/* * sandbox.c * * Main sandbox related functions. * * Copyright 1999-2008 Gentoo Foundation * Licensed under the GPL-2 * * Some parts might have Copyright: * * Copyright (C) 2002 Brad House */ #include "headers.h" #include "sbutil.h" #include "sandbox.h" /* The C library might have a macro for this. */ #undef dprintf static int print_debug = 0; #define dprintf(fmt, args...) do { if (print_debug) printf(fmt, ## args); } while (0) #define dputs(str) do { if (print_debug) puts(str); } while (0) int (*sbio_open)(const char *, int, mode_t) = (void *)open; FILE *(*sbio_popen)(const char *, const char *) = popen; volatile static int stop_called = 0; volatile static pid_t child_pid = 0; static const char sandbox_banner[] = "============================= Gentoo path sandbox =============================="; static const char sandbox_footer[] = "--------------------------------------------------------------------------------"; const char *sbio_message_path; const char sbio_fallback_path[] = "/dev/stderr"; static int setup_sandbox(struct sandbox_info_t *sandbox_info, bool interactive) { if (NULL != getenv(ENV_PORTAGE_TMPDIR)) { /* Portage handle setting SANDBOX_WRITE itself. */ sandbox_info->work_dir[0] = '\0'; } else { if (NULL == getcwd(sandbox_info->work_dir, SB_PATH_MAX)) { sb_pwarn("failed to get current directory"); return -1; } if (interactive) setenv(ENV_SANDBOX_WORKDIR, sandbox_info->work_dir, 1); } if (-1 == get_tmp_dir(sandbox_info->tmp_dir)) { sb_pwarn("failed to get tmp_dir"); return -1; } setenv(ENV_TMPDIR, sandbox_info->tmp_dir, 1); sandbox_info->home_dir = getenv("HOME"); if (!sandbox_info->home_dir) { sandbox_info->home_dir = sandbox_info->tmp_dir; setenv("HOME", sandbox_info->home_dir, 1); } /* Generate sandbox lib path */ get_sandbox_lib(sandbox_info->sandbox_lib); /* Generate sandbox bashrc path */ get_sandbox_rc(sandbox_info->sandbox_rc); /* Generate sandbox log full path */ get_sandbox_log(sandbox_info->sandbox_log, sandbox_info->tmp_dir); if (rc_file_exists(sandbox_info->sandbox_log)) { if (-1 == unlink(sandbox_info->sandbox_log)) { sb_pwarn("could not unlink old log file: %s", sandbox_info->sandbox_log); return -1; } } /* Generate sandbox debug log full path */ get_sandbox_debug_log(sandbox_info->sandbox_debug_log, sandbox_info->tmp_dir); if (rc_file_exists(sandbox_info->sandbox_debug_log)) { if (-1 == unlink(sandbox_info->sandbox_debug_log)) { sb_pwarn("could not unlink old debug log file: %s", sandbox_info->sandbox_debug_log); return -1; } } /* Generate sandbox message path -- this process's stderr */ const char *fdpath = sb_get_fd_dir(); if (realpath(fdpath, sandbox_info->sandbox_message_path) == NULL) { sb_pwarn("could not read fd path: %s", fdpath); if (realpath(sbio_fallback_path, sandbox_info->sandbox_message_path)) { sb_pwarn("could not read stderr path: %s", sbio_fallback_path); /* fuck it */ strcpy(sandbox_info->sandbox_message_path, sbio_fallback_path); } } else { /* Do not resolve the target of stderr because it could be something * that doesn't exist on the fs. Like a pipe (`tee` and such). */ strcat(sandbox_info->sandbox_message_path, "/2"); } return 0; } static void print_sandbox_log(char *sandbox_log) { int sandbox_log_file; size_t len; char buffer[8192]; sandbox_log_file = sb_open(sandbox_log, O_RDONLY, 0); if (-1 == sandbox_log_file) { sb_pwarn("could not open log file: %s", sandbox_log); return; } sb_eerror("--------------------------- ACCESS VIOLATION SUMMARY ---------------------------\n"); sb_eerror("LOG FILE: \"%s\"\n", sandbox_log); while (1) { len = sb_read(sandbox_log_file, buffer, sizeof(buffer)); if (len == -1) { sb_pwarn("sb_read(logfile) failed"); break; } else if (!len) break; sb_eerror("\n%s", buffer); } sb_close(sandbox_log_file); sb_eerror("--------------------------------------------------------------------------------\n"); } static int stop_count = 5; static void stop(int signum) { if (0 == stop_called) { stop_called = signum; sb_warn("caught signal %d in pid %d", signum, getpid()); } else if (--stop_count) { sb_warn("Send signal %i more time%s to force SIGKILL", stop_count, stop_count == 1 ? "" : "s"); } else { /* This really should kill all children; see usr1_handler. */ kill(child_pid, SIGKILL); stop_count = 1; } } static void usr1_handler(int signum, siginfo_t *siginfo, void *ucontext) { if (0 == stop_called) { stop_called = signum; sb_warn("caught signal %d in pid %d", signum, getpid()); /* FIXME: This is really bad form, as we should kill the whole process * tree, but currently that is too much work and not worth the * effort. Thus we only kill the calling process and our child * for now. */ if (siginfo->si_pid > 0) kill(siginfo->si_pid, SIGKILL); kill(child_pid, SIGKILL); } else sb_warn("signal already caught and busy still cleaning up!"); } static int spawn_shell(char *argv_bash[], char **env, int debug) { int status = 0; int ret = 0; child_pid = opt_use_namespaces ? setup_namespaces() : fork(); /* Child's process */ if (0 == child_pid) { int ret = execve(argv_bash[0], argv_bash, env); sb_pwarn("failed to exec child"); _exit(ret); } else if (child_pid < 0) { if (debug) sb_pwarn("process failed to spawn!"); return 1; } /* fork() creates a copy of this, so no need to use more memory than * absolutely needed. */ str_list_free(argv_bash); str_list_free(env); ret = waitpid(child_pid, &status, 0); if (-1 == ret) { sb_pwarn("failed to waitpid for child"); return 1; } else if (status != 0) { if (WIFSIGNALED(status)) psignal(WTERMSIG(status), "Sandboxed process killed by signal"); else if (debug) sb_warn("process returned with failed exit status %d!", WEXITSTATUS(status)); return status; } return 0; } int main(int argc, char **argv) { int sandbox_log_presence = 0; struct sandbox_info_t sandbox_info; char **sandbox_environ; char **argv_bash = NULL; char *run_str = "-c"; /* Process the sandbox opts and leave argc/argv for the target. */ parseargs(argc, argv); argc -= optind - 1; argv[optind - 1] = argv[0]; argv += optind - 1; /* Only print info if called with no arguments .... */ if (argc < 2) print_debug = 1; dputs(sandbox_banner); /* check if a sandbox is already running */ if (!is_env_on(ENV_SANDBOX_TESTING)) if (NULL != getenv(ENV_SANDBOX_ACTIVE)) sb_err("not launching a new sandbox as one is already running in this process hierarchy"); /* determine the location of all the sandbox support files */ dputs("Detection of the support files."); if (-1 == setup_sandbox(&sandbox_info, print_debug)) sb_err("failed to setup sandbox"); /* verify the existance of required files */ dputs("Verification of the required files."); if (!rc_file_exists(sandbox_info.sandbox_rc)) sb_perr("could not open the sandbox rc file: %s", sandbox_info.sandbox_rc); /* set up the required environment variables */ dputs("Setting up the required environment variables."); /* If not in portage, cd into it work directory */ if ('\0' != sandbox_info.work_dir[0]) if (chdir(sandbox_info.work_dir)) sb_perr("chdir(%s) failed", sandbox_info.work_dir); /* Setup the child environment stuff. * XXX: We free this in spawn_shell(). */ sandbox_environ = setup_environ(&sandbox_info); if (NULL == sandbox_environ) goto oom_error; /* Setup bash argv */ str_list_add_item_copy(argv_bash, "/bin/bash", oom_error); str_list_add_item_copy(argv_bash, "-rcfile", oom_error); str_list_add_item_copy(argv_bash, sandbox_info.sandbox_rc, oom_error); if (argc >= 2) { int i; size_t cmdlen; char *cmd = NULL; str_list_add_item_copy(argv_bash, run_str, oom_error); str_list_add_item_copy(argv_bash, argv[1], oom_error); cmdlen = strlen(argv_bash[4]); for (i = 2; i < argc; i++) { size_t arglen = strlen(argv[i]); argv_bash[4] = xrealloc(argv_bash[4], cmdlen + arglen + 2); argv_bash[4][cmdlen] = ' '; memcpy(argv_bash[4] + cmdlen + 1, argv[i], arglen); cmdlen += arglen + 1; argv_bash[4][cmdlen] = '\0'; } } #ifdef HAVE_PRCTL /* Lock down access to elevated privileges. In practice, this will block * use of tools like su and sudo, and will allow use of seccomp bpf. */ # ifdef PR_SET_NO_NEW_PRIVS if (prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0) == -1) { /* Ignore EINVAL in case we're on old kernels. Unfortunately we can't * differentiate between EINVAL due to unsupported PR_xxx and EINVAL * due to bad 2nd/3rd/4th/5th args. */ if (errno != EINVAL) sb_eerror("prctl(PR_SET_NO_NEW_PRIVS) failed"); } # endif #endif /* Set up the required signal handlers */ int sigs[] = { SIGHUP, SIGINT, SIGQUIT, SIGTERM, SIGUSR1, }; struct sigaction act_new, act_old[ARRAY_SIZE(sigs)]; size_t si = 0; #define wsigaction() \ do { \ if (sigaction(sigs[si], &act_new, &act_old[si])) \ sb_pwarn("unable to bind signal %i", sigs[si]); \ else if (act_old[si].sa_handler != SIG_DFL && \ act_old[si].sa_handler != SIG_IGN) \ sb_warn("signal %i already had a handler ...", sigs[si]); \ ++si; \ } while (0) sigemptyset(&act_new.sa_mask); act_new.sa_sigaction = NULL; act_new.sa_handler = stop; act_new.sa_flags = SA_RESTART; wsigaction(); wsigaction(); wsigaction(); wsigaction(); sigemptyset(&act_new.sa_mask); act_new.sa_handler = NULL; act_new.sa_sigaction = usr1_handler; act_new.sa_flags = SA_SIGINFO | SA_RESTART; wsigaction(); /* Allow SIGHUP to be ignored in case people are running `nohup ...` #217898 */ if (act_old[0].sa_handler == SIG_IGN) sigaction(SIGHUP, &act_old[0], NULL); /* STARTING PROTECTED ENVIRONMENT */ dputs("The protected environment has been started."); dputs(sandbox_footer); dputs("Process being started in forked instance."); /* Start Bash */ int shell_exit = spawn_shell(argv_bash, sandbox_environ, print_debug); /* As spawn_shell() free both argv_bash and sandbox_environ, make sure * we do not run into issues in future if we need a OOM error below * this ... */ argv_bash = NULL; sandbox_environ = NULL; dputs("Cleaning up sandbox process"); dputs(sandbox_banner); dputs("The protected environment has been shut down."); if (rc_file_exists(sandbox_info.sandbox_log)) { sandbox_log_presence = 1; print_sandbox_log(sandbox_info.sandbox_log); } else dputs(sandbox_footer); /* Do the right thing and pass the signal back up. See: * https://www.cons.org/cracauer/sigint.html */ if (stop_called != SIGUSR1 && WIFSIGNALED(shell_exit)) { int signum = WTERMSIG(shell_exit); for (si = 0; si < ARRAY_SIZE(sigs); ++si) sigaction(sigs[si], &act_old[si], NULL); kill(getpid(), signum); return 128 + signum; } else if (WIFEXITED(shell_exit)) shell_exit = WEXITSTATUS(shell_exit); else shell_exit = 1; /* ??? */ if (!is_env_on(ENV_SANDBOX_TESTING)) if (sandbox_log_presence && shell_exit == 0) shell_exit = 1; return shell_exit; oom_error: if (NULL != argv_bash) str_list_free(argv_bash); sb_perr("out of memory (environ)"); }