/****************************************************************************** * * * Function: get_proxy_id * * * * Purpose: * * * * Parameters: * * * * Return value: SUCCEED - processed successfully * * FAIL - an error occurred * * * * Author: Aleksander Vladishev * * * * Comments: * * * ******************************************************************************/ int get_proxy_id(struct zbx_json_parse *jp, zbx_uint64_t *hostid) { DB_RESULT result; DB_ROW row; char host[HOST_HOST_LEN_MAX], host_esc[MAX_STRING_LEN]; int res = FAIL; if (SUCCEED == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_HOST, host, sizeof(host))) { DBescape_string(host, host_esc, sizeof(host_esc)); result = DBselect("select hostid from hosts where host='%s'" " and status in (%d)" DB_NODE, host_esc, HOST_STATUS_PROXY, DBnode_local("hostid")); if (NULL != (row = DBfetch(result)) && FAIL == DBis_null(row[0])) { *hostid = zbx_atoui64(row[0]); res = SUCCEED; } else zabbix_log(LOG_LEVEL_WARNING, "Unknown proxy \"%s\"", host); DBfree_result(result); } else { zabbix_log(LOG_LEVEL_WARNING, "Incorrect data. %s", zbx_json_strerror()); zabbix_syslog("Incorrect data. %s", zbx_json_strerror()); } return res; }
/****************************************************************************** * * * Function: zbx_recv_response * * * * Purpose: read a response message (in JSON format) from socket, optionally * * extract "info" value. * * * * Parameters: sock - [IN] socket descriptor * * timeout - [IN] timeout for this operation * * error - [OUT] pointer to error message * * * * Return value: SUCCEED - "response":"success" successfully retrieved * * FAIL - otherwise * * Comments: * * Allocates memory. * * * * If an error occurs, the function allocates dynamic memory for an error * * message and writes its address into location pointed to by "error" * * parameter. * * * * When the "info" value is present in the response message then function * * copies the "info" value into the "error" buffer as additional * * information * * * * IMPORTANT: it is a responsibility of the caller to release the * * "error" memory ! * * * ******************************************************************************/ int zbx_recv_response(zbx_socket_t *sock, int timeout, char **error) { const char *__function_name = "zbx_recv_response"; struct zbx_json_parse jp; char value[16]; int ret = FAIL; zabbix_log(LOG_LEVEL_DEBUG, "In %s()", __function_name); if (SUCCEED != zbx_tcp_recv_to(sock, timeout)) { /* since we have successfully sent data earlier, we assume the other */ /* side is just too busy processing our data if there is no response */ *error = zbx_strdup(*error, zbx_socket_strerror()); goto out; } zabbix_log(LOG_LEVEL_DEBUG, "%s() '%s'", __function_name, sock->buffer); /* deal with empty string here because zbx_json_open() does not produce an error message in this case */ if ('\0' == *sock->buffer) { *error = zbx_strdup(*error, "empty string received"); goto out; } if (SUCCEED != zbx_json_open(sock->buffer, &jp)) { *error = zbx_strdup(*error, zbx_json_strerror()); goto out; } if (SUCCEED != zbx_json_value_by_name(&jp, ZBX_PROTO_TAG_RESPONSE, value, sizeof(value))) { *error = zbx_strdup(*error, "no \"" ZBX_PROTO_TAG_RESPONSE "\" tag"); goto out; } if (0 != strcmp(value, ZBX_PROTO_VALUE_SUCCESS)) { char *info = NULL; size_t info_alloc = 0; if (SUCCEED == zbx_json_value_by_name_dyn(&jp, ZBX_PROTO_TAG_INFO, &info, &info_alloc)) *error = zbx_strdup(*error, info); else *error = zbx_dsprintf(*error, "negative response \"%s\"", value); zbx_free(info); goto out; } ret = SUCCEED; out: zabbix_log(LOG_LEVEL_DEBUG, "End of %s():%s", __function_name, zbx_result_string(ret)); return ret; }
/****************************************************************************** * * * Function: recv_proxyconfig * * * * Purpose: receive configuration tables from server (passive proxies) * * * * Author: Alexander Vladishev * * * ******************************************************************************/ void recv_proxyconfig(zbx_sock_t *sock, struct zbx_json_parse *jp) { const char *__function_name = "recv_proxyconfig"; struct zbx_json_parse jp_data; int ret; zabbix_log(LOG_LEVEL_DEBUG, "In %s()", __function_name); if (SUCCEED != (ret = zbx_json_brackets_by_name(jp, ZBX_PROTO_TAG_DATA, &jp_data))) { zabbix_log(LOG_LEVEL_WARNING, "invalid proxy configuration data: %s", zbx_json_strerror()); zbx_send_response(sock, ret, zbx_json_strerror(), CONFIG_TIMEOUT); } else { process_proxyconfig(&jp_data); zbx_send_response(sock, ret, NULL, CONFIG_TIMEOUT); } zabbix_log(LOG_LEVEL_DEBUG, "End of %s()", __function_name); }
/****************************************************************************** * * * Function: recv_proxyconfig * * * * Purpose: receive configuration tables from server (passive proxies) * * * * Author: Alexander Vladishev * * * ******************************************************************************/ void recv_proxyconfig(zbx_socket_t *sock, struct zbx_json_parse *jp) { struct zbx_json_parse jp_data; int ret; zabbix_log(LOG_LEVEL_DEBUG, "In %s()", __func__); if (SUCCEED != (ret = zbx_json_brackets_by_name(jp, ZBX_PROTO_TAG_DATA, &jp_data))) { zabbix_log(LOG_LEVEL_WARNING, "cannot parse proxy configuration data received from server at" " \"%s\": %s", sock->peer, zbx_json_strerror()); zbx_send_proxy_response(sock, ret, zbx_json_strerror(), CONFIG_TIMEOUT); goto out; } if (SUCCEED != check_access_passive_proxy(sock, ZBX_SEND_RESPONSE, "configuration update")) goto out; process_proxyconfig(&jp_data); zbx_send_proxy_response(sock, ret, NULL, CONFIG_TIMEOUT); out: zabbix_log(LOG_LEVEL_DEBUG, "End of %s()", __func__); }
