/************************************************************************ * IRC - Internet Relay Chat, src/api-channelmode.c * (C) 2021 Bram Matthys (Syzop) and the UnrealIRCd Team * * See file AUTHORS in IRC package for additional names of * the programmers. * * 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 1, 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, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /** @file * @brief The logging API */ #define UNREAL_LOGGER_CODE #include "unrealircd.h" // TODO: Make configurable at compile time (runtime won't do, as we haven't read the config file) #define show_event_console 0 /* Variables */ Log *logs[NUM_LOG_DESTINATIONS] = { NULL, NULL, NULL, NULL, NULL }; Log *temp_logs[NUM_LOG_DESTINATIONS] = { NULL, NULL, NULL, NULL, NULL }; static int snomask_num_destinations = 0; static char snomasks_in_use[257] = { '\0' }; static char snomasks_in_use_testing[257] = { '\0' }; /* Forward declarations */ int log_sources_match(LogSource *logsource, LogLevel loglevel, const char *subsystem, const char *event_id, int matched_already); void do_unreal_log_internal(LogLevel loglevel, const char *subsystem, const char *event_id, Client *client, int expand_msg, const char *msg, va_list vl); void log_blocks_switchover(void); /** Convert a regular string value to a JSON string. * In UnrealIRCd, this must be used instead of json_string() * as we may use non-UTF8 sequences. Also, this takes care * of using json_null() if the string was NULL, which is * usually what we want as well. * @param s Input string * @returns a json string value or json null value. */ json_t *json_string_unreal(const char *s) { static char buf[8192]; char *verified_s; if (s == NULL) return json_null(); verified_s = unrl_utf8_make_valid(s, buf, sizeof(buf), 0); return json_string(verified_s); } #define json_string __BAD___DO__NOT__USE__JSON__STRING__PLZ json_t *json_timestamp(time_t v) { const char *ts = timestamp_iso8601(v); if (ts) return json_string_unreal(ts); return json_null(); } LogType log_type_stringtoval(const char *str) { if (!strcmp(str, "json")) return LOG_TYPE_JSON; if (!strcmp(str, "text")) return LOG_TYPE_TEXT; return LOG_TYPE_INVALID; } const char *log_type_valtostring(LogType v) { switch(v) { case LOG_TYPE_TEXT: return "text"; case LOG_TYPE_JSON: return "json"; default: return NULL; } } /***** CONFIGURATION ******/ LogSource *add_log_source(const char *str) { LogSource *ls; char buf[256]; char *p; LogLevel loglevel = ULOG_INVALID; char *subsystem = NULL; char *event_id = NULL; int negative = 0; if (*str == '!') { negative = 1; strlcpy(buf, str+1, sizeof(buf)); } else { strlcpy(buf, str, sizeof(buf)); } p = strchr(buf, '.'); if (p) *p++ = '\0'; loglevel = log_level_stringtoval(buf); if (loglevel == ULOG_INVALID) { if (isupper(*buf)) event_id = buf; else subsystem = buf; } if (p) { if (isupper(*p)) { event_id = p; } else if (loglevel == ULOG_INVALID) { loglevel = log_level_stringtoval(p); if ((loglevel == ULOG_INVALID) && !subsystem) subsystem = p; } else if (!subsystem) { subsystem = p; } } ls = safe_alloc(sizeof(LogSource)); ls->loglevel = loglevel; ls->negative = negative; if (!BadPtr(subsystem)) strlcpy(ls->subsystem, subsystem, sizeof(ls->subsystem)); if (!BadPtr(event_id)) strlcpy(ls->event_id, event_id, sizeof(ls->event_id)); return ls; } void free_log_source(LogSource *l) { safe_free(l); } void free_log_sources(LogSource *l) { LogSource *l_next; for (; l; l = l_next) { l_next = l->next; free_log_source(l); } } int config_test_log(ConfigFile *conf, ConfigEntry *block) { int errors = 0; int any_sources = 0; ConfigEntry *ce, *cep, *cepp; int destinations = 0; for (ce = block->items; ce; ce = ce->next) { if (!strcmp(ce->name, "source")) { for (cep = ce->items; cep; cep = cep->next) { /* TODO: Validate the sources lightly for formatting issues */ any_sources = 1; } } else if (!strcmp(ce->name, "destination")) { for (cep = ce->items; cep; cep = cep->next) { if (!strcmp(cep->name, "snomask")) { destinations++; snomask_num_destinations++; /* We need to validate the parameter here as well */ if (!cep->value) { config_error_blank(cep->file->filename, cep->line_number, "set::logging::snomask"); errors++; } else if ((strlen(cep->value) != 1) || !(islower(cep->value[0]) || isupper(cep->value[0]))) { config_error("%s:%d: snomask must be a single letter", cep->file->filename, cep->line_number); errors++; } else { strlcat(snomasks_in_use_testing, cep->value, sizeof(snomasks_in_use_testing)); } } else if (!strcmp(cep->name, "channel")) { destinations++; /* We need to validate the parameter here as well */ if (!cep->value) { config_error_blank(cep->file->filename, cep->line_number, "set::logging::channel"); errors++; } else if (!valid_channelname(cep->value)) { config_error("%s:%d: Invalid channel name '%s'", cep->file->filename, cep->line_number, cep->value); errors++; } for (cepp = cep->items; cepp; cepp = cepp->next) { if (!strcmp(cepp->name, "color")) ; else if (!strcmp(cepp->name, "show-event")) ; else if (!strcmp(cepp->name, "json-message-tag")) ; else if (!strcmp(cepp->name, "oper-only")) ; else { config_error_unknown(cepp->file->filename, cepp->line_number, "log::destination::channel", cepp->name); errors++; } } } else if (!strcmp(cep->name, "file")) { destinations++; if (!cep->value) { config_error_blank(cep->file->filename, cep->line_number, "set::logging::file"); errors++; continue; } convert_to_absolute_path(&cep->value, LOGDIR); for (cepp = cep->items; cepp; cepp = cepp->next) { if (!strcmp(cepp->name, "type")) { if (!cepp->value) { config_error_empty(cepp->file->filename, cepp->line_number, "log", cepp->name); errors++; continue; } if (!log_type_stringtoval(cepp->value)) { config_error("%s:%i: unknown log type '%s'", cepp->file->filename, cepp->line_number, cepp->value); errors++; } } else if (!strcmp(cepp->name, "maxsize")) { if (!cepp->value) { config_error_empty(cepp->file->filename, cepp->line_number, "log", cepp->name); errors++; } } else { config_error_unknown(cepp->file->filename, cepp->line_number, "log::destination::file", cepp->name); errors++; } } } else if (!strcmp(cep->name, "remote")) { destinations++; } else if (!strcmp(cep->name, "syslog")) { destinations++; for (cepp = cep->items; cepp; cepp = cepp->next) { if (!strcmp(cepp->name, "type")) { if (!cepp->value) { config_error_empty(cepp->file->filename, cepp->line_number, "log", cepp->name); errors++; continue; } if (!log_type_stringtoval(cepp->value)) { config_error("%s:%i: unknown log type '%s'", cepp->file->filename, cepp->line_number, cepp->value); errors++; } } else { config_error_unknown(cepp->file->filename, cepp->line_number, "log::destination::syslog", cepp->name); errors++; } } } else { config_error_unknownopt(cep->file->filename, cep->line_number, "log::destination", cep->name); errors++; continue; } } } else { config_error_unknown(ce->file->filename, ce->line_number, "log", ce->name); errors++; } } if (!any_sources && !destinations) { unreal_log(ULOG_ERROR, "config", "CONFIG_OLD_LOG_BLOCK", NULL, "$config_file:$line_number: Your log block contains no sources and no destinations.