopts); opts = getopt32(argv, opt_str, &ns_ctx_list[NS_USR_POS].path, &ns_ctx_list[NS_IPC_POS].path, &ns_ctx_list[NS_UTS_POS].path, &ns_ctx_list[NS_NET_POS].path, &ns_ctx_list[NS_PID_POS].path, &ns_ctx_list[NS_MNT_POS].path, &target_pid, &uid, &gid, &root_dir_str, &wd_str ); argv += optind; root_fd = wd_fd = -1; if (opts & OPT_root) root_fd = open_by_path_or_target(root_dir_str, target_pid, "root"); if (opts & OPT_wd) wd_fd = open_by_path_or_target(wd_str, target_pid, "cwd"); for (i = 0; i < NS_COUNT; i++) { const struct namespace_descr *ns = &ns_list[i]; struct namespace_ctx *ns_ctx = &ns_ctx_list[i]; ns_ctx->fd = -1; if (opts & (1 << i)) ns_ctx->fd = open_by_path_or_target(ns_ctx->path, target_pid, ns->ns_nsfile8); } /* * Entering the user namespace without --preserve-credentials implies * --setuid & --setgid and clearing root's groups. */ setgroups_failed = 0; if ((opts & OPT_user) && !(opts & OPT_prescred)) { opts |= (OPT_setuid | OPT_setgid); /* * We call setgroups() before and after setns() and only * bail-out if it fails twice. */ setgroups_failed = (setgroups(0, NULL) < 0); } for (i = 0; i < NS_COUNT; i++) { const struct namespace_descr *ns = &ns_list[i]; struct namespace_ctx *ns_ctx = &ns_ctx_list[i]; if (ns_ctx->fd < 0) continue; if (setns(ns_ctx->fd, ns->flag)) { bb_perror_msg_and_die( "setns(): can't reassociate to namespace '%s'", ns->ns_nsfile8 + 3 /* skip over "ns/" */ ); } close(ns_ctx->fd); /* should close fds, to not confuse exec'ed PROG */ /*ns_ctx->fd = -1;*/ } if (root_fd >= 0) { if (wd_fd < 0) { /* * Save the current working directory if we're not * changing it. */ wd_fd = xopen(".", O_RDONLY); } xfchdir(root_fd); xchroot("."); close(root_fd); /*root_fd = -1;*/ } if (wd_fd >= 0) { xfchdir(wd_fd); close(wd_fd); /*wd_fd = -1;*/ } /* * Entering the pid namespace implies forking unless it's been * explicitly requested by the user not to. */ if (!(opts & OPT_nofork) && (opts & OPT_pid)) { xvfork_parent_waits_and_exits(); /* Child continues */ } if (opts & OPT_setgid) { if (setgroups(0, NULL) < 0 && setgroups_failed) bb_perror_msg_and_die("setgroups"); xsetgid(gid); } if (opts & OPT_setuid) xsetuid(uid); exec_prog_or_SHELL(argv); }