/****************************************************************************** * * * Function: send_list_of_active_checks_json * * * * Purpose: send list of active checks to the host * * * * Parameters: sock - open socket of server-agent connection * * json - request buffer * * * * Return value: SUCCEED - list of active checks sent succesfully * * FAIL - an error occured * * * * Author: Aleksander Vladishev * * * * Comments: * * * ******************************************************************************/ int send_list_of_active_checks_json(zbx_sock_t *sock, struct zbx_json_parse *jp) { char host[HOST_HOST_LEN_MAX], *name_esc, params[MAX_STRING_LEN], pattern[MAX_STRING_LEN], tmp[32]; DB_RESULT result; DB_ROW row; DB_ITEM item; struct zbx_json json; int res = FAIL; zbx_uint64_t hostid; char error[MAX_STRING_LEN]; char **regexp = NULL; int regexp_alloc = 32; int regexp_num = 0, n; char *sql = NULL; int sql_alloc = 2048; int sql_offset; zabbix_log(LOG_LEVEL_DEBUG, "In send_list_of_active_checks_json()"); if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_HOST, host, sizeof(host))) { zbx_snprintf(error, MAX_STRING_LEN, "%s", zbx_json_strerror()); goto out; } if (FAIL == get_hostid_by_host(host, &hostid, error)) goto out; regexp = zbx_malloc(regexp, regexp_alloc); sql = zbx_malloc(sql, sql_alloc); name_esc = DBdyn_escape_string(host); sql_offset = 0; zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 1024, "select %s where i.hostid=h.hostid and h.status=%d and i.type=%d and h.hostid=" ZBX_FS_UI64 " and h.proxy_hostid=0", ZBX_SQL_ITEM_SELECT, HOST_STATUS_MONITORED, ITEM_TYPE_ZABBIX_ACTIVE, hostid); if (0 != CONFIG_REFRESH_UNSUPPORTED) zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 256, " and (i.status=%d or (i.status=%d and i.nextcheck<=%d))", ITEM_STATUS_ACTIVE, ITEM_STATUS_NOTSUPPORTED, time(NULL)); else zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 256, " and i.status=%d", ITEM_STATUS_ACTIVE); zbx_free(name_esc); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_SUCCESS, ZBX_JSON_TYPE_STRING); zbx_json_addarray(&json, ZBX_PROTO_TAG_DATA); result = DBselect("%s", sql); while (NULL != (row = DBfetch(result))) { DBget_item_from_db(&item, row); zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY, item.key, ZBX_JSON_TYPE_STRING); if (0 != strcmp(item.key, item.key_orig)) zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY_ORIG, item.key_orig, ZBX_JSON_TYPE_STRING); zbx_snprintf(tmp, sizeof(tmp), "%d", item.delay); zbx_json_addstring(&json, ZBX_PROTO_TAG_DELAY, tmp, ZBX_JSON_TYPE_STRING); zbx_snprintf(tmp, sizeof(tmp), "%d", item.lastlogsize); zbx_json_addstring(&json, ZBX_PROTO_TAG_LOGLASTSIZE, tmp, ZBX_JSON_TYPE_STRING); zbx_json_close(&json); /* Special processing for log[] and eventlog[] items */ do { /* simple try realization */ if (0 != strncmp(item.key, "log[", 4) && 0 != strncmp(item.key, "eventlog[", 9)) break; if (2 != parse_command(item.key, NULL, 0, params, MAX_STRING_LEN)) break;; if (0 != get_param(params, 2, pattern, sizeof(pattern))) break; if (*pattern != '@') break; for (n = 0; n < regexp_num; n++) if (0 == strcmp(regexp[n], pattern + 1)) break; if (n != regexp_num) break; if (regexp_num == regexp_alloc) { regexp_alloc += 32; regexp = zbx_realloc(regexp, regexp_alloc); } regexp[regexp_num++] = strdup(pattern + 1); } while (0); /* simple try realization */ } zbx_json_close(&json); DBfree_result(result); if (0 != regexp_num) { zbx_json_addarray(&json, ZBX_PROTO_TAG_REGEXP); sql_offset = 0; zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 512, "select r.name,e.expression,e.expression_type,e.exp_delimiter,e.case_sensitive" " from regexps r,expressions e where r.regexpid=e.regexpid and r.name in ("); for (n = 0; n < regexp_num; n++) { name_esc = DBdyn_escape_string(regexp[n]); zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 512, "%s'%s'", n == 0 ? "" : ",", name_esc); zbx_free(name_esc); zbx_free(regexp[n]); } zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 8, ")"); result = DBselect("%s", sql); while (NULL != (row = DBfetch(result))) { zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, "name", row[0], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression", row[1], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression_type", row[2], ZBX_JSON_TYPE_INT); zbx_json_addstring(&json, "exp_delimiter", row[3], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "case_sensitive", row[4], ZBX_JSON_TYPE_INT); zbx_json_close(&json); } DBfree_result(result); } zbx_free(regexp); zabbix_log(LOG_LEVEL_DEBUG, "Sending [%s]", json.buffer); if (SUCCEED != zbx_tcp_send_raw(sock, json.buffer)) zbx_snprintf(error, MAX_STRING_LEN, "%s", zbx_tcp_strerror()); else res = SUCCEED; zbx_json_free(&json); zbx_free(sql); out: if (FAIL == res) zabbix_log(LOG_LEVEL_WARNING, "Send list of active checks to [%s] failed: %s", get_ip_by_socket(sock), error); return res; }
/****************************************************************************** * * * Function: parse_list_of_checks * * * * Purpose: Parse list of active checks received from server * * * * Parameters: str - NULL terminated string received from server * * * * Return value: returns SUCCEED on succesfull parsing, * * FAIL on an incoorrect format of string * * * * Author: Eugene Grigorjev, Alexei Vladishev (new json protocol) * * * * Comments: * * String reprents as "ZBX_EOF" termination list * * With '\n' delimeter between elements. * * Each element represents as: * * <key>:<refresh time>:<last log size> * * * ******************************************************************************/ static int parse_list_of_checks(char *str) { const char *p; char name[MAX_STRING_LEN], key_orig[MAX_STRING_LEN], expression[MAX_STRING_LEN], tmp[MAX_STRING_LEN], exp_delimiter; int delay, lastlogsize, expression_type, case_sensitive; struct zbx_json_parse jp; struct zbx_json_parse jp_data, jp_row; zabbix_log(LOG_LEVEL_DEBUG, "In parse_list_of_checks()"); disable_all_metrics(); if (SUCCEED != zbx_json_open(str, &jp)) goto json_error; if (SUCCEED != zbx_json_value_by_name(&jp, ZBX_PROTO_TAG_RESPONSE, tmp, sizeof(tmp))) goto json_error; if (0 != strcmp(tmp, ZBX_PROTO_VALUE_SUCCESS)) { zabbix_log(LOG_LEVEL_ERR, "Unsucesfull response received from server"); return FAIL; } if (SUCCEED != zbx_json_brackets_by_name(&jp, ZBX_PROTO_TAG_DATA, &jp_data)) goto json_error; p = NULL; while (NULL != (p = zbx_json_next(&jp_data, p))) { /* {"data":[{"key":"system.cpu.num",...,...