\n" "The log block changed between UnrealIRCd 5 and UnrealIRCd 6, " "see https://www.unrealircd.org/docs/FAQ#old-log-block on how " "to convert it to the new syntax.", log_data_string("config_file", block->file->filename), log_data_integer("line_number", block->line_number)); errors++; return errors; } if (!any_sources) { config_error("%s:%d: log block contains no sources. Old log block perhaps?", block->file->filename, block->line_number); errors++; } if (destinations == 0) { config_error("%s:%d: log block contains no destinations. Old log block perhaps?", block->file->filename, block->line_number); errors++; } if (destinations > 1) { config_error("%s:%d: log block contains multiple destinations. This is not support... YET!", block->file->filename, block->line_number); errors++; } return errors; } int config_run_log(ConfigFile *conf, ConfigEntry *block) { ConfigEntry *ce, *cep, *cepp; LogSource *sources = NULL; int type; /* If we later allow multiple destination entries later, * then we need to 'clone' sources or work with reference counts. */ /* First, gather the source... */ for (ce = block->items; ce; ce = ce->next) { if (!strcmp(ce->name, "source")) { LogSource *s; for (cep = ce->items; cep; cep = cep->next) { s = add_log_source(cep->name); AddListItem(s, sources); } } } /* Now deal with destinations... */ for (ce = block->items; ce; ce = ce->next) { if (!strcmp(ce->name, "destination")) { for (cep = ce->items; cep; cep = cep->next) { if (!strcmp(cep->name, "snomask")) { Log *log = safe_alloc(sizeof(Log)); strlcpy(log->destination, cep->value, sizeof(log->destination)); /* destination is the snomask */ strlcat(snomasks_in_use, cep->value, sizeof(snomasks_in_use)); log->sources = sources; if (!strcmp(cep->value, "s")) AddListItem(log, temp_logs[LOG_DEST_OPER]); else AddListItem(log, temp_logs[LOG_DEST_SNOMASK]); } else if (!strcmp(cep->name, "channel")) { Log *log = safe_alloc(sizeof(Log)); strlcpy(log->destination, cep->value, sizeof(log->destination)); /* destination is the channel */ log->sources = sources; AddListItem(log, temp_logs[LOG_DEST_CHANNEL]); /* set defaults */ log->color = tempiConf.server_notice_colors; log->show_event = tempiConf.server_notice_show_event; log->json_message_tag = 1; log->oper_only = 1; /* now parse options (if any) */ for (cepp = cep->items; cepp; cepp = cepp->next) { if (!strcmp(cepp->name, "color")) log->color = config_checkval(cepp->value, CFG_YESNO); else if (!strcmp(cepp->name, "show-event")) log->show_event = config_checkval(cepp->value, CFG_YESNO); else if (!strcmp(cepp->name, "json-message-tag")) log->json_message_tag = config_checkval(cepp->value, CFG_YESNO); else if (!strcmp(cepp->name, "oper-only")) log->oper_only = config_checkval(cepp->value, CFG_YESNO); } } else if (!strcmp(cep->name, "remote")) { Log *log = safe_alloc(sizeof(Log)); /* destination stays empty */ log->sources = sources; AddListItem(log, temp_logs[LOG_DEST_REMOTE]); } else if (!strcmp(cep->name, "file") || !strcmp(cep->name, "syslog")) { Log *log; /* First check if already exists... yeah this is a bit late * and ideally would have been done in config_test but... * that would have been lots of work for a (hopefully) rare case. */ for (log = temp_logs[LOG_DEST_DISK]; log; log = log->next) { if ((log->file && !strcmp(log->file, cep->value)) || (log->filefmt && !strcmp(log->filefmt, cep->value))) { config_warn("%s:%d: Ignoring duplicate log block for file '%s'. " "You cannot have multiple log blocks logging to the same file.", cep->file->filename, cep->line_number, cep->value); free_log_sources(sources); return 0; } } log = safe_alloc(sizeof(Log)); log->sources = sources; log->logfd = -1; log->type = LOG_TYPE_TEXT; /* default */ if (!strcmp(cep->name, "syslog")) safe_strdup(log->file, "syslog"); else if (strchr(cep->value, '%')) safe_strdup(log->filefmt, cep->value); else safe_strdup(log->file, cep->value); for (cepp = cep->items; cepp; cepp = cepp->next) { if (!strcmp(cepp->name, "maxsize")) { log->maxsize = config_checkval(cepp->value,CFG_SIZE); } else if (!strcmp(cepp->name, "type")) { log->type = log_type_stringtoval(cepp->value); } } AddListItem(log, temp_logs[LOG_DEST_DISK]); } } } } return 0; } /***** RUNTIME *****/ void json_expand_client_security_groups(json_t *parent, Client *client) { SecurityGroup *s; json_t *child = json_array(); json_object_set_new(parent, "security-groups", child); /* We put known-users or unknown-users at the beginning. * The latter is special and doesn't actually exist * in the linked list, hence the special code here, * and again later in the for loop to skip it. */ if (user_allowed_by_security_group_name(client, "known-users")) json_array_append_new(child, json_string_unreal("known-users")); else json_array_append_new(child, json_string_unreal("unknown-users")); for (s = securitygroups; s; s = s->next) if (strcmp(s->name, "known-users") && user_allowed_by_security_group(client, s)) json_array_append_new(child, json_string_unreal(s->name)); } void json_expand_client(json_t *j, const char *key, Client *client, int detail) { char buf[BUFSIZE+1]; json_t *child = json_object(); json_t *user = NULL; json_object_set_new(j, key, child); /* First the information that is available for ALL client types: */ json_object_set_new(child, "name", json_string_unreal(client->name)); json_object_set_new(child, "id", json_string_unreal(client->id)); /* hostname is available for all, it just depends a bit on whether it is DNS or IP */ if (client->user && *client->user->realhost) json_object_set_new(child, "hostname", json_string_unreal(client->user->realhost)); else if (client->local && *client->local->sockhost) json_object_set_new(child, "hostname", json_string_unreal(client->local->sockhost)); else json_object_set_new(child, "hostname", json_string_unreal(GetIP(client))); /* same for ip, is there for all (well, some services pseudo-users may not have one) */ json_object_set_new(child, "ip", json_string_unreal(client->ip)); if (client->local && client->local->listener) json_object_set_new(child, "server_port", json_integer(client->local->listener->port)); if (client->local && client->local->port) json_object_set_new(child, "client_port", json_integer(client->local->port)); /* client.details is always available: it is nick!user@host, nick@host, server@host * server@ip, or just server. */ if (client->user) { snprintf(buf, sizeof(buf), "%s!