gdmaps_t* gdmaps_test_init(const char* input_cfgdir) { dmn_init1(false, true, true, false, "gdmaps_test"); const vscf_data_t* cfg_root = conf_load_vscf(input_cfgdir); const vscf_data_t* maps_cfg = conf_get_maps(cfg_root); gdmaps_t* gdmaps = gdmaps_new(maps_cfg); vscf_destroy(cfg_root); gdmaps_load_databases(gdmaps); gdmaps_setup_watchers(gdmaps); return gdmaps; }
int main(int argc, char** argv) { // Bail out early if we don't have the right argument // count, and try to tell the user not to run us // if stderr happens to be hooked up to a terminal if(argc != 5) { fprintf(stderr, "This binary is not for human execution!\n"); exit(99); } bool debug = false; if(!strcmp(argv[1], "Y")) debug = true; bool use_syslog = false; if(!strcmp(argv[2], "S")) use_syslog = true; dmn_init1(debug, true, use_syslog, "gdnsd_extmon_helper"); // Note that gdnsd_initialize() would be standard here, but extmon_helper // is special: it doesn't actually make use of most of libgdnsd, just the // very basic compiler, allocator, and libdmn logging bits. // regardless, we seal off stdin now. We don't need it, // and this way we don't have to deal with it when // execv()-ing child commands later. if(!freopen("/dev/null", "r", stdin)) dmn_log_fatal("Cannot open /dev/null: %s", dmn_logf_strerror(errno)); // Also unconditionally unset NOTIFY_SOCKET here so that children // don't get any ideas about talking to systemd on our behalf. // (we're done using it in this process for libdmn stuff at this point) unsetenv("NOTIFY_SOCKET"); // these are the main communication pipes to the daemon/plugin plugin_read_fd = atoi(argv[3]); plugin_write_fd = atoi(argv[4]); if(plugin_read_fd < 3 || plugin_read_fd > 1000 || plugin_write_fd < 3 || plugin_write_fd > 1000) log_fatal("Invalid pipe descriptors!"); if(emc_read_exact(plugin_read_fd, "HELO")) log_fatal("Failed to read HELO from plugin"); if(emc_write_string(plugin_write_fd, "HELO_ACK", 8)) log_fatal("Failed to write HELO_ACK to plugin"); uint8_t ccount_buf[7]; if(emc_read_nbytes(plugin_read_fd, 7, ccount_buf) || strncmp((char*)ccount_buf, "CMDS:", 5)) log_fatal("Failed to read command count from plugin"); num_mons = ((unsigned)ccount_buf[5] << 8) + ccount_buf[6]; if(!num_mons) log_fatal("Received command count of zero from plugin"); mons = xcalloc(num_mons, sizeof(mon_t)); if(emc_write_string(plugin_write_fd, "CMDS_ACK", 8)) log_fatal("Failed to write CMDS_ACK to plugin"); // Note, it's merely a happy coincidence that our mons[] // indices exactly match cmd->idx numbers. Always use // the cmd->idx numbers as the official index when talking // to the main daemon! for(unsigned i = 0; i < num_mons; i++) { mons[i].cmd = emc_read_command(plugin_read_fd); if(!mons[i].cmd) log_fatal("Failed to read command %u from plugin", i); if(i != mons[i].cmd->idx) log_fatal("BUG: plugin index issues, %u vs %u", i, mons[i].cmd->idx); if(emc_write_string(plugin_write_fd, "CMD_ACK", 7)) log_fatal("Failed to write CMD_ACK for command %u to plugin", i); } if(emc_read_exact(plugin_read_fd, "END_CMDS")) log_fatal("Failed to read END_CMDS from plugin"); if(emc_write_string(plugin_write_fd, "END_CMDS_ACK", 12)) log_fatal("Failed to write END_CMDS_ACK to plugin"); // done with the serial setup, close the readpipe and go nonblocking on write for eventloop... close(plugin_read_fd); if(fcntl(plugin_write_fd, F_SETFL, (fcntl(plugin_write_fd, F_GETFL, 0)) | O_NONBLOCK) == -1) log_fatal("Failed to set O_NONBLOCK on pipe: %s", dmn_logf_errno()); // CLOEXEC the write fd so