/** * mds — A micro-display server * Copyright © 2014 Mattias Andrée (maandree@member.fsf.org) * * 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, see . */ #include "mds-base.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define try(INSTRUCTION) if ((r = INSTRUCTION)) goto fail /** * Number of elements in `argv` */ int argc = 0; /** * Command line arguments */ char** argv = NULL; /** * Whether the server has been respawn * rather than this being the initial spawn. * This will be at least as true as `is_reexec`. */ int is_respawn = -1; /** * Whether the server is continuing * from a self-reexecution */ int is_reexec = 0; /** * Whether the server should do its * best to resist event triggered death */ int is_immortal = 0; /** * Whether to fork the process when the * server has been properly initialised */ int on_init_fork = 0; /** * Command the run (`NULL` for none) when * the server has been properly initialised */ char* on_init_sh = NULL; /** * The thread that runs the master loop */ pthread_t master_thread; /** * Whether the server has been signaled to terminate */ volatile sig_atomic_t terminating = 0; /** * Whether the server has been signaled to re-exec */ volatile sig_atomic_t reexecing = 0; /** * The file descriptor of the socket * that is connected to the server */ int socket_fd = -1; /** * Parse command line arguments * * @return Non-zero on error */ int __attribute__((weak)) parse_cmdline(void) { int i; #if (LIBEXEC_ARGC_EXTRA_LIMIT < 2) # error LIBEXEC_ARGC_EXTRA_LIMIT is too small, need at least 2. #endif /* Parse command line arguments. */ for (i = 1; i < argc; i++) { char* arg = argv[i]; int v; if ((v = strequals(arg, "--initial-spawn")) || /* Initial spawn? */ strequals(arg, "--respawn")) /* Respawning after crash? */ { exit_if (is_respawn == v, eprintf("conflicting arguments %s and %s cannot be combined.", "--initial-spawn", "--respawn");); is_respawn = !v; } else if (strequals(arg, "--re-exec")) /* Re-exec state-marshal. */ is_reexec = 1; else if (startswith(arg, "--alarm=")) /* Schedule an alarm signal for forced abort. */ alarm(min(atou(arg + strlen("--alarm=")), 60)); /* At most 1 minute. */ else if (strequals(arg, "--on-init-fork")) /* Fork process when initialised. */ on_init_fork = 1; else if (startswith(arg, "--on-init-sh=")) /* Run a command when initialised. */ on_init_sh = arg + strlen("--on-init-sh="); else if (strequals(arg, "--immortal")) /* I return to serve. */ is_immortal = 1; } if (is_reexec) { is_respawn = 1; eprint("re-exec performed."); } /* Check that manditory arguments have been specified. */ if (server_characteristics.require_respawn_info) { exit_if (is_respawn < 0, eprintf("missing state argument, require either %s or %s.", "--initial-spawn", "--respawn");); } return 0; } /** * Connect to the display * * @return Non-zero on error */ int __attribute__((weak)) connect_to_display(void) { char* display; char pathname[PATH_MAX]; struct sockaddr_un address; display = getenv("MDS_DISPLAY"); exit_if ((display == NULL) || (strchr(display, ':') == NULL), eprint("MDS_DISPLAY has not set.");); exit_if (display[0] != ':', eprint("Remote mds sessions are not supported.");); xsnprintf(pathname, "%s/%s.socket", MDS_RUNTIME_ROOT_DIRECTORY, display + 1); address.sun_family = AF_UNIX; strcpy(address.sun_path, pathname); fail_if ((socket_fd = socket(AF_UNIX, SOCK_STREAM, 0)) < 0); fail_if (connect(socket_fd, (struct sockaddr*)(&address), sizeof(address)) < 0); return 0; pfail: xperror(*argv); if (socket_fd >= 0) close(socket_fd); return 1; } /** * Put the server into a fork of itself as * described by the `fork_for_safety` * server characteristics * * @return Zero on success, -1 on error */ static int server_initialised_fork_for_safety(void) { unsigned pending_alarm = alarm(0); /* Disable the alarm. */ pid_t pid = fork(); int status; if (pid == (pid_t)-1) { xperror(*argv); eprint("while forking for safety."); return -1; } else if (pid == 0) /* Reinstate the alarm for the child. */ alarm(pending_alarm); else { /* SIGDANGER cannot hurt the parent process. */ if (xsigaction(SIGDANGER, SIG_IGN) < 0) { xperror(*argv); eprint("WARNING! parent process failed to sig up ignoring of SIGDANGER."); } /* Wait