// SPDX-License-Identifier: GPL-3.0-or-later #include "plugins_d.h" char *plugin_directories[PLUGINSD_MAX_DIRECTORIES] = { NULL }; struct plugind *pluginsd_root = NULL; static inline int pluginsd_space(char c) { switch(c) { case ' ': case '\t': case '\r': case '\n': case '=': return 1; default: return 0; } } inline int config_isspace(char c) { switch(c) { case ' ': case '\t': case '\r': case '\n': case ',': return 1; default: return 0; } } // split a text into words, respecting quotes static inline int quoted_strings_splitter(char *str, char **words, int max_words, int (*custom_isspace)(char)) { char *s = str, quote = 0; int i = 0, j; // skip all white space while(unlikely(custom_isspace(*s))) s++; // check for quote if(unlikely(*s == '\'' || *s == '"')) { quote = *s; // remember the quote s++; // skip the quote } // store the first word words[i++] = s; // while we have something while(likely(*s)) { // if it is escape if(unlikely(*s == '\\' && s[1])) { s += 2; continue; } // if it is quote else if(unlikely(*s == quote)) { quote = 0; *s = ' '; continue; } // if it is a space else if(unlikely(quote == 0 && custom_isspace(*s))) { // terminate the word *s++ = '\0'; // skip all white space while(likely(custom_isspace(*s))) s++; // check for quote if(unlikely(*s == '\'' || *s == '"')) { quote = *s; // remember the quote s++; // skip the quote } // if we reached the end, stop if(unlikely(!*s)) break; // store the next word if(likely(i < max_words)) words[i++] = s; else break; } // anything else else s++; } // terminate the words j = i; while(likely(j < max_words)) words[j++] = NULL; return i; } inline int pluginsd_initialize_plugin_directories() { char plugins_dirs[(FILENAME_MAX * 2) + 1]; static char *plugins_dir_list = NULL; // Get the configuration entry if(likely(!plugins_dir_list)) { snprintfz(plugins_dirs, FILENAME_MAX * 2, "\"%s\" \"%s/custom-plugins.d\"", PLUGINS_DIR, CONFIG_DIR); plugins_dir_list = strdupz(config_get(CONFIG_SECTION_GLOBAL, "plugins directory", plugins_dirs)); } // Parse it and store it to plugin directories return quoted_strings_splitter(plugins_dir_list, plugin_directories, PLUGINSD_MAX_DIRECTORIES, config_isspace); } inline int pluginsd_split_words(char *str, char **words, int max_words) { return quoted_strings_splitter(str, words, max_words, pluginsd_space); } #ifdef ENABLE_HTTPS /** * Update Buffer * * Update the temporary buffer used to parse data received from slave * * @param output is a pointer to the vector where I will store the data * @param ssl is the connection pointer with the server * * @return it returns the total of bytes read on success and a negative number otherwise */ int pluginsd_update_buffer(char *output, SSL *ssl) { ERR_clear_error(); int bytesleft = SSL_read(ssl, output, PLUGINSD_LINE_MAX_SSL_READ); if(bytesleft <= 0) { int sslerrno = SSL_get_error(ssl, bytesleft); switch(sslerrno) { case SSL_ERROR_WANT_READ: case SSL_ERROR_WANT_WRITE: { break; } default: { u_long err; char buf[256]; int counter = 0; while ((err = ERR_get_error()) != 0) { ERR_error_string_n(err, buf, sizeof(buf)); info("%d SSL Handshake error (%s) on socket %d ", counter++, ERR_error_string((long)SSL_get_error(ssl, bytesleft), NULL), SSL_get_fd(ssl)); } } } } else { output[bytesleft] = '\0'; } return