},{...},...]} * ^------------------------------^ */ if (SUCCEED != zbx_json_brackets_open(p, &jp_row)) goto json_error; if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_KEY, name, sizeof(name)) || *name == '\0') { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", ZBX_PROTO_TAG_KEY); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_KEY_ORIG, key_orig, sizeof(key_orig)) || *key_orig == '\0') zbx_strlcpy(key_orig, name, sizeof(key_orig)); if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_DELAY, tmp, sizeof(tmp)) || *tmp == '\0') { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", ZBX_PROTO_TAG_DELAY); continue; } delay = atoi(tmp); if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_LOGLASTSIZE, tmp, sizeof(tmp)) || *tmp == '\0') { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", ZBX_PROTO_TAG_LOGLASTSIZE); continue; } lastlogsize = atoi(tmp); add_check(name, key_orig, delay, lastlogsize); } clean_regexps_ex(regexps, ®exps_num); if (SUCCEED == zbx_json_brackets_by_name(&jp, ZBX_PROTO_TAG_REGEXP, &jp_data)) { p = NULL; while (NULL != (p = zbx_json_next(&jp_data, p))) { /* {"regexp":[{"name":"regexp1",...,...},{...},...]} * ^------------------------^ */ if (SUCCEED != zbx_json_brackets_open(p, &jp_row)) goto json_error; if (SUCCEED != zbx_json_value_by_name(&jp_row, "name", name, sizeof(name))) { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", "name"); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, "expression", expression, sizeof(expression)) || *expression == '\0') { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", "expression"); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, "expression_type", tmp, sizeof(tmp)) || *tmp == '\0') { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", "expression_type"); continue; } expression_type = atoi(tmp); if (SUCCEED != zbx_json_value_by_name(&jp_row, "exp_delimiter", tmp, sizeof(tmp))) { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", "exp_delimiter"); continue; } exp_delimiter = tmp[0]; if (SUCCEED != zbx_json_value_by_name(&jp_row, "case_sensitive", tmp, sizeof(tmp)) || *tmp == '\0') { zabbix_log(LOG_LEVEL_WARNING, "Unable to retrieve value of tag \"%s\"", "case_sensitive"); continue; } case_sensitive = atoi(tmp); add_regexp_ex(®exps, ®exps_alloc, ®exps_num, name, expression, expression_type, exp_delimiter, case_sensitive); } } return SUCCEED; json_error: zabbix_log(LOG_LEVEL_ERR, "Can't parse list of active checks. %s", zbx_json_strerror()); return FAIL; }
/****************************************************************************** * * * Function: send_list_of_active_checks_json * * * * Purpose: send list of active checks to the host * * * * Parameters: sock - open socket of server-agent connection * * json - request buffer * * * * Return value: SUCCEED - list of active checks sent successfully * * FAIL - an error occurred * * * * Author: Alexander Vladishev * * * * Comments: * * * ******************************************************************************/ int send_list_of_active_checks_json(zbx_sock_t *sock, struct zbx_json_parse *jp) { const char *__function_name = "send_list_of_active_checks_json"; char host[HOST_HOST_LEN_MAX], *name_esc, params[MAX_STRING_LEN], pattern[MAX_STRING_LEN], tmp[32], key_severity[MAX_STRING_LEN], key_logeventid[MAX_STRING_LEN], ip[INTERFACE_IP_LEN_MAX]; DB_RESULT result; DB_ROW row; struct zbx_json json; int res = FAIL, refresh_unsupported, now; zbx_uint64_t hostid; char error[MAX_STRING_LEN], *key = NULL; DC_ITEM dc_item; unsigned short port; char **regexp = NULL; int regexp_alloc = 0; int regexp_num = 0, n; char *sql = NULL; size_t sql_alloc = 2 * ZBX_KIBIBYTE, sql_offset = 0; zabbix_log(LOG_LEVEL_DEBUG, "In %s()", __function_name); if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_HOST, host, sizeof(host))) { zbx_snprintf(error, MAX_STRING_LEN, "%s", zbx_json_strerror()); goto error; } if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_IP, ip, sizeof(ip))) strscpy(ip, get_ip_by_socket(sock)); if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_PORT, tmp, sizeof(tmp))) *tmp = '\0'; if (FAIL == is_ushort(tmp, &port)) port = ZBX_DEFAULT_AGENT_PORT; if (FAIL == get_hostid_by_host(host, ip, port, &hostid, error)) goto error; DCconfig_get_config_data(&refresh_unsupported, CONFIG_REFRESH_UNSUPPORTED); now = time(NULL); sql = zbx_malloc(sql, sql_alloc); name_esc = DBdyn_escape_string(host); zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, "select i.key_,i.delay,i.lastlogsize,i.mtime" " from items i,hosts h" " where i.hostid=h.hostid" " and h.status=%d" " and i.type=%d" " and i.flags<>%d" " and h.hostid=" ZBX_FS_UI64 " and h.proxy_hostid is null", HOST_STATUS_MONITORED, ITEM_TYPE_ZABBIX_ACTIVE, ZBX_FLAG_DISCOVERY_CHILD, hostid); zbx_free(name_esc); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_SUCCESS, ZBX_JSON_TYPE_STRING); zbx_json_addarray(&json, ZBX_PROTO_TAG_DATA); result = DBselect("%s", sql); while (NULL != (row = DBfetch(result))) { if (FAIL == DCconfig_get_item_by_key(&dc_item, (zbx_uint64_t)0, host, row[0])) { zabbix_log(LOG_LEVEL_DEBUG, "%s() Item '%s' was not found in the server cache. Not sending now.", __function_name, row[0]); continue; } if (ITEM_STATUS_NOTSUPPORTED == dc_item.status) { if (0 == refresh_unsupported || dc_item.lastclock + refresh_unsupported > now) { DCconfig_clean_items(&dc_item, NULL, 