/* Busyboxed by Denis Vlasenko */ /* TODO: depends on runit_lib.c - review and reduce/eliminate */ #include #include #include "busybox.h" #include "runit_lib.h" static int selfpipe[2]; /* state */ #define S_DOWN 0 #define S_RUN 1 #define S_FINISH 2 /* ctrl */ #define C_NOOP 0 #define C_TERM 1 #define C_PAUSE 2 /* want */ #define W_UP 0 #define W_DOWN 1 #define W_EXIT 2 struct svdir { int pid; int state; int ctrl; int want; struct taia start; int fdlock; int fdcontrol; int fdcontrolwrite; int islog; }; static struct svdir svd[2]; static int sigterm = 0; static int haslog = 0; static int pidchanged = 1; static int logpipe[2]; static char *dir; #define usage() bb_show_usage() static void fatal2_cannot(char *m1, char *m2) { bb_perror_msg_and_die("%s: fatal: cannot %s%s", dir, m1, m2); /* was exiting 111 */ } static void fatal_cannot(char *m) { fatal2_cannot(m, ""); /* was exiting 111 */ } static void fatal2x_cannot(char *m1, char *m2) { bb_error_msg_and_die("%s: fatal: cannot %s%s", dir, m1, m2); /* was exiting 111 */ } static void warn_cannot(char *m) { bb_perror_msg("%s: warning: cannot %s", dir, m); } static void warnx_cannot(char *m) { bb_error_msg("%s: warning: cannot %s", dir, m); } static void stopservice(struct svdir *); static void s_child(int sig_no) { write(selfpipe[1], "", 1); } static void s_term(int sig_no) { sigterm = 1; write(selfpipe[1], "", 1); /* XXX */ } static char *add_str(char *p, const char *to_add) { while ((*p = *to_add) != '\0') { p++; to_add++; } return p; } static int open_trunc_or_warn(const char *name) { int fd = open_trunc(name); if (fd < 0) bb_perror_msg("%s: warning: cannot open %s", dir, name); return fd; } static int rename_or_warn(const char *old, const char *new) { if (rename(old, new) == -1) { bb_perror_msg("%s: warning: cannot rename %s to %s", dir, old, new); return -1; } return 0; } static void update_status(struct svdir *s) { unsigned long l; int fd; char status[20]; /* pid */ if (pidchanged) { fd = open_trunc_or_warn("supervise/pid.new"); if (fd < 0) return; if (s->pid) { char spid[sizeof(s->pid)*3 + 2]; int size = sprintf(spid, "%d\n", s->pid); write(fd, spid, size); } close(fd); if (s->islog) { if (rename_or_warn("supervise/pid.new", "log/supervise/pid")) return; } else if (rename_or_warn("supervise/pid.new", "supervise/pid")) { return; } pidchanged = 0; } /* stat */ fd = open_trunc_or_warn("supervise/stat.new"); if (fd < -1) return; { char stat_buf[sizeof("finish, paused, got TERM, want down\n")]; char *p = stat_buf; switch (s->state) { case S_DOWN: p = add_str(p, "down"); break; case S_RUN: p = add_str(p, "run"); break; case S_FINISH: p = add_str(p, "finish"); break; } if (s->ctrl & C_PAUSE) p = add_str(p, ", paused"); if (s->ctrl & C_TERM) p = add_str(p, ", got TERM"); if (s->state != S_DOWN) switch (s->want) { case W_DOWN: p = add_str(p, ", want down"); break; case W_EXIT: p = add_str(p, ", want exit"); break; } *p++ = '\n'; write(fd, stat_buf, p - stat_buf); close(fd); } if (s->islog) { rename_or_warn("supervise/stat.new", "log/supervise/stat"); } else { rename_or_warn("supervise/stat.new", "log/supervise/stat"+4); } /* supervise