bytesleft; } /** * Get from Buffer * * Get data to process from buffer * * @param output is the output vector that will be used to parse the string. * @param bytesread the amount of bytes read in the previous iteration. * @param input the input vector where there are data to process * @param ssl a pointer to the connection with the server * @param src the first address of the input, because sometime will be necessary to restart the addr with it. * * @return It returns a pointer for the next iteration on success and NULL otherwise. */ char * pluginsd_get_from_buffer(char *output, int *bytesread, char *input, SSL *ssl, char *src) { int copying = 1; char *endbuffer; size_t length; while(copying) { if(*bytesread > 0) { endbuffer = strchr(input, '\n'); if(endbuffer) { copying = 0; endbuffer++; //Advance due the fact I wanna copy '\n' length = endbuffer - input; *bytesread -= length; memcpy(output, input, length); output += length; *output = '\0'; input += length; }else { length = strlen(input); memcpy(output, input, length); output += length; input = src; *bytesread = pluginsd_update_buffer(input, ssl); if(*bytesread <= 0) { input = NULL; copying = 0; } } }else { //reduce sample of bytes read, print the length *bytesread = pluginsd_update_buffer(input, ssl); if(*bytesread <= 0) { input = NULL; copying = 0; } } } return input; } #endif inline size_t pluginsd_process(RRDHOST *host, struct plugind *cd, FILE *fp, int trust_durations) { int enabled = cd->enabled; if(!fp || !enabled) { cd->enabled = 0; return 0; } size_t count = 0; char line[PLUGINSD_LINE_MAX + 1]; char *words[PLUGINSD_MAX_WORDS] = { NULL }; uint32_t BEGIN_HASH = simple_hash(PLUGINSD_KEYWORD_BEGIN); uint32_t END_HASH = simple_hash(PLUGINSD_KEYWORD_END); uint32_t FLUSH_HASH = simple_hash(PLUGINSD_KEYWORD_FLUSH); uint32_t CHART_HASH = simple_hash(PLUGINSD_KEYWORD_CHART); uint32_t DIMENSION_HASH = simple_hash(PLUGINSD_KEYWORD_DIMENSION); uint32_t DISABLE_HASH = simple_hash(PLUGINSD_KEYWORD_DISABLE); uint32_t VARIABLE_HASH = simple_hash(PLUGINSD_KEYWORD_VARIABLE); RRDSET *st = NULL; uint32_t hash; errno = 0; clearerr(fp); if(unlikely(fileno(fp) == -1)) { error("file descriptor given is not a valid stream"); goto cleanup; } #ifdef ENABLE_HTTPS int bytesleft = 0; char tmpbuffer[PLUGINSD_LINE_MAX]; char *readfrom = NULL; #endif char *r = NULL; while(!ferror(fp)) { if(unlikely(netdata_exit)) break; #ifdef ENABLE_HTTPS int normalread = 1; if(netdata_srv_ctx) { if(host->ssl.conn && !host->ssl.flags) { if(!bytesleft) { r = line; readfrom = tmpbuffer; bytesleft = pluginsd_update_buffer(readfrom, host->ssl.conn); if(bytesleft <= 0) { break; } } readfrom = pluginsd_get_from_buffer(line, &bytesleft, readfrom, host->ssl.conn, tmpbuffer); if(!readfrom) { r = NULL; } normalread = 0; } } if(normalread) { r = fgets(line, PLUGINSD_LINE_MAX, fp); } #else r = fgets(line, PLUGINSD_LINE_MAX, fp); #endif if(unlikely(!r)) { if(feof(fp)) error("read failed: end of file"); else if(ferror(fp)) error("read failed: input error"); else error("read failed: unknown error"); break; } if(unlikely(netdata_exit)) break; line[PLUGINSD_LINE_MAX] = '\0'; int w = pluginsd_split_words(line, words, PLUGINSD_MAX_WORDS); char *s = words[0]; if(unlikely(!s || !*s || !w)) { continue; } // debug(D_PLUGINSD, "PLUGINSD: words 0='%s' 1='%s' 2='%s' 3='%s' 4='%s' 5='%s' 6='%s' 7='%s' 8='%s' 9='%s'", words[0], words[1], words[2], words[3], words[4], words[5], words[6], words[7], words[8], words[9]); if(likely(!simple_hash_strcmp(s, "SET", &hash))) { char *dimension = words[1]; char *value = words[2]; if(unlikely(!dimension || !*dimension)) { error("requested a SET on chart '%s' of host '%s', without a dimension. Disabling it.", st->id, host->hostname); enabled = 0; break; } if(unlikely(!value || !*value)) value = NULL; if(unlikely(!st)) { error("requested a SET on dimension %s with value %s on host '%s', without a BEGIN. Disabling it.", dimension, value?value:"", host->hostname); enabled = 0; break; } if(unlikely(rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) debug(D_PLUGINSD, "is setting dimension %s/%s to %s", st->id, dimension, value?value:""); if(value) { RRDDIM *rd = rrddim_find(st, dimension); if(unlikely(!rd)) { error("requested a SET to dimension with id '%s' on stats '%s' (%s) on host '%s', which does not exist. Disabling it.", dimension, st->name, st->id, st->rrdhost->hostname); enabled = 0; break; } else rrddim_set_by_pointer(st, rd, strtoll(value, NULL, 0)); } } else if(likely(hash == BEGIN_HASH && !strcmp(s, PLUGINSD_KEYWORD_BEGIN))) { char *id = words[1]; char *microseconds_txt = words[2]; if(unlikely(!id)) { error("requested a BEGIN without a chart id for host '%s'. Disabling it.", host->hostname); enabled = 0; break; } st = rrdset_find(host, id); if(unlikely(!st)) { error("requested a BEGIN on chart '%s', which does not exist on host '%s'. Disabling it.", id, host->hostname); enabled = 0; break; } if(likely(st->counter_done)) { usec_t microseconds = 0; if(microseconds_txt && *microseconds_txt) microseconds = str2ull(microseconds_txt); if(likely(microseconds)) { if(trust_durations) rrdset_next_usec_unfiltered(st, microseconds); else rrdset_next_usec(st, microseconds); } else rrdset_next(st); } } else if(likely(hash == END_HASH && !strcmp(s, PLUGINSD_KEYWORD_END))) { if(unlikely(!st)) { error("requested an END, without a BEGIN on host '%s'. Disabling it.", host->hostname); enabled = 0; break; } if(unlikely(rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) debug(D_PLUGINSD, "requested an END on chart %s", st->id); rrdset_done(st); st = NULL; count++; } else if(likely(hash == CHART_HASH && !strcmp(s, PLUGINSD_KEYWORD_CHART))) { st = NULL; char *type = words[1]; char *name = words[2]; char *title = words[3]; char *units = words[4]; char *family = words[5]; char *context = words[6]; char *chart = words[7]; char *priority_s = words[8]; char *update_every_s = words[9]; char *options = words[10]; char *plugin = words[11]; char *module = words[12]; // parse the id from type char *id = NULL; if(likely(type && (id = strchr(type, '.')))) { *id = '\0'; id++; } // make sure we have the required variables if(unlikely(!type || !*type || !id || !