%s@%s", client->name, client->user->username, client->user->realhost); json_object_set_new(child, "details", json_string_unreal(buf)); } else if (client->ip) { if (*client->name) snprintf(buf, sizeof(buf), "%s@%s", client->name, client->ip); else snprintf(buf, sizeof(buf), "[%s]", client->ip); json_object_set_new(child, "details", json_string_unreal(buf)); } else { json_object_set_new(child, "details", json_string_unreal(client->name)); } if (client->local && client->local->creationtime) json_object_set_new(child, "connected_since", json_timestamp(client->local->creationtime)); if (client->user) { char buf[512]; const char *str; /* client.user */ user = json_object(); json_object_set_new(child, "user", user); json_object_set_new(user, "username", json_string_unreal(client->user->username)); if (!BadPtr(client->info)) json_object_set_new(user, "realname", json_string_unreal(client->info)); if (client->uplink) json_object_set_new(user, "servername", json_string_unreal(client->uplink->name)); if (IsLoggedIn(client)) json_object_set_new(user, "account", json_string_unreal(client->user->account)); json_object_set_new(user, "reputation", json_integer(GetReputation(client))); json_expand_client_security_groups(user, client); /* user modes and snomasks */ get_usermode_string_r(client, buf, sizeof(buf)); json_object_set_new(user, "modes", json_string_unreal(buf+1)); if (client->user->snomask) json_object_set_new(user, "snomasks", json_string_unreal(client->user->snomask)); /* if oper then we can possibly expand a bit more */ str = get_operlogin(client); if (str) json_object_set_new(user, "operlogin", json_string_unreal(str)); str = get_operclass(client); if (str) json_object_set_new(user, "operclass", json_string_unreal(str)); } else if (IsMe(client)) { json_t *server = json_object(); json_t *features; /* client.server */ json_object_set_new(child, "server", server); if (!BadPtr(client->info)) json_object_set_new(server, "info", json_string_unreal(client->info)); json_object_set_new(server, "num_users", json_integer(client->server->users)); json_object_set_new(server, "boot_time", json_timestamp(client->server->boottime)); } else if (IsServer(client) && client->server) { /* client.server */ /* Whenever a server is expanded, which is rare, * we should probably expand as much as info as possible: */ json_t *server = json_object(); json_t *features; /* client.server */ json_object_set_new(child, "server", server); if (!BadPtr(client->info)) json_object_set_new(server, "info", json_string_unreal(client->info)); if (client->uplink) json_object_set_new(server, "uplink", json_string_unreal(client->uplink->name)); json_object_set_new(server, "num_users", json_integer(client->server->users)); json_object_set_new(server, "boot_time", json_timestamp(client->server->boottime)); json_object_set_new(server, "synced", json_boolean(client->server->flags.synced)); /* client.server.features */ features = json_object(); json_object_set_new(server, "features", features); if (!BadPtr(client->server->features.software)) json_object_set_new(features, "software", json_string_unreal(client->server->features.software)); json_object_set_new(features, "protocol", json_integer(client->server->features.protocol)); if (!BadPtr(client->server->features.usermodes)) json_object_set_new(features, "usermodes", json_string_unreal(client->server->features.usermodes)); if (!BadPtr(client->server->features.chanmodes[0])) { /* client.server.features.chanmodes (array) */ int i; json_t *chanmodes = json_array(); json_object_set_new(features, "chanmodes", chanmodes); for (i=0; i < 4; i++) json_array_append_new(chanmodes, json_string_unreal(client->server->features.chanmodes[i])); } if (!BadPtr(client->server->features.nickchars)) json_object_set_new(features, "nick_character_sets", json_string_unreal(client->server->features.nickchars)); } } void json_expand_channel(json_t *j, const char *key, Channel *channel, int detail) { char mode1[512], mode2[512], modes[512]; json_t *child = json_object(); json_object_set_new(j, key, child); json_object_set_new(child, "name", json_string_unreal(channel->name)); json_object_set_new(child, "creation_time", json_timestamp(channel->creationtime)); json_object_set_new(child, "num_users", json_integer(channel->users)); if (channel->topic) { json_object_set_new(child, "topic", json_string_unreal(channel->topic)); json_object_set_new(child, "topic_set_by", json_string_unreal(channel->topic_nick)); json_object_set_new(child, "topic_set_at", json_timestamp(channel->topic_time)); } /* Add "mode" too */ channel_modes(NULL, mode1, mode2, sizeof(mode1), sizeof(mode2), channel, 0); if (*mode2) { snprintf(modes, sizeof(modes), "%s %s", mode1+1, mode2); json_object_set_new(child, "modes", json_string_unreal(modes)); } else { json_object_set_new(child, "modes", json_string_unreal(mode1+1)); } // Possibly later: If detail is set to 1 then expand more... } const char *timestamp_iso8601_now(void) { struct timeval t; struct tm *tm; time_t sec; static char buf[64]; gettimeofday(&t, NULL); sec = t.tv_sec; tm = gmtime(&sec); snprintf(buf, sizeof(buf), "%04d-%02d-%02dT%02d:%02d:%02d.%03dZ", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec, (int)(t.tv_usec / 1000)); return buf; } const char *timestamp_iso8601(time_t v) { struct tm *tm; static char buf[64]; if (v == 0) return NULL; tm = gmtime(&v); if (tm == NULL) return NULL; snprintf(buf, sizeof(buf), "%04d-%02d-%02dT%02d:%02d:%02d.