1); continue; } } zabbix_log(LOG_LEVEL_DEBUG, "%s() Item '%s' was successfully found in the server cache. Sending.", __function_name, row[0]); ZBX_STRDUP(key, row[0]); substitute_key_macros(&key, NULL, &dc_item, NULL, MACRO_TYPE_ITEM_KEY, NULL, 0); DCconfig_clean_items(&dc_item, NULL, 1); zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY, key, ZBX_JSON_TYPE_STRING); if (0 != strcmp(key, row[0])) zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY_ORIG, row[0], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, ZBX_PROTO_TAG_DELAY, row[1], ZBX_JSON_TYPE_INT); /* The agent expects ALWAYS to have lastlogsize and mtime tags. Removing those would cause older agents to fail. */ zbx_json_addstring(&json, ZBX_PROTO_TAG_LOGLASTSIZE, row[2], ZBX_JSON_TYPE_INT); zbx_json_addstring(&json, ZBX_PROTO_TAG_MTIME, row[3], ZBX_JSON_TYPE_INT); zbx_json_close(&json); /* special processing for log[] and logrt[] items */ do { /* simple try realization */ /* log[filename,pattern,encoding,maxlinespersec] */ /* logrt[filename_format,pattern,encoding,maxlinespersec] */ if (0 != strncmp(key, "log[", 4) && 0 != strncmp(key, "logrt[", 6)) break; if (2 != parse_command(key, NULL, 0, params, sizeof(params))) break; /* dealing with `pattern' parameter */ if (0 == get_param(params, 2, pattern, sizeof(pattern)) && *pattern == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, pattern + 1); } while (0); /* simple try realization */ /* special processing for eventlog[] items */ do { /* simple try realization */ /* eventlog[filename,pattern,severity,source,logeventid,maxlinespersec] */ if (0 != strncmp(key, "eventlog[", 9)) break; if (2 != parse_command(key, NULL, 0, params, sizeof(params))) break; /* dealing with `pattern' parameter */ if (0 == get_param(params, 2, pattern, sizeof(pattern)) && *pattern == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, pattern + 1); /* dealing with `severity' parameter */ if (0 == get_param(params, 3, key_severity, sizeof(key_severity)) && *key_severity == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, key_severity + 1); /* dealing with `logeventid' parameter */ if (0 == get_param(params, 5, key_logeventid, sizeof(key_logeventid)) && *key_logeventid == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, key_logeventid + 1); } while (0); /* simple try realization */ zbx_free(key); } zbx_json_close(&json); DBfree_result(result); if (0 != regexp_num) { zbx_json_addarray(&json, ZBX_PROTO_TAG_REGEXP); sql_offset = 0; zbx_strcpy_alloc(&sql, &sql_alloc, &sql_offset, "select r.name,e.expression,e.expression_type,e.exp_delimiter,e.case_sensitive" " from regexps r,expressions e" " where r.regexpid=e.regexpid" " and r.name in ("); for (n = 0; n < regexp_num; n++) { name_esc = DBdyn_escape_string(regexp[n]); zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, "%s'%s'", n == 0 ? "" : ",", name_esc); zbx_free(name_esc); zbx_free(regexp[n]); } zbx_chrcpy_alloc(&sql, &sql_alloc, &sql_offset, ')'); zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, DB_NODE, DBnode_local("r.regexpid")); result = DBselect("%s", sql); while (NULL != (row = DBfetch(result))) { zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, "name", row[0], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression", row[1], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression_type", row[2], ZBX_JSON_TYPE_INT); zbx_json_addstring(&json, "exp_delimiter", row[3], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "case_sensitive", row[4], ZBX_JSON_TYPE_INT); zbx_json_close(&json); } DBfree_result(result); } zbx_free(regexp); zabbix_log(LOG_LEVEL_DEBUG, "%s() sending [%s]", __function_name, json.buffer); alarm(CONFIG_TIMEOUT); if (SUCCEED != zbx_tcp_send(sock, json.buffer)) strscpy(error, zbx_tcp_strerror()); else res = SUCCEED; alarm(0); zbx_json_free(&json); zbx_free(sql); goto out; error: zabbix_log(LOG_LEVEL_WARNING, "cannot send list of active checks to [%s]: %s", get_ip_by_socket(sock), error); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_FAILED, ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, ZBX_PROTO_TAG_INFO, error, ZBX_JSON_TYPE_STRING); zabbix_log(LOG_LEVEL_DEBUG, "%s() sending [%s]", __function_name, json.buffer); res = zbx_tcp_send(sock, json.buffer); zbx_json_free(&json); out: zabbix_log(LOG_LEVEL_DEBUG, "End of %s():%s", __function_name, zbx_result_string(res)); return res; }
/****************************************************************************** * * * Function: process_new_values * * * * Purpose: process values sent by active agents and senders * * * * Parameters: * * * * Return value: SUCCEED - processed successfully * * FAIL - an error occured * * * * Author: Alexei Vladishev * * * * Comments: * * * ******************************************************************************/ static int process_new_values(zbx_sock_t *sock, struct zbx_json_parse *jp, const zbx_uint64_t proxy_hostid) { struct zbx_json_parse jp_data, jp_row; const char *p; char info[MAX_STRING_LEN], tmp[MAX_STRING_LEN]; int ret = SUCCEED; int processed = 0; double sec; time_t now, proxy_timediff = 0; #define VALUES_MAX 256 static AGENT_VALUE *values = NULL, *av; int value_num = 0; zabbix_log(LOG_LEVEL_DEBUG, "In process_new_values()"); now = time(NULL); sec = zbx_time(); if (NULL == values) values = zbx_malloc(values, VALUES_MAX * sizeof(AGENT_VALUE)); if (SUCCEED == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_CLOCK, tmp, sizeof(tmp))) proxy_timediff = now - atoi(tmp); /* {"request":"ZBX_SENDER_DATA","data":[{"key":"system.cpu.num",...,...},{...},...]} * ^ */ if (NULL == (p = zbx_json_pair_by_name(jp, ZBX_PROTO_TAG_DATA))) { zabbix_log(LOG_LEVEL_WARNING, "Can't find \"data\" pair"); ret = FAIL; } if(SUCCEED == ret) { /* {"request":"ZBX_SENDER_DATA","data":[{"key":"system.cpu.num",...,...},{...},...]