*id)) { error("requested a CHART, without a type.id, on host '%s'. Disabling it.", host->hostname); enabled = 0; break; } // parse the name, and make sure it does not include 'type.' if(unlikely(name && *name)) { // when data are coming from slaves // name will be type.name // so we have to remove 'type.' from name too size_t len = strlen(type); if(strncmp(type, name, len) == 0 && name[len] == '.') name = &name[len + 1]; // if the name is the same with the id, // or is just 'NULL', clear it. if(unlikely(strcmp(name, id) == 0 || strcasecmp(name, "NULL") == 0 || strcasecmp(name, "(NULL)") == 0)) name = NULL; } int priority = 1000; if(likely(priority_s && *priority_s)) priority = str2i(priority_s); int update_every = cd->update_every; if(likely(update_every_s && *update_every_s)) update_every = str2i(update_every_s); if(unlikely(!update_every)) update_every = cd->update_every; RRDSET_TYPE chart_type = RRDSET_TYPE_LINE; if(unlikely(chart)) chart_type = rrdset_type_id(chart); if(unlikely(name && !*name)) name = NULL; if(unlikely(family && !*family)) family = NULL; if(unlikely(context && !*context)) context = NULL; if(unlikely(!title)) title = ""; if(unlikely(!units)) units = "unknown"; debug(D_PLUGINSD, "creating chart type='%s', id='%s', name='%s', family='%s', context='%s', chart='%s', priority=%d, update_every=%d" , type, id , name?name:"" , family?family:"" , context?context:"" , rrdset_type_name(chart_type) , priority , update_every ); st = rrdset_create( host , type , id , name , family , context , title , units , (plugin && *plugin)?plugin:cd->filename , module , priority , update_every , chart_type ); if(options && *options) { if(strstr(options, "obsolete")) rrdset_is_obsolete(st); else rrdset_isnot_obsolete(st); if(strstr(options, "detail")) rrdset_flag_set(st, RRDSET_FLAG_DETAIL); else rrdset_flag_clear(st, RRDSET_FLAG_DETAIL); if(strstr(options, "hidden")) rrdset_flag_set(st, RRDSET_FLAG_HIDDEN); else rrdset_flag_clear(st, RRDSET_FLAG_HIDDEN); if(strstr(options, "store_first")) rrdset_flag_set(st, RRDSET_FLAG_STORE_FIRST); else rrdset_flag_clear(st, RRDSET_FLAG_STORE_FIRST); } else { rrdset_isnot_obsolete(st); rrdset_flag_clear(st, RRDSET_FLAG_DETAIL); rrdset_flag_clear(st, RRDSET_FLAG_STORE_FIRST); } } else if(likely(hash == DIMENSION_HASH && !strcmp(s, PLUGINSD_KEYWORD_DIMENSION))) { char *id = words[1]; char *name = words[2]; char *algorithm = words[3]; char *multiplier_s = words[4]; char *divisor_s = words[5]; char *options = words[6]; if(unlikely(!id || !*id)) { error("requested a DIMENSION, without an id, host '%s' and chart '%s'. Disabling it.", host->hostname, st?st->id:"UNSET"); enabled = 0; break; } if(unlikely(!st)) { error("requested a DIMENSION, without a CHART, on host '%s'. Disabling it.", host->hostname); enabled = 0; break; } long multiplier = 1; if(multiplier_s && *multiplier_s) multiplier = strtol(multiplier_s, NULL, 0); if(unlikely(!multiplier)) multiplier = 1; long divisor = 1; if(likely(divisor_s && *divisor_s)) divisor = strtol(divisor_s, NULL, 0); if(unlikely(!divisor)) divisor = 1; if(unlikely(!algorithm || !*algorithm)) algorithm = "absolute"; if(unlikely(rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) debug(D_PLUGINSD, "creating dimension in chart %s, id='%s', name='%s', algorithm='%s', multiplier=%ld, divisor=%ld, hidden='%s'" , st->id , id , name?name:"" , rrd_algorithm_name(rrd_algorithm_id(algorithm)) , multiplier , divisor , options?options:"" ); RRDDIM *rd = rrddim_add(st, id, name, multiplier, divisor, rrd_algorithm_id(algorithm)); rrddim_flag_clear(rd, RRDDIM_FLAG_HIDDEN); rrddim_flag_clear(rd, RRDDIM_FLAG_DONT_DETECT_RESETS_OR_OVERFLOWS); if(options && *options) { if(strstr(options, "obsolete") != NULL) rrddim_is_obsolete(st, rd); else rrddim_isnot_obsolete(st, rd); if(strstr(options, "hidden") != NULL) rrddim_flag_set(rd, RRDDIM_FLAG_HIDDEN); if(strstr(options, "noreset") != NULL) rrddim_flag_set(rd, RRDDIM_FLAG_DONT_DETECT_RESETS_OR_OVERFLOWS); if(strstr(options, "nooverflow") != NULL) rrddim_flag_set(rd, RRDDIM_FLAG_DONT_DETECT_RESETS_OR_OVERFLOWS); } else { rrddim_isnot_obsolete(st, rd); } } else if(likely(hash == VARIABLE_HASH && !strcmp(s, PLUGINSD_KEYWORD_VARIABLE))) { char *name = words[1]; char *value = words[2]; int global = (st)?0:1; if(name && *name) { if((strcmp(name, "GLOBAL") == 0 || strcmp(name, "HOST") == 0)) { global = 1; name = words[2]; value = words[3]; } else if((strcmp(name, "LOCAL") == 0 || strcmp(name, "CHART") == 0)) { global = 0; name = words[2]; value = words[3]; } } if(unlikely(!name || !*name)) { error("requested a VARIABLE on host '%s', without a variable name. Disabling it.", host->hostname); enabled = 0; break; } if(unlikely(!value || !*value)) value = NULL; if(value) { char *endptr = NULL; calculated_number v = (calculated_number)str2ld(value, &endptr); if(unlikely(endptr && *endptr)) { if(endptr == value) error("the value '%s' of VARIABLE '%s' on host '%s' cannot be parsed as a number", value, name, host->hostname); else error("the value '%s' of VARIABLE '%s' on host '%s' has leftovers: '%s'", value, name, host->hostname, endptr); } if(global) { RRDVAR *rv = rrdvar_custom_host_variable_create(host, name); if (rv) rrdvar_custom_host_variable_set(host, rv, v); else error("cannot find/create HOST VARIABLE '%s' on host '%s'", name, host->hostname); } else if(st) { RRDSETVAR *rs = rrdsetvar_custom_chart_variable_create(st, name); if (rs) rrdsetvar_custom_chart_variable_set(rs, v); else error("cannot find/create CHART VARIABLE '%s' on host '%s', chart '%s'", name, host->hostname, st->id); } else error("cannot find/create CHART VARIABLE '%s' on host '%s' without a chart", name, host->hostname); } else error("cannot set %s VARIABLE '%s' on host '%s' to an empty value", (global)?"HOST":"CHART", name, host->hostname); } else if(likely(hash == FLUSH_HASH && !strcmp(s, PLUGINSD_KEYWORD_FLUSH))) { debug(D_PLUGINSD, "requested a FLUSH"); st = NULL; } else if(unlikely(hash == DISABLE_HASH && !strcmp(s, PLUGINSD_KEYWORD_DISABLE))) { info("called DISABLE. Disabling it."); enabled = 0; break; } else { error("sent command '%s' which is not known by netdata, for host '%s'. Disabling it.", s, host->hostname); enabled = 0; break; } } cleanup: cd->enabled = enabled; if(likely(count)) { cd->successful_collections += count; cd->serial_failures = 0; } else cd->serial_failures++; return count; } static void pluginsd_worker_thread_cleanup(void *arg) { struct plugind *cd = (struct plugind *)arg; if(cd->enabled && !cd->obsolete) { cd->obsolete = 1; info("data collection thread exiting"); if (cd->pid) { siginfo_t info; info("killing child process pid %d", cd->pid); if (killpid(cd->pid, SIGTERM) != -1) { info("waiting for child process pid %d to exit...", cd->pid); waitid(P_PID, (id_t) cd->pid, &info, WEXITED); } cd->pid = 0; } } } #define SERIAL_FAILURES_THRESHOLD 10 static void pluginsd_worker_thread_handle_success(struct