%03dZ", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec, 0); return buf; } LogData *log_data_string(const char *key, const char *str) { LogData *d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_STRING; safe_strdup(d->key, key); safe_strdup(d->value.string, str); return d; } LogData *log_data_char(const char *key, const char c) { LogData *d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_STRING; safe_strdup(d->key, key); d->value.string = safe_alloc(2); d->value.string[0] = c; d->value.string[1] = '\0'; return d; } LogData *log_data_integer(const char *key, int64_t integer) { LogData *d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_INTEGER; safe_strdup(d->key, key); d->value.integer = integer; return d; } LogData *log_data_timestamp(const char *key, time_t ts) { LogData *d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_STRING; safe_strdup(d->key, key); safe_strdup(d->value.string, timestamp_iso8601(ts)); return d; } LogData *log_data_client(const char *key, Client *client) { LogData *d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_CLIENT; safe_strdup(d->key, key); d->value.client = client; return d; } LogData *log_data_channel(const char *key, Channel *channel) { LogData *d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_CHANNEL; safe_strdup(d->key, key); d->value.channel = channel; return d; } LogData *log_data_source(const char *file, int line, const char *function) { LogData *d = safe_alloc(sizeof(LogData)); json_t *j; d->type = LOG_FIELD_OBJECT; safe_strdup(d->key, "source"); d->value.object = j = json_object(); json_object_set_new(j, "file", json_string_unreal(file)); json_object_set_new(j, "line", json_integer(line)); json_object_set_new(j, "function", json_string_unreal(function)); return d; } LogData *log_data_socket_error(int fd) { /* First, grab the error number very early here: */ #ifndef _WIN32 int sockerr = errno; #else int sockerr = WSAGetLastError(); #endif int v; int len = sizeof(v); LogData *d; json_t *j; #ifdef SO_ERROR /* Try to get the "real" error from the underlying socket. * If we succeed then we will override "sockerr" with it. */ if ((fd >= 0) && !getsockopt(fd, SOL_SOCKET, SO_ERROR, (void *)&v, &len) && v) sockerr = v; #endif d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_OBJECT; safe_strdup(d->key, "socket_error"); d->value.object = j = json_object(); json_object_set_new(j, "error_code", json_integer(sockerr)); json_object_set_new(j, "error_string", json_string_unreal(STRERROR(sockerr))); return d; } /** Populate log with the TLS error(s) stack */ LogData *log_data_tls_error(void) { LogData *d; json_t *j; json_t *error_stack; json_t *name = NULL; json_t *jt; unsigned long e; char buf[512]; static char all_errors[8192]; d = safe_alloc(sizeof(LogData)); d->type = LOG_FIELD_OBJECT; safe_strdup(d->key, "tls_error"); d->value.object = j = json_object(); error_stack = json_array(); json_object_set_new(j, "error_stack", error_stack); *all_errors = '\0'; do { json_t *obj; e = ERR_get_error(); if (e == 0) break; ERR_error_string_n(e, buf, sizeof(buf)); obj = json_object(); json_object_set_new(obj, "code", json_integer(e)); json_object_set_new(obj, "string", json_string_unreal(buf)); json_array_append_new(error_stack, obj); if (name == NULL) { /* Set tls_error.name to the first error that was encountered */ json_object_set_new(j, "name", json_string_unreal(buf)); } strlcat(all_errors, buf, sizeof(all_errors)); strlcat(all_errors, "\n", sizeof(all_errors)); } while(e); json_object_set_new(j, "all", json_string_unreal(all_errors)); return d; } LogData *log_data_link_block(ConfigItem_link *link) { LogData *d = safe_alloc(sizeof(LogData)); json_t *j; char *bind_ip; d->type = LOG_FIELD_OBJECT; safe_strdup(d->key, "link_block"); d->value.object = j = json_object(); json_object_set_new(j, "name", json_string_unreal(link->servername)); json_object_set_new(j, "hostname", json_string_unreal(link->outgoing.hostname)); json_object_set_new(j, "ip", json_string_unreal(link->connect_ip)); json_object_set_new(j, "port", json_integer(link->outgoing.port)); if (!link->outgoing.bind_ip && iConf.link_bindip) bind_ip = iConf.link_bindip; else bind_ip = link->outgoing.bind_ip; if (!bind_ip) bind_ip = "*"; json_object_set_new(j, "bind_ip", json_string_unreal(bind_ip)); return d; } LogData *log_data_tkl(const char *key, TKL *tkl) { char buf[BUFSIZE]; LogData *d = safe_alloc(sizeof(LogData)); json_t *j; d->type = LOG_FIELD_OBJECT; safe_strdup(d->key, key); d->value.object = j = json_object(); json_object_set_new(j, "type", json_string_unreal(tkl_type_config_string(tkl))); // Eg 'kline' json_object_set_new(j, "type_string", json_string_unreal(tkl_type_string(tkl))); // Eg 'Soft K-Line' json_object_set_new(j, "set_by", json_string_unreal(tkl->set_by)); json_object_set_new(j, "set_at", json_timestamp(tkl->set_at)); json_object_set_new(j, "expire_at", json_timestamp(tkl->expire_at)); *buf = '\0'; short_date(tkl->set_at, buf); strlcat(buf, " GMT", sizeof(buf)); json_object_set_new(j, "set_at_string", json_string_unreal(buf)); if (tkl->expire_at <= 0) { json_object_set_new(j, "expire_at_string", json_string_unreal("Never")); json_object_set_new(j, "duration_string", json_string_unreal("permanent")); } else { *buf = '\0'; short_date(tkl->expire_at, buf); strlcat(buf, " GMT", sizeof(buf)); json_object_set_new(j, "expire_at_string", json_string_unreal(buf)); json_object_set_new(j, "duration_string", json_string_unreal(pretty_time_val_r(buf, sizeof(buf), tkl->expire_at - tkl->set_at))); } json_object_set_new(j, "set_at_delta", json_integer(TStime() - tkl->set_at)); if (TKLIsServerBan(tkl)) { json_object_set_new(j, "name", json_string_unreal(tkl_uhost(tkl, buf, sizeof(buf), 0))); json_object_set_new(j, "reason", json_string_unreal(tkl->ptr.serverban->reason)); } else if (TKLIsNameBan(tkl)) { json_object_set_new(j, "name", json_string_unreal(tkl->ptr.nameban->name)); json_object_set_new(j, "reason", json_string_unreal(tkl->ptr.nameban->reason)); } else if (TKLIsBanException(tkl)) { json_object_set_new(j, "name", json_string_unreal(tkl_uhost(tkl, buf, sizeof(buf), 0))); json_object_set_new(j, "reason", json_string_unreal(tkl->ptr.banexception->reason)); json_object_set_new(j, "exception_types", json_string_unreal(tkl->ptr.banexception->bantypes)); } else if (TKLIsSpamfilter(tkl)) { json_object_set_new(j, "name", json_string_unreal(tkl->ptr.spamfilter->match->str)); json_object_set_new(j, "match_type", json_string_unreal(unreal_match_method_valtostr(tkl->ptr.spamfilter->match->type))); json_object_set_new(j, "ban_action", json_string_unreal(banact_valtostring(tkl->ptr.spamfilter->action))); json_object_set_new(j, "spamfilter_targets", json_string_unreal(spamfilter_target_inttostring(tkl->ptr.spamfilter->target))); json_object_set_new(j, "reason", json_string_unreal(unreal_decodespace(tkl->ptr.spamfilter->tkl_reason))); } return