} * ^------------------------------------------^ */ if (FAIL == (ret = zbx_json_brackets_open(p, &jp_data))) zabbix_log(LOG_LEVEL_WARNING, "Can't proceed jason request. %s", zbx_json_strerror()); } /* {"request":"ZBX_SENDER_DATA","data":[{"key":"system.cpu.num",...,...},{...},...]} * ^ */ p = NULL; while (SUCCEED == ret && NULL != (p = zbx_json_next(&jp_data, p))) { /* {"request":"ZBX_SENDER_DATA","data":[{"key":"system.cpu.num",...,...},{...},...]} * ^------------------------------^ */ if (FAIL == (ret = zbx_json_brackets_open(p, &jp_row))) break; /* zabbix_log(LOG_LEVEL_DEBUG, "Next \"%.*s\"", jp_row.end - jp_row.start + 1, jp_row.start);*/ av = &values[value_num]; memset(av, 0, sizeof(AGENT_VALUE)); if (SUCCEED == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_CLOCK, tmp, sizeof(tmp))) av->clock = atoi(tmp) + proxy_timediff; else av->clock = now; if (FAIL == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_HOST, av->host_name, sizeof(av->host_name))) continue; if (FAIL == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_KEY, av->key, sizeof(av->key))) continue; if (FAIL == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_VALUE, tmp, sizeof(tmp))) continue; av->value = strdup(tmp); if (SUCCEED == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_LOGLASTSIZE, tmp, sizeof(tmp))) av->lastlogsize = atoi(tmp); if (SUCCEED == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_LOGTIMESTAMP, tmp, sizeof(tmp))) av->timestamp = atoi(tmp); if (SUCCEED == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_LOGSOURCE, tmp, sizeof(tmp))) av->source = strdup(tmp); if (SUCCEED == zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_LOGSEVERITY, tmp, sizeof(tmp))) av->severity = atoi(tmp); value_num ++; if (value_num == VALUES_MAX) { process_mass_data(sock, proxy_hostid, values, value_num, &processed, proxy_timediff); clean_agent_values(values, value_num); value_num = 0; } } if (value_num > 0) process_mass_data(sock, proxy_hostid, values, value_num, &processed, proxy_timediff); clean_agent_values(values, value_num); zbx_snprintf(info, sizeof(info), "Processed %d Failed %d Total %d Seconds spent " ZBX_FS_DBL, processed, value_num - processed, value_num, zbx_time() - sec); if (send_result(sock, ret, info) != SUCCEED) { zabbix_log( LOG_LEVEL_WARNING, "Error sending result back"); zabbix_syslog("Trapper: error sending result back"); } return ret; }
/****************************************************************************** * * * Function: send_list_of_active_checks_json * * * * Purpose: send list of active checks to the host * * * * Parameters: sock - open socket of server-agent connection * * json - request buffer * * * * Return value: SUCCEED - list of active checks sent successfully * * FAIL - an error occurred * * * * Author: Alexander Vladishev * * * * Comments: * * * ******************************************************************************/ int send_list_of_active_checks_json(zbx_socket_t *sock, struct zbx_json_parse *jp) { const char *__function_name = "send_list_of_active_checks_json"; char host[HOST_HOST_LEN_MAX], tmp[MAX_STRING_LEN], ip[INTERFACE_IP_LEN_MAX], error[MAX_STRING_LEN], *host_metadata = NULL; struct zbx_json json; int ret = FAIL, i; zbx_uint64_t hostid; size_t host_metadata_alloc = 1; /* for at least NUL-termination char */ unsigned short port; zbx_vector_uint64_t itemids; zbx_vector_ptr_t regexps; zbx_vector_str_t names; zabbix_log(LOG_LEVEL_DEBUG, "In %s()", __function_name); zbx_vector_ptr_create(®exps); zbx_vector_str_create(&names); if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_HOST, host, sizeof(host))) { zbx_snprintf(error, MAX_STRING_LEN, "%s", zbx_json_strerror()); goto error; } host_metadata = zbx_malloc(host_metadata, host_metadata_alloc); if (FAIL == zbx_json_value_by_name_dyn(jp, ZBX_PROTO_TAG_HOST_METADATA, &host_metadata, &host_metadata_alloc)) { *host_metadata = '\0'; } if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_IP, ip, sizeof(ip))) strscpy(ip, sock->peer); if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_PORT, tmp, sizeof(tmp))) *tmp = '\0'; if (FAIL == is_ushort(tmp, &port)) port = ZBX_DEFAULT_AGENT_PORT; if (FAIL == get_hostid_by_host(sock, host, ip, port, host_metadata, &hostid, error)) goto error; zbx_vector_uint64_create(&itemids); get_list_of_active_checks(hostid, &itemids); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_SUCCESS, ZBX_JSON_TYPE_STRING); zbx_json_addarray(&json, ZBX_PROTO_TAG_DATA); if (0 != itemids.values_num) { DC_ITEM *dc_items; int *errcodes, now; zbx_config_t cfg; dc_items = zbx_malloc(NULL, sizeof(DC_ITEM) * itemids.values_num); errcodes = zbx_malloc(NULL, sizeof(int) * itemids.values_num); DCconfig_get_items_by_itemids(dc_items, itemids.values, errcodes, itemids.values_num); zbx_config_get(&cfg, ZBX_CONFIG_FLAGS_REFRESH_UNSUPPORTED); now = time(NULL); for (i = 0; i < itemids.values_num; i++) { if (SUCCEED != errcodes[i]) { zabbix_log(LOG_LEVEL_DEBUG, "%s() Item [" ZBX_FS_UI64 "] was not found in the" " server cache. Not sending now.", __function_name, itemids.values[i]); continue; } if (ITEM_STATUS_ACTIVE != dc_items[i].status) continue; if (HOST_STATUS_MONITORED != dc_items[i].host.status) continue; if (ITEM_STATE_NOTSUPPORTED == dc_items[i].state) { if (0 == cfg.refresh_unsupported) continue; if (dc_items[i].lastclock + cfg.refresh_unsupported > now) continue; } dc_items[i].key = zbx_strdup(dc_items[i].key, dc_items[i].key_orig); substitute_key_macros(&dc_items[i].key, NULL, &dc_items[i], NULL, MACRO_TYPE_ITEM_KEY, NULL, 0); zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY, dc_items[i].key, ZBX_JSON_TYPE_STRING); if (0 != strcmp(dc_items[i].key, dc_items[i].key_orig)) { zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY_ORIG, dc_items[i].key_orig, ZBX_JSON_TYPE_STRING); } zbx_json_adduint64(&json, ZBX_PROTO_TAG_DELAY, dc_items[i].delay); /* The