/** * 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.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /** * Number of elements in `argv` */ static int argc; /** * Command line arguments */ static char** argv; /** * The master server */ static const char* master_server = LIBEXECDIR "/mds-server"; /** * Entry point of the program * * @param argc_ Number of elements in `argv_` * @param argv_ Command line arguments * @return Non-zero on error */ int main(int argc_, char** argv_) { int fd = -1; int got_master_server = 0; struct sockaddr_un address; char pathname[PATH_MAX]; char piddata[64]; unsigned int display; FILE *f; int rc; int j; argc = argc_; argv = argv_; /* Sanity check the number of command line arguments. */ if (argc > ARGC_LIMIT) { eprint("that number of arguments is ridiculous, I will not allow it."); return 1; } /* Parse command line arguments. */ for (j = 1; j < argc; j++) { char* arg = argv[j]; if (startswith(arg, "--master-server=")) /* Master server. */ { if (got_master_server) { eprintf("duplicate declaration of %s.", "--master-server"); return 1; } got_master_server = 1; master_server = arg + strlen("--master-server="); } } /* Stymied if the effective user is not root. */ if (geteuid() != ROOT_USER_UID) { eprint("the effective user is not root, cannot continue."); return 1; } /* Set up to ignore SIGUSR1, used in mds for re-exec, but we cannot re-exec. */ if (xsigaction(SIGUSR1, SIG_IGN) < 0) { perror(*argv); eprint("while ignoring the SIGUSR1 signal."); } /* Create directory for socket files, PID files and such. */ if (create_directory_root(MDS_RUNTIME_ROOT_DIRECTORY)) return 1; /* Determine display index. */ for (display = 0; display < DISPLAY_MAX; display++) { xsnprintf(pathname, "%s/%u.pid", MDS_RUNTIME_ROOT_DIRECTORY, display); fd = open(pathname, O_CREAT | O_EXCL); if (fd == -1) { /* Reuse display index not no longer used. */ size_t read_len; f = fopen(pathname, "r"); if (f == NULL) /* Race, or error? */ { perror(*argv); eprintf("while opening the file: %s", pathname); continue; } read_len = fread(piddata, 1, sizeof(piddata) / sizeof(char), f); if (ferror(f)) /* Failed to read. */ { perror(*argv); eprintf("while reading the file: %s", pathname); } else if (feof(f) == 0) /* Did not read everything. */ eprint("the content of a PID file is longer than expected."); else { pid_t pid = 0; size_t i, n = read_len - 1; for (i = 0; i < n; i++) { char c = piddata[i]; if (('0' <= c) && (c <= '9')) pid = pid * 10 + (c & 15); else { eprint("the content of a PID file is invalid."); goto bad; } } if (piddata[n] != '\n') { eprint("the content of a PID file is invalid."); goto bad; } if (kill(pid, 0) < 0) /* Check if the PID is still allocated to any process. */ if (errno == ESRCH) /* PID is not used. */ { fclose(f); close(fd); break; } } bad: fclose(f); continue; } close(fd); break; } if (display == DISPLAY_MAX) { eprint("sorry, too many displays on the system."); return 1; /* Yes, the directory could have been removed, but it probably was not. */ } /* Create PID file. */ f = fopen(pathname, "w"); if (f == NULL) { perror(*argv); eprintf("while opening the file: %s", pathname); return 1; } xsnprintf(piddata, "%u\n", getpid()); if (fwrite(piddata, 1, strlen(piddata), f) < strlen(piddata)) { fclose(f); if (unlink(pathname) < 0) perror(*argv); return -1; } fflush(f); fclose(f); /* Create data storage directory. */ if (create_directory_root(MDS_STORAGE_ROOT_DIRECTORY)) goto fail; xsnprintf(pathname, "%s/%u.data", MDS_STORAGE_ROOT_DIRECTORY, display); if (unlink_recursive(pathname) || create_directory_user(pathname)) goto fail; /* Save MDS_DISPLAY environment variable. */ xsnprintf(pathname, /* Excuse the reuse without renaming. */ ":%u", display); setenv(DISPLAY_ENV, pathname, 1); /* Create display socket. */ xsnprintf(pathname, "%s/%u.socket", MDS_RUNTIME_ROOT_DIRECTORY, display); address.sun_family = AF_UNIX; strcpy(address.sun_path, pathname); unlink(pathname); fd = socket(AF_UNIX, SOCK_STREAM, 0); if ((fchmod(fd, S_IRWXU) < 0) || (fchown(fd, getuid(), NOBODY_GROUP_GID) < 0)) { perror(*argv); eprint("while making anonymous socket private to the real user."); goto fail; } if (bind(fd, (struct sockaddr*)(&address), sizeof(address)) < 0) { perror(*argv); eprintf("while binding socket to file: %s", pathname); goto fail; } /* Start listening on socket. */ if (listen(fd, SOMAXCONN) < 0) { perror(*argv); eprintf("while setting up listening on socket: %s", pathname); goto fail; } /* Start master server and respawn it if it crashes. */ rc = spawn_and_respawn_server(fd); done: /* Shutdown, close and remove the socket. */ if (fd != -1) { shutdown(fd, SHUT_RDWR); close(fd); unlink(pathname); } /* Remove PID file. */ xsnprintf(pathname, "%s/%u.pid", MDS_RUNTIME_ROOT_DIRECTORY, display); unlink(pathname); /* Remove directories. */ rmdir(MDS_RUNTIME_ROOT_DIRECTORY); /* Do not care if it fails, it is probably used by another display. */ rmdir(MDS_STORAGE_ROOT_DIRECTORY); /* Do not care if it fails, it is probably used by another display. */ xsnprintf(pathname, "%s/%u.data", MDS_STORAGE_ROOT_DIRECTORY, display); unlink_recursive(pathname); /* An error will be printed on error, do nothing more. */ return rc; fail: rc = 1; goto done; } /** * Start master server and respawn it if it crashes * * @param fd The file descriptor of the socket * @return Non-zero on error */ int spawn_and_respawn_server(int fd) { int time_error = 0; int first_spawn = 1; int rc = 0; struct timespec time_start; struct timespec time_end; char* child_args[ARGC_LIMIT + LIBEXEC_ARGC_EXTRA_LIMIT + 1]; char fdstr[12 /* strlen("--socket-fd=") */ + 64]; int i; pid_t pid; int status; child_args[0] = strdup(master_server); for (i = 1; i < argc; i++) child_args[i] = argv[i]; child_args[argc + 0] = strdup("--initial-spawn"); xsnprintf(fdstr, "--socket-fd=%i", fd); child_args[argc + 1] = fdstr; child_args[argc + 2] = NULL; #if (LIBEXEC_ARGC_EXTRA_LIMIT < 2) # error LIBEXEC_ARGC_EXTRA_LIMIT is too small, need at least 2. #endif for (;;) { pid = fork(); if (pid == (pid_t)-1) { perror(*argv); eprint("while forking."); goto fail; } if (pid) { /* Get the current time. (Start of child process.) */ time_error = (monotone(&time_start) < 0); if (time_error) { perror(*argv); eprint("while reading a monotonic clock."); } /* Wait for master server to die. */ if (waitpid(pid, &status, 0) == (pid_t)-1) { perror(*argv); eprint("while waiting for child process to exit."); goto fail; } /* If the server exited normally or SIGTERM, do not respawn. */ if (WIFEXITED(status) || (WEXITSTATUS(status) && WTERMSIG(status))) break; /* Get the current time. (End of child process.) */ time_error |= (monotone(&time_end) < 0); /* Do not respawn if we could not read the time. */ if (time_error) { perror(*argv); eprintf("%s died abnormally, not respawning because we could not read the time.", master_server); goto fail; } /* Respawn if the server did not die too fast. */ if (time_end.tv_sec - time_start.tv_sec >= RESPAWN_TIME_LIMIT_SECONDS) eprintf("%s died abnormally, respawning.", master_server); else { eprintf("%s died