d; } void log_data_free(LogData *d) { if (d->type == LOG_FIELD_STRING) safe_free(d->value.string); else if ((d->type == LOG_FIELD_OBJECT) && d->value.object) json_decref(d->value.object); safe_free(d->key); safe_free(d); } const char *log_level_valtostring(LogLevel loglevel) { switch(loglevel) { case ULOG_DEBUG: return "debug"; case ULOG_INFO: return "info"; case ULOG_WARNING: return "warn"; case ULOG_ERROR: return "error"; case ULOG_FATAL: return "fatal"; default: return NULL; } } static NameValue log_colors_irc[] = { { ULOG_INVALID, "\0030,01" }, { ULOG_DEBUG, "\0030,01" }, { ULOG_INFO, "\00303" }, { ULOG_WARNING, "\00307" }, { ULOG_ERROR, "\00304" }, { ULOG_FATAL, "\00313" }, }; static NameValue log_colors_terminal[] = { { ULOG_INVALID, "\033[90m" }, { ULOG_DEBUG, "\033[37m" }, { ULOG_INFO, "\033[92m" }, { ULOG_WARNING, "\033[93m" }, { ULOG_ERROR, "\033[91m" }, { ULOG_FATAL, "\033[95m" }, }; const char *log_level_irc_color(LogLevel loglevel) { return nv_find_by_value(log_colors_irc, loglevel); } const char *log_level_terminal_color(LogLevel loglevel) { return nv_find_by_value(log_colors_terminal, loglevel); } LogLevel log_level_stringtoval(const char *str) { if (!strcmp(str, "info")) return ULOG_INFO; if (!strcmp(str, "warn")) return ULOG_WARNING; if (!strcmp(str, "error")) return ULOG_ERROR; if (!strcmp(str, "fatal")) return ULOG_FATAL; if (!strcmp(str, "debug")) return ULOG_DEBUG; return ULOG_INVALID; } #define validvarcharacter(x) (isalnum((x)) || ((x) == '_')) #define valideventidcharacter(x) (isupper((x)) || isdigit((x)) || ((x) == '_')) #define validsubsystemcharacter(x) (islower((x)) || isdigit((x)) || ((x) == '_') || ((x) == '-')) int valid_event_id(const char *s) { if (!*s) return 0; for (; *s; s++) if (!valideventidcharacter(*s)) return 0; return 1; } int valid_subsystem(const char *s) { if (!*s) return 0; if (log_level_stringtoval(s) != ULOG_INVALID) return 0; for (; *s; s++) if (!validsubsystemcharacter(*s)) return 0; return 1; } const char *json_get_value(json_t *t) { static char buf[32]; if (json_is_string(t)) return json_string_value(t); if (json_is_integer(t)) { snprintf(buf, sizeof(buf), "%lld", (long long)json_integer_value(t)); return buf; } return NULL; } // TODO: if in the function below we keep adding auto expanshion shit, // like we currently have $client automatically expanding to $client.name // and $socket_error to $socket_error.error_string, // if this gets more than we should use some kind of array for it, // especially for the hardcoded name shit like $socket_error. /** Build a string and replace $variables where needed. * See src/modules/blacklist.c for an example. * @param inbuf The input string * @param outbuf The output string * @param len The maximum size of the output string (including NUL) * @param name Array of variables names * @param value Array of variable values */ void buildlogstring(const char *inbuf, char *outbuf, size_t len, json_t *details) { const char *i, *p; char *o; int left = len - 1; int cnt, found; char varname[256], *varp, *varpp; json_t *t; #ifdef DEBUGMODE if (len <= 0) abort(); #endif for (i = inbuf, o = outbuf; *i; i++) { if (*i == '$') { i++; /* $$ = literal $ */ if (*i == '$') goto literal; if (!validvarcharacter(*i)) { /* What do we do with things like '$/' ? -- treat literal */ i--; goto literal; } /* find termination */ for (p=i; validvarcharacter(*p) || ((*p == '.') && validvarcharacter(p[1])); p++); /* find variable name in list */ strlncpy(varname, i, sizeof(varname), p - i); varp = strchr(varname, '.'); if (varp) *varp = '\0'; t = json_object_get(details, varname); if (t) { const char *output = NULL; if (varp) { char *varpp; do { varpp = strchr(varp+1, '.'); if (varpp) *varpp = '\0'; /* Fetch explicit object.key */ t = json_object_get(t, varp+1); varp = varpp; } while(t && varpp); if (t) output = json_get_value(t); } else if (!strcmp(varname, "socket_error")) { /* Fetch socket_error.error_string */ t = json_object_get(t, "error_string"); if (t) output = json_get_value(t); } else if (json_is_object(t)) { /* Fetch object.name */ t = json_object_get(t, "name"); if (t) output = json_get_value(t); } else { output = json_get_value(t); } if (output) { strlcpy(o, output, left); left -= strlen(output); /* may become <0 */ if (left <= 0) return; /* return - don't write \0 to 'o'. ensured by strlcpy already */ o += strlen(output); /* value entirely written */ } } else { /* variable name does not exist -- treat as literal string */ i--; goto literal; } /* value written. we're done. */ i = p - 1; continue; } literal: if (!left) break; *o++ = *i; left--; if (!left) break; } *o = '\0'; } /** Do the actual writing to log files */ void do_unreal_log_disk(LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized, Client *from_server) { static int last_log_file_warning = 0; Log *l; char timebuf[128]; struct stat fstats; int n; int write_error; long snomask; MultiLine *m; snprintf(timebuf, sizeof(timebuf), "[%s] ", myctime(TStime())); RunHook(HOOKTYPE_LOG, loglevel, subsystem, event_id, msg, json_serialized, timebuf); if (!loop.forked && (loglevel > ULOG_DEBUG)) { for (m = msg; m; m = m->next) { #ifdef _WIN32 if (show_event_console) win_log("* %s.%s%s [%s] %s\n", subsystem, event_id, m->next?"+":"", log_level_valtostring(loglevel), m->line); else win_log("* [%s] %s\n", log_level_valtostring(loglevel), m->line); #else if (terminal_supports_color()) { if (show_event_console) { fprintf(stderr, "%s%s.%s%s %s[%s]%s %s\n", log_level_terminal_color(ULOG_INVALID), subsystem, event_id, TERMINAL_COLOR_RESET, log_level_terminal_color(loglevel), log_level_valtostring(loglevel), TERMINAL_COLOR_RESET, m->line); } else { fprintf(stderr, "%s[%s]%s %s\n", log_level_terminal_color(loglevel), log_level_valtostring(loglevel), TERMINAL_COLOR_RESET, m->line); } } else { if (show_event_console) fprintf(stderr, "%s.%s%s [%s] %s\n", subsystem, event_id, m->next?"+":"", log_level_valtostring(loglevel), m->line); else fprintf(stderr, "[%s] %s\n", log_level_valtostring(loglevel), m->line); } #endif } } /* In case of './unrealircd configtest': don't write to log file, only to stderr */ if (loop.config_test) return; for (l = logs[LOG_DEST_DISK]; l; l = l->next) { if (!log_sources_match(l->sources, loglevel, subsystem, event_id, 0)) continue; #ifdef HAVE_SYSLOG if (l->file && !strcasecmp(l->file, "syslog")) { if (l->type == LOG_TYPE_JSON) { syslog(LOG_INFO, "%s", json_serialized); } else if (l->type == LOG_TYPE_TEXT) { for (m = msg; m; m = m->next) syslog(LOG_INFO, "%s.