agent expects ALWAYS to have lastlogsize and mtime tags. */ /* Removing those would cause older agents to fail. */ zbx_json_adduint64(&json, ZBX_PROTO_TAG_LASTLOGSIZE, dc_items[i].lastlogsize); zbx_json_adduint64(&json, ZBX_PROTO_TAG_MTIME, dc_items[i].mtime); zbx_json_close(&json); zbx_itemkey_extract_global_regexps(dc_items[i].key, &names); zbx_free(dc_items[i].key); } zbx_config_clean(&cfg); DCconfig_clean_items(dc_items, errcodes, itemids.values_num); zbx_free(errcodes); zbx_free(dc_items); } zbx_vector_uint64_destroy(&itemids); zbx_json_close(&json); DCget_expressions_by_names(®exps, (const char * const *)names.values, names.values_num); if (0 < regexps.values_num) { char buffer[32]; zbx_json_addarray(&json, ZBX_PROTO_TAG_REGEXP); for (i = 0; i < regexps.values_num; i++) { zbx_expression_t *regexp = regexps.values[i]; zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, "name", regexp->name, ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression", regexp->expression, ZBX_JSON_TYPE_STRING); zbx_snprintf(buffer, sizeof(buffer), "%d", regexp->expression_type); zbx_json_addstring(&json, "expression_type", buffer, ZBX_JSON_TYPE_INT); zbx_snprintf(buffer, sizeof(buffer), "%c", regexp->exp_delimiter); zbx_json_addstring(&json, "exp_delimiter", buffer, ZBX_JSON_TYPE_STRING); zbx_snprintf(buffer, sizeof(buffer), "%d", regexp->case_sensitive); zbx_json_addstring(&json, "case_sensitive", buffer, ZBX_JSON_TYPE_INT); zbx_json_close(&json); } zbx_json_close(&json); } zabbix_log(LOG_LEVEL_DEBUG, "%s() sending [%s]", __function_name, json.buffer); zbx_alarm_on(CONFIG_TIMEOUT); if (SUCCEED != zbx_tcp_send(sock, json.buffer)) strscpy(error, zbx_socket_strerror()); else ret = SUCCEED; zbx_alarm_off(); zbx_json_free(&json); goto out; error: zabbix_log(LOG_LEVEL_WARNING, "cannot send list of active checks to \"%s\": %s", sock->peer, error); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_FAILED, ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, ZBX_PROTO_TAG_INFO, error, ZBX_JSON_TYPE_STRING); zabbix_log(LOG_LEVEL_DEBUG, "%s() sending [%s]", __function_name, json.buffer); ret = zbx_tcp_send(sock, json.buffer); zbx_json_free(&json); out: for (i = 0; i < names.values_num; i++) zbx_free(names.values[i]); zbx_vector_str_destroy(&names); zbx_regexp_clean_expressions(®exps); zbx_vector_ptr_destroy(®exps); zbx_free(host_metadata); zabbix_log(LOG_LEVEL_DEBUG, "End of %s():%s", __function_name, zbx_result_string(ret)); return ret; }
/****************************************************************************** * * * Function: parse_list_of_checks * * * * Purpose: Parse list of active checks received from server * * * * Parameters: str - NULL terminated string received from server * * host - address of host * * port - port number on host * * * * Return value: returns SUCCEED on successful parsing, * * FAIL on an incorrect format of string * * * * Author: Eugene Grigorjev, Alexei Vladishev (new json protocol) * * * * Comments: * * String represented as "ZBX_EOF" termination list * * With '\n' delimiter between elements. * * Each element represented as: * * <key>:<refresh time>:<last log size>:<modification time> * * * ******************************************************************************/ static int parse_list_of_checks(char *str, const char *host, unsigned short port) { const char *p; char name[MAX_STRING_LEN], key_orig[MAX_STRING_LEN], expression[MAX_STRING_LEN], tmp[MAX_STRING_LEN], exp_delimiter; int delay, mtime, expression_type, case_sensitive; zbx_uint64_t lastlogsize; struct zbx_json_parse jp; struct zbx_json_parse jp_data, jp_row; zabbix_log(LOG_LEVEL_DEBUG, "In parse_list_of_checks()"); disable_all_metrics(); if (SUCCEED != zbx_json_open(str, &jp)) goto json_error; if (SUCCEED != zbx_json_value_by_name(&jp, ZBX_PROTO_TAG_RESPONSE, tmp, sizeof(tmp))) goto json_error; if (0 != strcmp(tmp, ZBX_PROTO_VALUE_SUCCESS)) { if (SUCCEED == zbx_json_value_by_name(&jp, ZBX_PROTO_TAG_INFO, tmp, sizeof(tmp))) zabbix_log(LOG_LEVEL_WARNING, "no active checks on server [%s:%hu]: %s", host, port, tmp); else zabbix_log(LOG_LEVEL_WARNING, "no active checks on server"); return FAIL; } if (SUCCEED != zbx_json_brackets_by_name(&jp, ZBX_PROTO_TAG_DATA, &jp_data)) goto json_error; p = NULL; while (NULL != (p = zbx_json_next(&jp_data, p))) { /* {"data":[{"key":"system.cpu.num",...,...},{...},...]} * ^------------------------------^ */ if (SUCCEED != zbx_json_brackets_open(p, &jp_row)) goto json_error; if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_KEY, name, sizeof(name)) || '\0' == *name) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", ZBX_PROTO_TAG_KEY); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_KEY_ORIG, key_orig, sizeof(key_orig)) || '\0' == *key_orig) { zbx_strlcpy(key_orig, name, sizeof(key_orig)); } if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_DELAY, tmp, sizeof(tmp)) || '\0' == *tmp) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", ZBX_PROTO_TAG_DELAY); continue; } delay = atoi(tmp); if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_LOGLASTSIZE, tmp, sizeof(tmp)) || SUCCEED != is_uint64(tmp, &lastlogsize)) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", ZBX_PROTO_TAG_LOGLASTSIZE); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, ZBX_PROTO_TAG_MTIME, tmp, sizeof(tmp)) || '\0' == *tmp) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", ZBX_PROTO_TAG_MTIME); mtime = 0; } else mtime = atoi(tmp); add_check(name, key_orig, delay, lastlogsize, mtime); } zbx_regexp_clean_expressions(®exps); if (SUCCEED == zbx_json_brackets_by_name(&jp, ZBX_PROTO_TAG_REGEXP, &jp_data)) { p = NULL; while (NULL != (p = zbx_json_next(&jp_data, p))) { /* {"regexp":[{"name":"regexp1",...,...},{...},...]