child scripts can't mess with it if(fcntl(plugin_write_fd, F_SETFD, FD_CLOEXEC)) log_fatal("Failed to set FD_CLOEXEC on plugin write fd: %s", dmn_logf_strerror(errno)); // init results-sending queue sendq_init(); // Set up libev error callback ev_set_syserr_cb(&syserr_for_ev); // Construct the default loop for the main thread struct ev_loop* def_loop = ev_default_loop(EVFLAG_AUTO); if(!def_loop) log_fatal("Could not initialize the default libev loop"); // Catch SIGINT/TERM/HUP, and do not let them prevent loop exit sigterm_watcher = xmalloc(sizeof(ev_signal)); sigint_watcher = xmalloc(sizeof(ev_signal)); sighup_watcher = xmalloc(sizeof(ev_signal)); ev_signal_init(sigterm_watcher, sig_cb, SIGTERM); ev_signal_init(sigint_watcher, sig_cb, SIGINT); ev_signal_init(sighup_watcher, sig_cb, SIGHUP); ev_signal_start(def_loop, sigterm_watcher); ev_signal_start(def_loop, sigint_watcher); ev_signal_start(def_loop, sighup_watcher); ev_unref(def_loop); ev_unref(def_loop); ev_unref(def_loop); // set up primary read/write watchers on the pipe to the daemon's plugin plugin_write_watcher = xmalloc(sizeof(ev_io)); ev_io_init(plugin_write_watcher, plugin_write_cb, plugin_write_fd, EV_WRITE); ev_set_priority(plugin_write_watcher, 1); // set up interval watchers for each monitor, initially for immediate firing // for the daemon's monitoring init cycle, then repeating every interval. for(unsigned i = 0; i < num_mons; i++) { mon_t* this_mon = &mons[i]; this_mon->interval_timer = xmalloc(sizeof(ev_timer)); ev_timer_init(this_mon->interval_timer, mon_interval_cb, 0., this_mon->cmd->interval); this_mon->interval_timer->data = this_mon; ev_set_priority(this_mon->interval_timer, 0); ev_timer_start(def_loop, this_mon->interval_timer); // initialize the other watchers in the mon_t here as well, // but do not start them (the interval callback starts them each interval) this_mon->cmd_timeout = xmalloc(sizeof(ev_timer)); ev_timer_init(this_mon->cmd_timeout, mon_timeout_cb, 0, 0); ev_set_priority(this_mon->cmd_timeout, -1); this_mon->cmd_timeout->data = this_mon; this_mon->child_watcher = xmalloc(sizeof(ev_child)); ev_child_init(this_mon->child_watcher, mon_child_cb, 0, 0); this_mon->child_watcher->data = this_mon; } log_info("gdnsd_extmon_helper running"); ev_run(def_loop, 0); // graceful shutdown should have cleared out children, but // the hard kill/wait below is for (a) ungraceful shutdown // on unexpected pipe close and (b) anything else going wrong // during graceful shutdown. bool needs_wait = false; for(unsigned i = 0; i < num_mons; i++) { if(mons[i].cmd_pid) { log_debug("not-so-graceful shutdown: sending SIGKILL to %li", (long)mons[i].cmd_pid); kill(mons[i].cmd_pid, SIGKILL); needs_wait = true; } } if(needs_wait) { unsigned i = 500; // 5s for OS to give us all the SIGKILL'd zombies while(i--) { pid_t wprv = waitpid(-1, NULL, WNOHANG); if(wprv < 0) { if(errno == ECHILD) break; else log_fatal("waitpid(-1, NULL, WNOHANG) failed: %s", dmn_logf_errno()); } if(wprv) log_debug("not-so-graceful shutdown: waitpid reaped %li", (long)wprv); const struct timespec ms_10 = { 0, 10000000 }; nanosleep(&ms_10, NULL); } } // Bye! if(killed_by) { log_info("gdnsd_extmon_helper exiting gracefully due to signal %i", killed_by); #ifdef COVERTEST_EXIT exit(0); #else raise(killed_by); #endif } else { log_info("gdnsd_extmon_helper exiting un-gracefully"); exit(42); } }
void gdmaps_test_init(const char* cfg_dir) { dmn_init1(false, true, false, "gdmaps_test"); gdnsd_initialize(cfg_dir, false); }