compatibility */ taia_pack(status, &s->start); l = (unsigned long)s->pid; status[12] = l; l >>=8; status[13] = l; l >>=8; status[14] = l; l >>=8; status[15] = l; if (s->ctrl & C_PAUSE) status[16] = 1; else status[16] = 0; if (s->want == W_UP) status[17] = 'u'; else status[17] = 'd'; if (s->ctrl & C_TERM) status[18] = 1; else status[18] = 0; status[19] = s->state; fd = open_trunc_or_warn("supervise/status.new"); if (fd < 0) return; l = write(fd, status, sizeof status); if (l < 0) { warn_cannot("write supervise/status.new"); close(fd); unlink("supervise/status.new"); return; } close(fd); if (l < sizeof status) { warnx_cannot("write supervise/status.new: partial write"); return; } if (s->islog) { rename_or_warn("supervise/status.new", "log/supervise/status"); } else { rename_or_warn("supervise/status.new", "log/supervise/status"+4); } } static unsigned custom(struct svdir *s, char c) { int pid; int w; char a[10]; struct stat st; char *prog[2]; if (s->islog) return 0; memcpy(a, "control/?", 10); a[8] = c; if (stat(a, &st) == 0) { if (st.st_mode & S_IXUSR) { pid = fork(); if (pid == -1) { warn_cannot("fork for control/?"); return 0; } if (!pid) { if (haslog && fd_copy(1, logpipe[1]) == -1) warn_cannot("setup stdout for control/?"); prog[0] = a; prog[1] = 0; execve(a, prog, environ); fatal_cannot("run control/?"); } while (wait_pid(&w, pid) == -1) { if (errno == EINTR) continue; warn_cannot("wait for child control/?"); return 0; } return !wait_exitcode(w); } } else { if (errno == ENOENT) return 0; warn_cannot("stat control/?"); } return 0; } static void stopservice(struct svdir *s) { if (s->pid && ! custom(s, 't')) { kill(s->pid, SIGTERM); s->ctrl |=C_TERM; update_status(s); } if (s->want == W_DOWN) { kill(s->pid, SIGCONT); custom(s, 'd'); return; } if (s->want == W_EXIT) { kill(s->pid, SIGCONT); custom(s, 'x'); } } static void startservice(struct svdir *s) { int p; char *run[2]; if (s->state == S_FINISH) run[0] = "./finish"; else { run[0] = "./run"; custom(s, 'u'); } run[1] = 0; if (s->pid != 0) stopservice(s); /* should never happen */ while ((p = fork()) == -1) { warn_cannot("fork, sleeping"); sleep(5); } if (p == 0) { /* child */ if (haslog) { if (s->islog) { if (fd_copy(0, logpipe[0]) == -1) fatal_cannot("setup filedescriptor for ./log/run"); close(logpipe[1]); if (chdir("./log") == -1) fatal_cannot("change directory to ./log"); } else { if (fd_copy(1, logpipe[1]) == -1) fatal_cannot("setup filedescriptor for ./run"); close(logpipe[0]); } } sig_uncatch(sig_child); sig_unblock(sig_child); sig_uncatch(sig_term); sig_unblock(sig_term); execve(*run, run, environ); if (s->islog) fatal2_cannot("start log/", *run); else fatal2_cannot("start ", *run); } if (s->state != S_FINISH) { taia_now(&s->start); s->state = S_RUN; } s->pid = p; pidchanged = 1; s->ctrl = C_NOOP; update_status(s); } static int ctrl(struct svdir *s, char c) { switch (c) { case 'd': /* down */ s->want = W_DOWN; update_status(s); if (s->pid && s->state != S_FINISH) stopservice(s); break; case 'u': /* up */ s->want = W_UP; update_status(s); if (s->pid == 0) startservice(s); break; case 'x': /* exit */ if (s->islog) break; s->want = W_EXIT; update_status(s); if (s->pid && s->state != S_FINISH) stopservice(s); break; case 't': /* sig term */ if (s->pid && s->state != S_FINISH) stopservice(s); break; case 'k': /* sig kill */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGKILL); s->state = S_DOWN; break; case 'p': /* sig pause */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGSTOP); s->ctrl |=C_PAUSE; update_status(s); break; case 'c': /* sig cont */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGCONT); if (s->ctrl & C_PAUSE) s->ctrl &=~C_PAUSE; update_status(s); break; case 'o': /* once */ s->want = W_DOWN; update_status(s); if (!s->pid) startservice(s); break; case 'a': /* sig alarm */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGALRM); break; case 'h': /* sig hup */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGHUP); break; case 'i': /* sig int */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGINT); break; case 'q': /* sig quit */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGQUIT); break; case '1': /* sig usr1 */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGUSR1); break; case '2': /* sig usr2 */ if (s->pid && ! custom(s, c)) kill(s->pid, SIGUSR2); break; } return 1; } int runsv_main(int argc, char **argv) { struct stat s; int fd; int r; char buf[256]; if (!argv[1] || argv[2]) usage(); dir = argv[1]; if (pipe(selfpipe) == -1) fatal_cannot("create selfpipe"); coe(selfpipe[0]); coe(selfpipe[1]); ndelay_on(selfpipe[0]); ndelay_on(selfpipe[1]); sig_block(sig_child); sig_catch(sig_child, s_child); sig_block(sig_term); sig_catch(sig_term, s_term); xchdir(dir); svd[0].pid = 0; svd[0].state = S_DOWN; svd[0].ctrl = C_NOOP; svd[0].want = W_UP; svd[0].islog = 0; svd[1].pid = 0; taia_now(&svd[0].start); if (stat("down", &s) != -1) svd[0].want = W_DOWN; if (stat("log", &s) == -1) { if (errno != ENOENT) warn_cannot("stat ./log"); } else { if (!S_ISDIR(s.st_mode)) warnx_cannot("stat log/down: log is not a directory"); else { haslog = 1; svd[1].state = S_DOWN; svd[1].ctrl = C_NOOP; svd[1].want = W_UP; svd[1].islog = 1; taia_now(&svd[1].start); if (stat("log/down", &s) != -1) svd[1].want = W_DOWN; if (pipe(logpipe) == -1) fatal_cannot("create log pipe"); coe(logpipe[0]); coe(logpipe[1]); } } if (mkdir("supervise", 0700) == -1) { r = readlink("supervise", buf, 256); if (r != -1) { if (r == 256) fatal2x_cannot("readlink ./supervise: ", "name too long"); buf[r] = 0; mkdir(buf, 0700); } else { if ((errno != ENOENT) && (errno != EINVAL)) fatal_cannot("readlink ./supervise"); } } svd[0].fdlock = xopen3("log/supervise/lock"+4, O_WRONLY|O_NDELAY|O_APPEND|O_CREAT, 0600); if (lock_exnb(svd[0].fdlock) == -1) fatal_cannot("lock supervise/lock"); coe(svd[0].fdlock); if (haslog) { if (mkdir("log/supervise", 0700) == -1) { r = readlink("log/supervise", buf, 256); if (r != -1) { if (r == 256) fatal2x_cannot("readlink ./log/supervise: ", "name too long"); buf[r] = 0; fd = xopen(".", O_RDONLY|O_NDELAY); xchdir("./log"); mkdir(buf, 0700); if (fchdir(fd) == -1) fatal_cannot("change back to service directory"); close(fd); } else { if ((errno != ENOENT) && (errno != EINVAL)) fatal_cannot("readlink ./log/supervise"); } } svd[1].fdlock = xopen3("log/supervise/lock", O_WRONLY|O_NDELAY|O_APPEND|O_CREAT, 0600); if (lock_ex(svd[1].fdlock) == -1) fatal_cannot("lock log/supervise/lock"); coe(svd[1].fdlock); } fifo_make("log/supervise/control"+4, 0600); svd[0].fdcontrol = xopen("log/supervise/control"+4, O_RDONLY|O_NDELAY); coe(svd[0].fdcontrol); svd[0].fdcontrolwrite = xopen("log/supervise/control"+4, O_WRONLY|O_NDELAY); coe(svd[0].fdcontrolwrite); update_status(&svd[0]); if (haslog) { fifo_make("log/supervise/control", 0600); svd[1].fdcontrol = xopen("log/supervise/control", O_RDONLY|O_NDELAY); coe(svd[1].fdcontrol); svd[1].fdcontrolwrite = xopen("log/supervise/control", O_WRONLY|O_NDELAY); coe(svd[1].fdcontrolwrite); update_status(&svd[1]); } fifo_make("log/supervise/ok"+4, 0600); fd = xopen("log/supervise/ok"+4, O_RDONLY|O_NDELAY); coe(fd); if (haslog) { fifo_make("log/supervise/ok", 0600); fd = xopen("log/supervise/ok", O_RDONLY|O_NDELAY); coe(fd); } for (;;) { iopause_fd x[3]; struct taia deadline; struct taia now; char ch; if (haslog) if (!svd[1].pid && svd[1].want == W_UP) startservice(&svd[1]); if (!svd[0].pid) if (svd[0].want == W_UP || svd[0].state == S_FINISH) startservice(&svd[0]); x[0].fd = selfpipe[0]; x[0].events = IOPAUSE_READ; x[1].fd = svd[0].fdcontrol; x[1].events = IOPAUSE_READ; if (haslog) { x[2].fd = svd[1].fdcontrol; x[2].events = IOPAUSE_READ; } taia_now(&now); taia_uint(&deadline, 3600); taia_add(&deadline, &now, &deadline); sig_unblock(sig_term); sig_unblock(sig_child); iopause(x, 2+haslog, &deadline, &now); sig_block(sig_term); sig_block(sig_child); while (read(selfpipe[0], &ch, 1) == 1) ; for (;;) { int child; int wstat; child = wait_nohang(&wstat); if (!child) break; if ((child == -1) && (errno != EINTR)) break; if (child == svd[0].pid) { svd[0].pid = 0; pidchanged = 1; svd[0].ctrl &=~C_TERM; if (svd[0].state != S_FINISH) fd = open_read("finish"); if (fd != -1) { close(fd); svd[0].state = S_FINISH; update_status(&svd[0]); continue; } svd[0].state = S_DOWN; taia_uint(&deadline, 1); taia_add(&deadline, &svd[0].start, &deadline); taia_now(&svd[0].start); update_status(&svd[0]); if (taia_less(&svd[0].start, &deadline)) sleep(1); } if (haslog) { if (child == svd[1].pid) { svd[1].pid = 0; pidchanged = 1; svd[1].state = S_DOWN; svd[1].ctrl &=~C_TERM; taia_uint(&deadline, 1); taia_add(&deadline, &svd[1].start, &deadline); taia_now(&svd[1].start); update_status(&svd[1]); if (taia_less(&svd[1].start, &deadline)) sleep(1); } } } if (read(svd[0].fdcontrol, &ch, 1) == 1) ctrl(&svd[0], ch); if (haslog) if (read(svd[1].fdcontrol, &ch, 1) == 1) ctrl(&svd[1], ch); if (sigterm) { ctrl(&svd[0], 'x'); sigterm = 0; } if (svd[0].want == W_EXIT && svd[0].state == S_DOWN) { if (svd[1].pid == 0) _exit(0); if (svd[1].want != W_EXIT) { svd[1].want = W_EXIT; /* stopservice(&svd[1]); */ update_status(&svd[1]); close(logpipe[1]); close(logpipe[0]); //if (close(logpipe[1]) == -1) // warn_cannot("close logpipe[1]"); //if (close(logpipe[0]) == -1) // warn_cannot("close logpipe[0]"); } } } /* not reached */ return 0; }