} * ^------------------------^ */ if (SUCCEED != zbx_json_brackets_open(p, &jp_row)) goto json_error; if (SUCCEED != zbx_json_value_by_name(&jp_row, "name", name, sizeof(name))) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", "name"); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, "expression", expression, sizeof(expression)) || '\0' == *expression) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", "expression"); continue; } if (SUCCEED != zbx_json_value_by_name(&jp_row, "expression_type", tmp, sizeof(tmp)) || '\0' == *tmp) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", "expression_type"); continue; } expression_type = atoi(tmp); if (SUCCEED != zbx_json_value_by_name(&jp_row, "exp_delimiter", tmp, sizeof(tmp))) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", "exp_delimiter"); continue; } exp_delimiter = tmp[0]; if (SUCCEED != zbx_json_value_by_name(&jp_row, "case_sensitive", tmp, sizeof(tmp)) || '\0' == *tmp) { zabbix_log(LOG_LEVEL_WARNING, "cannot retrieve value of tag \"%s\"", "case_sensitive"); continue; } case_sensitive = atoi(tmp); add_regexp_ex(®exps, name, expression, expression_type, exp_delimiter, case_sensitive); } } return SUCCEED; json_error: zabbix_log(LOG_LEVEL_ERR, "cannot parse list of active checks: %s", zbx_json_strerror()); return FAIL; }
static int process_trap(zbx_socket_t *sock, char *s, zbx_timespec_t *ts) { int ret = SUCCEED; zbx_rtrim(s, " \r\n"); zabbix_log(LOG_LEVEL_DEBUG, "trapper got '%s'", s); if ('{' == *s) /* JSON protocol */ { struct zbx_json_parse jp; char value[MAX_STRING_LEN]; if (SUCCEED != zbx_json_open(s, &jp)) { zbx_send_response(sock, FAIL, zbx_json_strerror(), CONFIG_TIMEOUT); zabbix_log(LOG_LEVEL_WARNING, "received invalid JSON object from %s: %s", sock->peer, zbx_json_strerror()); return FAIL; } if (SUCCEED == zbx_json_value_by_name(&jp, ZBX_PROTO_TAG_REQUEST, value, sizeof(value))) { if (0 == strcmp(value, ZBX_PROTO_VALUE_PROXY_CONFIG)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) { send_proxyconfig(sock, &jp); } else if (0 != (program_type & ZBX_PROGRAM_TYPE_PROXY_PASSIVE)) { zabbix_log(LOG_LEVEL_WARNING, "received configuration data from server" " at \"%s\", datalen " ZBX_FS_SIZE_T, sock->peer, (zbx_fs_size_t)(jp.end - jp.start + 1)); recv_proxyconfig(sock, &jp); } else if (0 != (program_type & ZBX_PROGRAM_TYPE_PROXY_ACTIVE)) { /* This is a misconfiguration: the proxy is configured in active mode */ /* but server sends requests to it as to a proxy in passive mode. To */ /* prevent logging of this problem for every request we report it */ /* only when the server sends configuration to the proxy and ignore */ /* it for other requests. */ active_passive_misconfig(sock); } } else if (0 == strcmp(value, ZBX_PROTO_VALUE_AGENT_DATA) || 0 == strcmp(value, ZBX_PROTO_VALUE_SENDER_DATA)) { recv_agenthistory(sock, &jp, ts); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_HISTORY_DATA)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) recv_proxyhistory(sock, &jp, ts); else if (0 != (program_type & ZBX_PROGRAM_TYPE_PROXY_PASSIVE)) send_proxyhistory(sock, ts); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_DISCOVERY_DATA)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) recv_discovery_data(sock, &jp); else if (0 != (program_type & ZBX_PROGRAM_TYPE_PROXY_PASSIVE)) send_discovery_data(sock); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_AUTO_REGISTRATION_DATA)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) recv_areg_data(sock, &jp); else if (0 != (program_type & ZBX_PROGRAM_TYPE_PROXY_PASSIVE)) send_areg_data(sock); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_PROXY_HEARTBEAT)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) recv_proxy_heartbeat(sock, &jp); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_GET_ACTIVE_CHECKS)) { ret = send_list_of_active_checks_json(sock, &jp); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_HOST_AVAILABILITY)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) recv_host_availability(sock, &jp); else if (0 != (program_type & ZBX_PROGRAM_TYPE_PROXY_PASSIVE)) send_host_availability(sock); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_COMMAND)) { ret = node_process_command(sock, s, &jp); } else if (0 == strcmp(value, ZBX_PROTO_VALUE_GET_QUEUE)) { if (0 != (program_type & ZBX_PROGRAM_TYPE_SERVER)) ret = recv_getqueue(sock, &jp); } else zabbix_log(LOG_LEVEL_WARNING, "unknown request received [%s]", value); } } else if (0 == strncmp(s, "ZBX_GET_ACTIVE_CHECKS", 21)) /* request for list of active checks */ { ret = send_list_of_active_checks(sock, s); } else { char value_dec[MAX_BUFFER_LEN], lastlogsize[ZBX_MAX_UINT64_LEN], timestamp[11], source[HISTORY_LOG_SOURCE_LEN_MAX], severity[11]; AGENT_VALUE av; memset(&av, 0, sizeof(AGENT_VALUE)); if ('<' == *s) /* XML protocol */ { comms_parse_response(s, av.host_name, sizeof(av.host_name), av.key, sizeof(av.key), value_dec, sizeof(value_dec), lastlogsize, sizeof(lastlogsize), timestamp, sizeof(timestamp), source, sizeof(source), severity, sizeof(severity)); av.value = value_dec; if (SUCCEED != is_uint64(lastlogsize, &av.lastlogsize)) av.lastlogsize = 0; av.timestamp = atoi(timestamp); av.source = source; av.severity = atoi(severity); } else { char *pl, *pr; pl = s; if (NULL == (pr = strchr(pl, ':'))) return FAIL; *pr = '\0'; zbx_strlcpy(av.host_name, pl, sizeof(av.host_name)); *pr = ':'; pl = pr + 1; if (NULL == (pr = strchr(pl, ':'))) return FAIL; *pr = '\0'; zbx_strlcpy(av.key, pl, sizeof(av.key)); *pr = ':'; av.value = pr + 1; av.severity = 0; } zbx_timespec(&av.ts); if (0 == strcmp(av.value, ZBX_NOTSUPPORTED)) av.state = ITEM_STATE_NOTSUPPORTED; process_mass_data(sock, 0, &av, 1, NULL); zbx_alarm_on(CONFIG_TIMEOUT); if (SUCCEED != zbx_tcp_send_raw(sock, "OK")) zabbix_log(LOG_LEVEL_WARNING, "Error sending result back"); zbx_alarm_off(); } return ret; }