%s%s %s: %s", subsystem, event_id, m->next?"+":"", log_level_valtostring(loglevel), m->line); } continue; } #endif /* This deals with dynamic log file names, such as ircd.%Y-%m-%d.log */ if (l->filefmt) { char *fname = unreal_strftime(l->filefmt); if (l->file && (l->logfd != -1) && strcmp(l->file, fname)) { /* We are logging already and need to switch over */ fd_close(l->logfd); l->logfd = -1; } safe_strdup(l->file, fname); } /* log::maxsize code */ if (l->maxsize && (stat(l->file, &fstats) != -1) && fstats.st_size >= l->maxsize) { char oldlog[512]; if (l->logfd == -1) { /* Try to open, so we can write the 'Max file size reached' message. */ l->logfd = fd_fileopen(l->file, O_CREAT|O_APPEND|O_WRONLY); } if (l->logfd != -1) { if (write(l->logfd, "Max file size reached, starting new log file\n", 45) < 0) { /* We already handle the unable to write to log file case for normal data. * I think we can get away with not handling this one. */ ; } fd_close(l->logfd); } l->logfd = -1; /* Rename log file to xxxxxx.old */ snprintf(oldlog, sizeof(oldlog), "%s.old", l->file); unlink(oldlog); /* windows rename cannot overwrite, so unlink here.. ;) */ rename(l->file, oldlog); } /* generic code for opening log if not open yet.. */ if (l->logfd == -1) { l->logfd = fd_fileopen(l->file, O_CREAT|O_APPEND|O_WRONLY); if (l->logfd == -1) { if (!loop.booted) { config_status("WARNING: Unable to write to '%s': %s", l->file, strerror(errno)); } else { if (last_log_file_warning + 300 < TStime()) { config_status("WARNING: Unable to write to '%s': %s. This warning will not re-appear for at least 5 minutes.", l->file, strerror(errno)); last_log_file_warning = TStime(); } } continue; } } /* Now actually WRITE to the log... */ write_error = 0; if ((l->type == LOG_TYPE_JSON) && strcmp(subsystem, "rawtraffic")) { n = write(l->logfd, json_serialized, strlen(json_serialized)); if (n < strlen(json_serialized)) { write_error = 1; } else { if (write(l->logfd, "\n", 1) < 1) // FIXME: no.. we should do it this way..... and why do we use direct I/O at all? write_error = 1; } } else if (l->type == LOG_TYPE_TEXT) { for (m = msg; m; m = m->next) { char text_buf[8192]; snprintf(text_buf, sizeof(text_buf), "%s%s %s.%s%s %s: %s\n", timebuf, from_server->name, subsystem, event_id, m->next?"+":"", log_level_valtostring(loglevel), m->line); n = write(l->logfd, text_buf, strlen(text_buf)); if (n < strlen(text_buf)) { write_error = 1; break; } } } if (write_error) { if (!loop.booted) { config_status("WARNING: Unable to write to '%s': %s", l->file, strerror(errno)); } else { if (last_log_file_warning + 300 < TStime()) { config_status("WARNING: Unable to write to '%s': %s. This warning will not re-appear for at least 5 minutes.", l->file, strerror(errno)); last_log_file_warning = TStime(); } } } } } int log_sources_match(LogSource *logsource, LogLevel loglevel, const char *subsystem, const char *event_id, int matched_already) { int retval = 0; LogSource *ls; // NOTE: This routine works by exclusion, so a bad struct would // cause everything to match!! for (ls = logsource; ls; ls = ls->next) { /* First deal with all positive matchers.. */ if (ls->negative) continue; if (!strcmp(ls->subsystem, "all")) { retval = 1; break; } if (!strcmp(ls->subsystem, "nomatch") && !matched_already) { /* catch-all */ retval = 1; break; } if (*ls->event_id && strcmp(ls->event_id, event_id)) continue; if (*ls->subsystem && strcmp(ls->subsystem, subsystem)) continue; if ((ls->loglevel != ULOG_INVALID) && (ls->loglevel != loglevel)) continue; /* MATCH */ retval = 1; break; } /* No matches? Then we can stop here */ if (retval == 0) return 0; /* There was a match, now check for exemptions, eg !operoverride */ for (ls = logsource; ls; ls = ls->next) { /* Only deal with negative matches... */ if (!ls->negative) continue; if (!strcmp(ls->subsystem, "nomatch") || !strcmp(ls->subsystem, "all")) continue; /* !nomatch and !all make no sense, so just ignore it */ if (*ls->event_id && strcmp(ls->event_id, event_id)) continue; if (*ls->subsystem && strcmp(ls->subsystem, subsystem)) continue; if ((ls->loglevel != ULOG_INVALID) && (ls->loglevel != loglevel)) continue; /* NEGATIVE MATCH */ return 0; } return 1; } /** Convert loglevel/subsystem/event_id to a snomask. * @returns The snomask letters (may be more than one), * an asterisk (for all ircops), or NULL (no delivery) */ const char *log_to_snomask(LogLevel loglevel, const char *subsystem, const char *event_id) { Log *ld; static char snomasks[64]; int matched = 0; *snomasks = '\0'; for (ld = logs[LOG_DEST_SNOMASK]; ld; ld = ld->next) { if (log_sources_match(ld->sources, loglevel, subsystem, event_id, 0)) { strlcat(snomasks, ld->destination, sizeof(snomasks)); matched = 1; } } if (logs[LOG_DEST_OPER] && log_sources_match(logs[LOG_DEST_OPER]->sources, loglevel, subsystem, event_id, matched)) strlcat(snomasks, "s", sizeof(snomasks)); return *snomasks ? snomasks : NULL; } #define COLOR_NONE "\xf" #define COLOR_DARKGREY "\00314" /** Generic sendto function for logging to IRC. Used for notices to IRCOps and also for sending to individual users on channels */ void sendto_log(Client *client, const char *msgtype, const char *destination, int show_colors, int show_event, LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized, Client *from_server) { MultiLine *m; for (m = msg; m; m = m->next) { MessageTag *mtags = NULL; new_message(from_server, NULL, &mtags); /* Add JSON data, but only if it is the first message (m == msg) */ if (json_serialized && (m == msg)) { MessageTag *json_mtag = safe_alloc(sizeof(MessageTag)); safe_strdup(json_mtag->name, "unrealircd.org/json-log"); safe_strdup(json_mtag->value, json_serialized); AddListItem(json_mtag, mtags); } if (show_colors) { if (show_event) { sendto_one(client, mtags, ":%s %s %s :%s%s.%s%s%s %s[%s]%s %s", from_server->name, msgtype, destination, COLOR_DARKGREY, subsystem, event_id, m->next?"+":"", COLOR_NONE, log_level_irc_color(loglevel), log_level_valtostring(loglevel), COLOR_NONE, m->line); } else { sendto_one(client, mtags, ":%s %s %s :%s[%s]%s %s", from_server->name, msgtype, destination, log_level_irc_color(loglevel), log_level_valtostring(loglevel), COLOR_NONE, m->line); } } else { if (show_event) { sendto_one(client, mtags, ":%s %s %s :%s.%s%s [%s] %s", from_server->name, msgtype, destination, subsystem, event_id, m->next?"