plugind *cd) { if (likely(cd->successful_collections)) { sleep((unsigned int) cd->update_every); return; } if(likely(cd->serial_failures <= SERIAL_FAILURES_THRESHOLD)) { info("'%s' (pid %d) does not generate useful output but it reports success (exits with 0). %s.", cd->fullfilename, cd->pid, cd->enabled ? "Waiting a bit before starting it again." : "Will not start it again - it is now disabled."); sleep((unsigned int) (cd->update_every * 10)); return; } if (cd->serial_failures > SERIAL_FAILURES_THRESHOLD) { error("'%s' (pid %d) does not generate useful output, although it reports success (exits with 0)." "We have tried to collect something %zu times - unsuccessfully. Disabling it.", cd->fullfilename, cd->pid, cd->serial_failures); cd->enabled = 0; return; } return; } static void pluginsd_worker_thread_handle_error(struct plugind *cd, int worker_ret_code) { if (worker_ret_code == -1) { info("'%s' (pid %d) was killed with SIGTERM. Disabling it.", cd->fullfilename, cd->pid); cd->enabled = 0; return; } if (!cd->successful_collections) { error("'%s' (pid %d) exited with error code %d and haven't collected any data. Disabling it.", cd->fullfilename, cd->pid, worker_ret_code); cd->enabled = 0; return; } if (cd->serial_failures <= SERIAL_FAILURES_THRESHOLD) { error("'%s' (pid %d) exited with error code %d, but has given useful output in the past (%zu times). %s", cd->fullfilename, cd->pid, worker_ret_code, cd->successful_collections, cd->enabled ? "Waiting a bit before starting it again." : "Will not start it again - it is disabled."); sleep((unsigned int) (cd->update_every * 10)); return; } if (cd->serial_failures > SERIAL_FAILURES_THRESHOLD) { error("'%s' (pid %d) exited with error code %d, but has given useful output in the past (%zu times)." "We tried to restart it %zu times, but it failed to generate data. Disabling it.", cd->fullfilename, cd->pid, worker_ret_code, cd->successful_collections, cd->serial_failures); cd->enabled = 0; return; } return; } #undef SERIAL_FAILURES_THRESHOLD void *pluginsd_worker_thread(void *arg) { netdata_thread_cleanup_push(pluginsd_worker_thread_cleanup, arg); struct plugind *cd = (struct plugind *)arg; cd->obsolete = 0; size_t count = 0; while(!netdata_exit) { FILE *fp = mypopen(cd->cmd, &cd->pid); if(unlikely(!fp)) { error("Cannot popen(\"%s\", \"r\").", cd->cmd); break; } info("connected to '%s' running on pid %d", cd->fullfilename, cd->pid); count = pluginsd_process(localhost, cd, fp, 0); error("'%s' (pid %d) disconnected after %zu successful data collections (ENDs).", cd->fullfilename, cd->pid, count); killpid(cd->pid, SIGTERM); int worker_ret_code = mypclose(fp, cd->pid); if (likely(worker_ret_code == 0)) pluginsd_worker_thread_handle_success(cd); else pluginsd_worker_thread_handle_error(cd, worker_ret_code); cd->pid = 0; if(unlikely(!cd->enabled)) break; } netdata_thread_cleanup_pop(1); return NULL; } static void pluginsd_main_cleanup(void *data) { struct netdata_static_thread *static_thread = (struct netdata_static_thread *)data; static_thread->enabled = NETDATA_MAIN_THREAD_EXITING; info("cleaning up..."); struct plugind *cd; for (cd = pluginsd_root; cd; cd = cd->next) { if (cd->enabled && !cd->obsolete) { info("stopping plugin thread: %s", cd->id); netdata_thread_cancel(cd->thread); } } info("cleanup completed."); static_thread->enabled = NETDATA_MAIN_THREAD_EXITED; } void *pluginsd_main(void *ptr) { netdata_thread_cleanup_push(pluginsd_main_cleanup, ptr); int automatic_run = config_get_boolean(CONFIG_SECTION_PLUGINS, "enable running new plugins", 1); int scan_frequency = (int) config_get_number(CONFIG_SECTION_PLUGINS, "check for new plugins every", 60); if(scan_frequency < 1) scan_frequency = 1; // store the errno for each plugins directory // so that we don't log broken directories on each loop int directory_errors[PLUGINSD_MAX_DIRECTORIES] = { 0 }; while(!netdata_exit) { int idx; const char *directory_name; for( idx = 0; idx < PLUGINSD_MAX_DIRECTORIES && (directory_name = plugin_directories[idx]) ; idx++ ) { if(unlikely(netdata_exit)) break; errno = 0; DIR *dir = opendir(directory_name); if(unlikely(!dir)) { if(directory_errors[idx] != errno) { directory_errors[idx] = errno; error("cannot open plugins directory '%s'", directory_name); } continue; } struct dirent *file = NULL; while(likely((file = readdir(dir)))) { if(unlikely(netdata_exit)) break; debug(D_PLUGINSD, "examining file '%s'", file->d_name); if(unlikely(strcmp(file->d_name, ".") == 0 || strcmp(file->d_name, "..") == 0)) continue; int len = (int) strlen(file->d_name); if(unlikely(len <= (int)PLUGINSD_FILE_SUFFIX_LEN)) continue; if(unlikely(strcmp(PLUGINSD_FILE_SUFFIX, &file->d_name[len - (int)PLUGINSD_FILE_SUFFIX_LEN]) != 0)) { debug(D_PLUGINSD, "file '%s' does not end in '%s'", file->d_name, PLUGINSD_FILE_SUFFIX); continue; } char pluginname[CONFIG_MAX_NAME + 1]; snprintfz(pluginname, CONFIG_MAX_NAME, "%.*s", (int)(len - PLUGINSD_FILE_SUFFIX_LEN), file->d_name); int enabled = config_get_boolean(CONFIG_SECTION_PLUGINS, pluginname, automatic_run); if(unlikely(!enabled)) { debug(D_PLUGINSD, "plugin '%s' is not enabled", file->d_name); continue; } // check if it runs already struct plugind *cd; for(cd = pluginsd_root ; cd ; cd = cd->next) if(unlikely(strcmp(cd->filename, file->d_name) == 0)) break; if(likely(cd && !cd->obsolete)) { debug(D_PLUGINSD, "plugin '%s' is already running", cd->filename); continue; } // it is not running // allocate a new one, or use the obsolete one if(unlikely(!cd)) { cd = callocz(sizeof(struct plugind), 1); snprintfz(cd->id, CONFIG_MAX_NAME, "plugin:%s", pluginname); strncpyz(cd->filename, file->d_name, FILENAME_MAX); snprintfz(cd->fullfilename, FILENAME_MAX, "%s/%s", directory_name, cd->filename); cd->enabled = enabled; cd->update_every = (int) config_get_number(cd->id, "update every", localhost->rrd_update_every); cd->started_t = now_realtime_sec(); char *def = ""; snprintfz(cd->cmd, PLUGINSD_CMD_MAX, "exec %s %d %s", cd->fullfilename, cd->update_every, config_get(cd->id, "command options", def)); // link it if(likely(pluginsd_root)) cd->next = pluginsd_root; pluginsd_root = cd; // it is not currently running cd->obsolete = 1; if(cd->enabled) { char tag[NETDATA_THREAD_TAG_MAX + 1]; snprintfz(tag, NETDATA_THREAD_TAG_MAX, "PLUGINSD[%s]", pluginname); // spawn a new thread for it netdata_thread_create(&cd->thread, tag, NETDATA_THREAD_OPTION_DEFAULT, pluginsd_worker_thread, cd); } } } closedir(dir); } sleep((unsigned int) scan_frequency); } netdata_thread_cleanup_pop(1); return NULL; }