abnormally, died too fast, not respawning.", master_server); goto fail; } if (first_spawn) { first_spawn = 0; free(child_args[argc + 0]); child_args[argc + 0] = strdup("--respawn"); if (child_args[argc + 0] == NULL) { perror(*argv); eprint("while duplicating string."); goto fail; } } } else { rc++; /* Drop privileges. They most not be propagated non-authorised components. */ /* setgid should not be set, but just to be safe we are restoring both user and group. */ if (drop_privileges()) { perror(*argv); eprint("while dropping privileges."); goto fail; } /* Start master server. */ execv(master_server, child_args); perror(*argv); eprint("while changing execution image."); goto fail; } } rc--; fail: rc++; free(child_args[0]); free(child_args[argc + 0]); if (rc == 2) _exit(1); return rc; } /** * Create a directory owned by the root user and root group * * @param pathname The pathname of the directory to create * @return Non-zero on error */ int create_directory_root(const char* pathname) { struct stat attr; if (stat(pathname, &attr) == 0) { /* Cannot create the directory, its pathname refers to an existing. */ if (S_ISDIR(attr.st_mode) == 0) { /* But it is not a directory so we cannot continue. */ eprintf("%s already exists but is not a directory.", pathname); return 1; } } else { /* Directory is missing, create it. */ if (mkdir(pathname, S_IRWXU | S_IRGRP | S_IXGRP | S_IROTH | S_IXOTH) < 0) { if (errno != EEXIST) /* Unlikely race condition. */ { perror(*argv); eprintf("while creating directory: %s", pathname); return 1; } } else /* Set ownership. */ if (chown(pathname, ROOT_USER_UID, ROOT_GROUP_GID) < 0) { perror(*argv); eprintf("while changing owner of directory: %s", pathname); return 1; } } return 0; } /** * Create a directory owned by the real user and nobody group * * @param pathname The pathname of the directory to create * @return Non-zero on error */ int create_directory_user(const char* pathname) { struct stat attr; if (stat(pathname, &attr) == 0) { /* Cannot create the directory, its pathname refers to an existing. */ if (S_ISDIR(attr.st_mode) == 0) { /* But it is not a directory so we cannot continue. */ eprintf("%s already exists but is not a directory.", pathname); return 1; } } else { /* Directory is missing, create it. */ if (mkdir(pathname, S_IRWXU) < 0) { if (errno != EEXIST) /* Unlikely race condition. */ { perror(*argv); eprintf("while creating directory: %s", pathname); return 1; } } else /* Set ownership. */ if (chown(pathname, getuid(), NOBODY_GROUP_GID) < 0) { perror(*argv); eprintf("while changing owner of directory: %s", pathname); return 1; } } return 0; } /** * Recursively remove a directory * * @param pathname The pathname of the directory to remove * @return Non-zero on error, but zero if the directory does not exist */ int unlink_recursive(const char* pathname) { DIR* dir = opendir(pathname); int rc = 0; struct dirent* file; if (dir == NULL) { int errno_ = errno; struct stat _attr; if (stat(pathname, &_attr) < 0) return 0; errno = errno_; perror(*argv); eprintf("while examining the content of directory: %s", pathname); return 1; } while ((file = readdir(dir)) != NULL) if (strcmp(file->d_name, ".") && strcmp(file->d_name, "..")) if (unlink(file->d_name) < 0) { if (errno == EISDIR) unlink_recursive(file->d_name); else { perror(*argv); eprintf("while unlinking file: %s", file->d_name); rc = 1; goto done; } eprint("pop"); } if (rmdir(pathname) < 0) { perror(*argv); eprintf("while removing directory: %s", pathname); rc = 1; } done: closedir(dir); return rc; }