+":"", log_level_valtostring(loglevel), m->line); } else { sendto_one(client, mtags, ":%s %s %s :[%s] %s", from_server->name, msgtype, destination, log_level_valtostring(loglevel), m->line); } } safe_free_message_tags(mtags); } } /** Send server notices to IRCOps */ void do_unreal_log_opers(LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized, Client *from_server) { Client *client; const char *snomask_destinations, *p; /* If not fully booted then we don't have a logging to snomask mapping so can't do much.. */ if (!loop.booted) return; /* Never send these */ if (!strcmp(subsystem, "rawtraffic")) return; snomask_destinations = log_to_snomask(loglevel, subsystem, event_id); if (!snomask_destinations) return; /* To specific snomasks... */ list_for_each_entry(client, &oper_list, special_node) { const char *operlogin; ConfigItem_oper *oper; int show_colors = iConf.server_notice_colors; int show_event = iConf.server_notice_show_event; if (snomask_destinations) { char found = 0; if (!client->user->snomask) continue; /* None set, so will never match */ for (p = snomask_destinations; *p; p++) { if (strchr(client->user->snomask, *p)) { found = 1; break; } } if (!found) continue; } operlogin = get_operlogin(client); if (operlogin && (oper = find_oper(operlogin))) { show_colors = oper->server_notice_colors; show_event = oper->server_notice_show_event; } sendto_log(client, "NOTICE", client->name, show_colors, show_event, loglevel, subsystem, event_id, msg, json_serialized, from_server); } } /** Send server notices to channels */ void do_unreal_log_channels(LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized, Client *from_server) { Log *l; Member *m; Client *client; /* If not fully booted then we don't have a logging to snomask mapping so can't do much.. */ if (!loop.booted) return; /* Never send these */ if (!strcmp(subsystem, "rawtraffic")) return; for (l = logs[LOG_DEST_CHANNEL]; l; l = l->next) { const char *operlogin; ConfigItem_oper *oper; Channel *channel; if (!log_sources_match(l->sources, loglevel, subsystem, event_id, 0)) continue; channel = find_channel(l->destination); if (!channel) continue; for (m = channel->members; m; m = m->next) { Client *client = m->client; if (!MyUser(client)) continue; if (l->oper_only && !IsOper(client)) continue; sendto_log(client, "PRIVMSG", channel->name, l->color, l->show_event, loglevel, subsystem, event_id, msg, l->json_message_tag ? json_serialized : NULL, from_server); } } } void do_unreal_log_remote(LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized) { Log *l; int found = 0; for (l = logs[LOG_DEST_REMOTE]; l; l = l->next) { if (log_sources_match(l->sources, loglevel, subsystem, event_id, 0)) { found = 1; break; } } if (found == 0) return; do_unreal_log_remote_deliver(loglevel, subsystem, event_id, msg, json_serialized); } /** Send server notices to control channel */ void do_unreal_log_control(LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized, Client *from_server) { Client *client; MultiLine *m; if (!loop.booted) return; /* Never send these */ if (!strcmp(subsystem, "rawtraffic")) return; list_for_each_entry(client, &control_list, lclient_node) if (IsMonitorRehash(client)) for (m = msg; m; m = m->next) sendto_one(client, NULL, "REPLY [%s] %s", log_level_valtostring(loglevel), m->line); } void do_unreal_log_free_args(va_list vl) { LogData *d; while ((d = va_arg(vl, LogData *))) { log_data_free(d); } } static int unreal_log_recursion_trap = 0; /* Logging function, called by the unreal_log() macro. */ void do_unreal_log(LogLevel loglevel, const char *subsystem, const char *event_id, Client *client, const char *msg, ...) { va_list vl; if (unreal_log_recursion_trap) { va_start(vl, msg); do_unreal_log_free_args(vl); va_end(vl); return; } unreal_log_recursion_trap = 1; va_start(vl, msg); do_unreal_log_internal(loglevel, subsystem, event_id, client, 1, msg, vl); va_end(vl); unreal_log_recursion_trap = 0; } /* Logging function, called by the unreal_log_raw() macro. */ void do_unreal_log_raw(LogLevel loglevel, const char *subsystem, const char *event_id, Client *client, const char *msg, ...) { va_list vl; if (unreal_log_recursion_trap) { va_start(vl, msg); do_unreal_log_free_args(vl); va_end(vl); return; } unreal_log_recursion_trap = 1; va_start(vl, msg); do_unreal_log_internal(loglevel, subsystem, event_id, client, 0, msg, vl); va_end(vl); unreal_log_recursion_trap = 0; } void do_unreal_log_norecursioncheck(LogLevel loglevel, const char *subsystem, const char *event_id, Client *client, const char *msg, ...) { va_list vl; va_start(vl, msg); do_unreal_log_internal(loglevel, subsystem, event_id, client, 1, msg, vl); va_end(vl); } void do_unreal_log_internal(LogLevel loglevel, const char *subsystem, const char *event_id, Client *client, int expand_msg, const char *msg, va_list vl) { LogData *d; char *json_serialized; const char *str; json_t *j = NULL; json_t *j_details = NULL; json_t *t; char msgbuf[8192]; const char *loglevel_string = log_level_valtostring(loglevel); MultiLine *mmsg; Client *from_server = NULL; if (loglevel_string == NULL) { do_unreal_log_norecursioncheck(ULOG_ERROR, "log", "BUG_LOG_LOGLEVEL", NULL, "[BUG] Next log message had an invalid log level -- corrected to ULOG_ERROR", NULL); loglevel = ULOG_ERROR; loglevel_string = log_level_valtostring(loglevel); } if (!valid_subsystem(subsystem)) { do_unreal_log_norecursioncheck(ULOG_ERROR, "log", "BUG_LOG_SUBSYSTEM", NULL, "[BUG] Next log message had an invalid subsystem -- changed to 'unknown'", NULL); subsystem = "unknown"; } if (!valid_event_id(event_id)) { do_unreal_log_norecursioncheck(ULOG_ERROR, "log", "BUG_LOG_EVENT_ID", NULL, "[BUG] Next log message had an invalid event id -- changed to 'unknown'", NULL); event_id = "unknown"; } /* This one is probably temporary since it should not be a real error, actually (but often is) */ if (expand_msg && strchr(msg, '%')) { do_unreal_log_norecursioncheck(ULOG_ERROR, "log", "BUG_LOG_MESSAGE_PERCENT", NULL, "[BUG] Next log message contains a percent sign -- possibly accidental format string!", NULL); } j = json_object(); j_details = json_object(); json_object_set_new(j, "timestamp", json_string_unreal(timestamp_iso8601_now())); json_object_set_new(j, "level", json_string_unreal(loglevel_string)); json_object_set_new(j, "subsystem", json_string_unreal(subsystem)); json_object_set_new(j, "event_id", json_string_unreal(event_id)); json_object_set_new(j, "log_source", json_string_unreal(*me.name ? me.name : "local")); /* We put all the rest in j_details because we want to enforce * a certain ordering of the JSON output. We will merge these * details later on. */ if (client) json_expand_client(j_details, "client", client, 0); /* Additional details (if any) */ while ((d = va_arg(vl, LogData *))) { switch(d->type) { case LOG_FIELD_INTEGER: json_object_set_new(j_details, d->key, json_integer(d->value.integer)); break; case LOG_FIELD_STRING: if (d->value.string) json_object_set_new(j_details, d->key, json_string_unreal(d->value.string)); else json_object_set_new(j_details, d->key, json_null()); break; case LOG_FIELD_CLIENT: json_expand_client(j_details, d->key, d->value.client, 0); break; case LOG_FIELD_CHANNEL: json_expand_channel(j_details, d->key, d->value.channel, 0); break; case LOG_FIELD_OBJECT: json_object_set_new(j_details, d->key, d->value.object); d->value.object = NULL; /* don't let log_data_free() free it */ break; default: #ifdef DEBUGMODE abort(); #endif break; } log_data_free(d); } if (expand_msg) buildlogstring(msg, msgbuf, sizeof(msgbuf), j_details); else strlcpy(msgbuf, msg, sizeof(msgbuf)); json_object_set_new(j, "msg", json_string_unreal(msgbuf)); /* Now merge the details into root object 'j': */ json_object_update_missing(j, j_details); /* Generate the JSON */ json_serialized = json_dumps(j, JSON_COMPACT); /* Convert the message buffer to MultiLine */ mmsg = line2multiline(msgbuf); /* Parse the "from server" info, if any */ t = json_object_get(j_details, "from_server_name"); if (t && (str = json_get_value(t))) from_server = find_server(str, NULL); if (from_server == NULL) from_server = &me; /* Now call all the loggers: */ do_unreal_log_disk(loglevel, subsystem, event_id, mmsg, json_serialized, from_server); if ((loop.rehashing == 2) || !strcmp(subsystem, "config")) do_unreal_log_control(loglevel, subsystem, event_id, mmsg, json_serialized, from_server); do_unreal_log_opers(loglevel, subsystem, event_id, mmsg, json_serialized, from_server); do_unreal_log_channels(loglevel, subsystem, event_id, mmsg, json_serialized, from_server); do_unreal_log_remote(loglevel, subsystem, event_id, mmsg, json_serialized); // NOTE: code duplication further down! /* Free everything */ safe_free(json_serialized); safe_free_multiline(mmsg); json_decref(j_details); json_decref(j); } void do_unreal_log_internal_from_remote(LogLevel loglevel, const char *subsystem, const char *event_id, MultiLine *msg, const char *json_serialized, Client *from_server) { if (unreal_log_recursion_trap) return; unreal_log_recursion_trap = 1; /* Call the disk loggers */ do_unreal_log_disk(loglevel, subsystem, event_id, msg, json_serialized, from_server); /* And to IRC */ do_unreal_log_opers(loglevel, subsystem, event_id, msg, json_serialized, from_server); do_unreal_log_channels(loglevel, subsystem, event_id, msg, json_serialized, from_server); unreal_log_recursion_trap = 0; } void free_log_block(Log *l) { Log *l_next; LogSource *src, *src_next; for (; l; l = l_next) { l_next = l->next; if (l->logfd > 0) { fd_close(l->logfd); l->logfd = -1; } free_log_sources(l->sources); safe_free(l->file); safe_free(l->filefmt); safe_free(l); } } int log_tests(void) { if (snomask_num_destinations <= 1) { unreal_log(ULOG_ERROR, "config", "LOG_SNOMASK_BLOCK_MISSING", NULL, "Missing snomask logging configuration:\n" "Please add the following line to your unrealircd.conf: " "include \"snomasks.default.conf\";"); return 0; } snomask_num_destinations = 0; return 1; } void postconf_defaults_log_block(void) { Log *l; LogSource *ls; /* Is there any log block to disk? Then nothing to do. */ if (logs[LOG_DEST_DISK]) return; unreal_log(ULOG_WARNING, "log", "NO_DISK_LOG_BLOCK", NULL, "No log { } block found that logs to disk -- " "logging everything in text format to 'ircd.log'"); /* Create a default log block */ l = safe_alloc(sizeof(Log)); l->logfd = -1; l->type = LOG_TYPE_TEXT; /* text */ l->maxsize = 100000000; /* maxsize 100M */ safe_strdup(l->file, "ircd.log"); convert_to_absolute_path(&l->file, LOGDIR); AddListItem(l, logs[LOG_DEST_DISK]); /* And the source filter */ ls = add_log_source("all"); AppendListItem(ls, l->sources); ls = add_log_source("!debug"); AppendListItem(ls, l->sources); ls = add_log_source("!join.LOCAL_CLIENT_JOIN"); AppendListItem(ls, l->sources); ls = add_log_source("!join.REMOTE_CLIENT_JOIN"); AppendListItem(ls, l->sources); ls = add_log_source("!part.LOCAL_CLIENT_PART"); AppendListItem(ls, l->sources); ls = add_log_source("!part.REMOTE_CLIENT_PART"); AppendListItem(ls, l->sources); ls = add_log_source("!kick.LOCAL_CLIENT_KICK"); AppendListItem(ls, l->sources); ls = add_log_source("!kick.REMOTE_CLIENT_KICK"); AppendListItem(ls, l->sources); } /* Called before CONFIG_TEST */ void log_pre_rehash(void) { *snomasks_in_use_testing = '\0'; } /* Called after CONFIG_TEST right before CONFIG_RUN */ void config_pre_run_log(void) { *snomasks_in_use = '\0'; } /* Called after CONFIG_RUN is complete */ void log_blocks_switchover(void) { int i; for (i=0; i < NUM_LOG_DESTINATIONS; i++) free_log_block(logs[i]); memcpy(logs, temp_logs, sizeof(logs)); memset(temp_logs, 0, sizeof(temp_logs)); } /** Check if a letter is a valid snomask (that is: * one that exists in the log block configuration). * @param c the snomask letter to check * @returns 1 if exists, 0 if not. */ int is_valid_snomask(char c) { return strchr(snomasks_in_use, c) ? 1 : 0; } /** Check if a letter is a valid snomask during or after CONFIG_TEST * (the snomasks exist in the log block configuration read during config_test). * @param c the snomask letter to check * @returns 1 if exists, 0 if not. */ int is_valid_snomask_testing(char c) { return strchr(snomasks_in_use_testing, c) ? 1 : 0; } /** Check if a string all consists of valid snomasks during or after CONFIG_TEST * (the snomasks exist in the log block configuration read during config_test). * @param str the snomask string to check * @param invalid_snomasks list of unknown snomask letters * @returns 1 if exists, 0 if not. */ int is_valid_snomask_string_testing(const char *str, char **invalid_snomasks) { static char invalid_snomasks_buf[256]; *invalid_snomasks_buf = '\0'; for (; *str; str++) { if ((*str == '+') || (*str == '-')) continue; if (!strchr(snomasks_in_use_testing, *str)) strlcat_letter(invalid_snomasks_buf, *str, sizeof(invalid_snomasks_buf)); } *invalid_snomasks = invalid_snomasks_buf; return *invalid_snomasks_buf ? 0 : 1; }