for the child process to die. */ if (uninterruptable_waitpid(pid, &status, 0) == (pid_t)-1) { xperror(*argv); kill(pid, SIGABRT); sleep(5); } /* Clean up after us. */ fork_cleanup(status); /* Die like the child. */ if (WIFEXITED(status)) exit(WEXITSTATUS(status)); else if (WIFSIGNALED(status)) raise(WTERMSIG(status)); exit(1); } return 0; } /** * This function should be called when the server has * been properly initialised but before initialisation * of anything that is removed at forking is initialised * * @return Zero on success, -1 on error */ int __attribute__((weak)) server_initialised(void) { pid_t r; if (on_init_fork && (r = fork())) { if (r == (pid_t)-1) { xperror(*argv); eprint("while forking at completed initialisation."); return -1; } else exit(0); } if (on_init_sh != NULL) system(on_init_sh); if (server_characteristics.fork_for_safety) return server_initialised_fork_for_safety(); return 0; } /** * This function is called when an intraprocess signal * that used to send a notification to a thread * * @param signo The signal that has been received */ static void __attribute__((const)) received_noop(int signo) { (void) signo; } # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wsuggest-attribute=const" /** * This function should be implemented by the actual server implementation * if the server is multi-threaded * * Send a singal to all threads except the current thread * * @param signo The signal */ void __attribute__((weak)) signal_all(int signo) { (void) signo; } # pragma GCC diagnostic pop /** * This function is called when a signal that * signals the server to re-exec has been received * * When this function is invoked, it should set `reexecing` and * `terminating` to a non-zero value * * @param signo The signal that has been received */ void __attribute__((weak)) received_reexec(int signo) { (void) signo; if (reexecing == 0) { reexecing = terminating = 1; eprint("re-exec signal received."); signal_all(signo); } } /** * This function is called when a signal that * signals the server to terminate has been received * * When this function is invoked, it should set `terminating` to a non-zero value * * @param signo The signal that has been received */ void __attribute__((weak)) received_terminate(int signo) { (void) signo; if (terminating == 0) { terminating = 1; eprint("terminate signal received."); signal_all(signo); } } /** * Unmarshal the server's saved state * * @return Non-zero on error */ static int base_unmarshal(void) { pid_t pid = getpid(); int reexec_fd, r; char shm_path[NAME_MAX + 1]; char* state_buf; char* state_buf_; /* Acquire access to marshalled data. */ xsnprintf(shm_path, SHM_PATH_PATTERN, (intmax_t)pid); reexec_fd = shm_open(shm_path, O_RDONLY, S_IRWXU); fail_if (reexec_fd < 0); /* Critical. */ /* Read the state file. */ fail_if ((state_buf = state_buf_ = full_read(reexec_fd, NULL)) == NULL); /* Release resources. */ close(reexec_fd); shm_unlink(shm_path); /* Unmarshal state. */ /* Get the marshal protocal version. Not needed, there is only the one version right now. */ /* buf_get(state_buf_, int, 0, MDS_BASE_VARS_VERSION); */ buf_next(state_buf_, int, 1); buf_get_next(state_buf_, int, socket_fd); r = unmarshal_server(state_buf_); /* Release resources. */ free(state_buf); /* Recover after failure. */ if (r) fail_if (reexec_failure_recover()); return 0; pfail: xperror(*argv); return 1; } /** * Marshal the server's state * * @param reexec_fd The file descriptor of the file into which the state shall be saved * @return Non-zero on error */ static int base_marshal(int reexec_fd) { size_t state_n; char* state_buf; char* state_buf_; /* Calculate the size of the state data when it is marshalled. */ state_n = 2 * sizeof(int); state_n += marshal_server_size(); /* Allocate a buffer for all data. */ state_buf = state_buf_ = malloc(state_n); fail_if (state_buf == NULL); /* Marshal the state of the server. */ /* Tell the new version of the program what version of the program it is marshalling. */ buf_set_next(state_buf_, int, MDS_BASE_VARS_VERSION); /* Store the state. */ buf_set_next(state_buf_, int, socket_fd); fail_if (marshal_server(state_buf_)); /* Send the marshalled data into the file. */ fail_if (full_write(reexec_fd, state_buf, state_n) < 0); free(state_buf); return 0; pfail: xperror(*argv); free(state_buf); return 1; } /** * Marshal and re-execute the server * * This function only returns on error, * in which case the error will have been printed. */ static void perform_reexec(void) { pid_t pid = getpid(); int reexec_fd; char shm_path[NAME_MAX + 1]; /* Marshal the state of the server. */ xsnprintf(shm_path, SHM_PATH_PATTERN, (unsigned long int)pid); reexec_fd = shm_open(shm_path, O_RDWR | O_CREAT | O_EXCL, S_IRWXU); if (reexec_fd < 0) { xperror(*argv); return; } if (base_marshal(reexec_fd) < 0) goto fail; close(reexec_fd); reexec_fd = -1; /* Re-exec the server. */ reexec_server(argc, argv, is_reexec); xperror(*argv); fail: if (reexec_fd >= 0) close(reexec_fd); shm_unlink(shm_path); } /** * Entry point of the server * * @param argc_ Number of elements in `argv_` * @param argv_ Command line arguments * @return Non-zero on error */ int main(int argc_, char** argv_) { int r = 1; argc = argc_; argv = argv_; if (server_characteristics.require_privileges == 0) /* Drop privileges like it's hot. */ fail_if (drop_privileges()); /* Use /proc/self/exe when re:exec-ing */ if (prepare_reexec()) xperror(*argv); /* Sanity check the number of command line arguments. */ exit_if (argc > ARGC_LIMIT + LIBEXEC_ARGC_EXTRA_LIMIT, eprint("that number of arguments is ridiculous, I will not allow it.");); /* Parse command line arguments. */ try (parse_cmdline()); /* Store the current thread so it can be killed from elsewhere. */ master_thread = pthread_self(); /* Set up signal traps for all especially handled signals. */ trap_signals(); /* Initialise the server. */ try (preinitialise_server()); if (is_reexec == 0) { if (server_characteristics.require_display) /* Connect to the display. */ try (connect_to_display()); /* Initialise the server. */ try (initialise_server()); } else { /* Unmarshal the server's saved state. */ try (base_unmarshal()); } /* Initialise the server. */ try (postinitialise_server()); /* Run the server. */ try (master_loop()); /* Re-exec server if signal to re-exec. */ if (reexecing) { perform_reexec(); goto fail; } close(socket_fd); return 0; pfail: xperror(*argv); r = 1; fail: if (socket_fd >= 0) close(socket_fd); return r; } /** * This function is called when `SIGDANGER` is received * of `server_characteristics.danger_is_deadly` is non-zero * unless the signal handler for `SIGDANGER` has been * modified by the server implementation. * * This function will abruptly kill the process * * @param signo The signal that has been received */ static void commit_suicide(int signo) { (void) signo; eprint("SIGDANGER received, process is killing itself to free memory."); /* abort(), but on the process rather than the thread. */ xsigaction(SIGABRT, SIG_DFL); kill(getpid(), SIGABRT); /* Just in case. */ xperror(*argv); _exit(1); } /** * Set up signal traps for all especially handled signals * * @return Non-zero on error */ int trap_signals(void) { /* Make the server update without all slaves dying on SIGUPDATE. */ fail_if (xsigaction(SIGUPDATE, received_reexec) < 0); /* Implement clean exit on SIGTERM. */ fail_if (xsigaction(SIGTERM, received_terminate) < 0); /* Implement clean exit on SIGINT. */ fail_if (xsigaction(SIGINT, received_terminate) < 0); /* Implement silent interruption on SIGRTMIN. */ fail_if (xsigaction(SIGRTMIN, received_noop) < 0); /* Implement death on SIGDANGER or ignoral of SIGDANGER. */ if (server_characteristics.danger_is_deadly && !is_immortal) { fail_if (xsigaction(SIGDANGER, commit_suicide) < 0); } else { fail_if (xsigaction(SIGDANGER, SIG_IGN) < 0); } return 0; pfail: xperror(*argv); return 1; } /** * This function should be implemented by the actual server implementation * if the server has set `server_characteristics.fork_for_safety` to be * true * * This function is called by the parent server process when the * child server process exits, if the server has completed its * initialisation * * @param status The status the child died with */ void __attribute__((weak)) fork_cleanup(int status) { (void) status; fprintf(stderr, "Something is wrong, `fork_cleanup` has been called but not reimplemented."); } #undef try