/****************************************************************************** * * * Function: send_list_of_active_checks_json * * * * Purpose: send list of active checks to the host * * * * Parameters: sock - open socket of server-agent connection * * json - request buffer * * * * Return value: SUCCEED - list of active checks sent successfully * * FAIL - an error occurred * * * * Author: Alexander Vladishev * * * * Comments: * * * ******************************************************************************/ int send_list_of_active_checks_json(zbx_sock_t *sock, struct zbx_json_parse *jp) { char host[HOST_HOST_LEN_MAX], *name_esc, params[MAX_STRING_LEN], pattern[MAX_STRING_LEN], tmp[32], key_severity[MAX_STRING_LEN], key_logeventid[MAX_STRING_LEN]; DB_RESULT result; DB_ROW row; DB_ITEM item; struct zbx_json json; int res = FAIL; zbx_uint64_t hostid; char error[MAX_STRING_LEN]; DC_ITEM dc_item; char **regexp = NULL; int regexp_alloc = 0; int regexp_num = 0, n; char *sql = NULL; int sql_alloc = 2048; int sql_offset; zabbix_log(LOG_LEVEL_DEBUG, "In send_list_of_active_checks_json()"); if (FAIL == zbx_json_value_by_name(jp, ZBX_PROTO_TAG_HOST, host, sizeof(host))) { zbx_snprintf(error, MAX_STRING_LEN, "%s", zbx_json_strerror()); goto error; } if (FAIL == get_hostid_by_host(host, &hostid, error)) goto error; sql = zbx_malloc(sql, sql_alloc); name_esc = DBdyn_escape_string(host); sql_offset = 0; zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 1024, "select %s where i.hostid=h.hostid and h.status=%d and i.type=%d and h.hostid=" ZBX_FS_UI64 " and h.proxy_hostid=0", ZBX_SQL_ITEM_SELECT, HOST_STATUS_MONITORED, ITEM_TYPE_ZABBIX_ACTIVE, hostid); if (0 != CONFIG_REFRESH_UNSUPPORTED) zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 256, " and (i.status=%d or (i.status=%d and i.lastclock+%d<=%d))", ITEM_STATUS_ACTIVE, ITEM_STATUS_NOTSUPPORTED, CONFIG_REFRESH_UNSUPPORTED, time(NULL)); else zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 256, " and i.status=%d", ITEM_STATUS_ACTIVE); zbx_free(name_esc); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_SUCCESS, ZBX_JSON_TYPE_STRING); zbx_json_addarray(&json, ZBX_PROTO_TAG_DATA); result = DBselect("%s", sql); while (NULL != (row = DBfetch(result))) { if (FAIL == DCconfig_get_item_by_key(&dc_item, (zbx_uint64_t)0, host, row[1])) { zabbix_log(LOG_LEVEL_DEBUG, "Item '%s' was not found in the server cache. Not sending now.", row[1]); continue; } zabbix_log(LOG_LEVEL_DEBUG, "Item '%s' was successfully found in the server cache. Sending.", row[1]); DBget_item_from_db(&item, row); zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY, item.key, ZBX_JSON_TYPE_STRING); if (0 != strcmp(item.key, item.key_orig)) zbx_json_addstring(&json, ZBX_PROTO_TAG_KEY_ORIG, item.key_orig, ZBX_JSON_TYPE_STRING); zbx_snprintf(tmp, sizeof(tmp), "%d", item.delay); zbx_json_addstring(&json, ZBX_PROTO_TAG_DELAY, tmp, ZBX_JSON_TYPE_STRING); /* The agent expects ALWAYS to have lastlogsize and mtime tags. Removing those would cause older agents to fail. */ zbx_snprintf(tmp, sizeof(tmp), "%d", item.lastlogsize); zbx_json_addstring(&json, ZBX_PROTO_TAG_LOGLASTSIZE, tmp, ZBX_JSON_TYPE_STRING); zbx_snprintf(tmp, sizeof(tmp), "%d", item.mtime); zbx_json_addstring(&json, ZBX_PROTO_TAG_MTIME, tmp, ZBX_JSON_TYPE_STRING); zbx_json_close(&json); /* Special processing for log[] and logrt[] items */ do { /* simple try realization */ /* log[filename,pattern,encoding,maxlinespersec] */ /* logrt[filename_format,pattern,encoding,maxlinespersec] */ if (0 != strncmp(item.key, "log[", 4) && 0 != strncmp(item.key, "logrt[", 6)) break; if (2 != parse_command(item.key, NULL, 0, params, MAX_STRING_LEN)) break; /*dealing with `pattern' parameter*/ if (0 == get_param(params, 2, pattern, sizeof(pattern)) && *pattern == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, pattern + 1); } while (0); /* simple try realization */ /* Special processing for eventlog[] items */ do { /* simple try realization */ /* eventlog[filename,pattern,severity,source,logeventid,maxlinespersec] */ if (0 != strncmp(item.key, "eventlog[", 9)) break; if (2 != parse_command(item.key, NULL, 0, params, MAX_STRING_LEN)) break; /*dealing with `pattern' parameter*/ if (0 == get_param(params, 2, pattern, sizeof(pattern)) && *pattern == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, pattern + 1); /*dealing with `severity' parameter*/ if (0 == get_param(params, 3, key_severity, sizeof(key_severity)) && *key_severity == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, key_severity + 1); /*dealing with `logeventid' parameter*/ if (0 == get_param(params, 5, key_logeventid, sizeof(key_logeventid)) && *key_logeventid == '@') add_regexp_name(®exp, ®exp_alloc, ®exp_num, key_logeventid + 1); } while (0); /* simple try realization */ } zbx_json_close(&json); DBfree_result(result); if (0 != regexp_num) { zbx_json_addarray(&json, ZBX_PROTO_TAG_REGEXP); sql_offset = 0; zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 512, "select r.name,e.expression,e.expression_type,e.exp_delimiter,e.case_sensitive" " from regexps r,expressions e where r.regexpid=e.regexpid and r.name in ("); for (n = 0; n < regexp_num; n++) { name_esc = DBdyn_escape_string(regexp[n]); zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 512, "%s'%s'", n == 0 ? "" : ",", name_esc); zbx_free(name_esc); zbx_free(regexp[n]); } zbx_snprintf_alloc(&sql, &sql_alloc, &sql_offset, 8, ")"); result = DBselect("%s", sql); while (NULL != (row = DBfetch(result))) { zbx_json_addobject(&json, NULL); zbx_json_addstring(&json, "name", row[0], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression", row[1], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "expression_type", row[2], ZBX_JSON_TYPE_INT); zbx_json_addstring(&json, "exp_delimiter", row[3], ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, "case_sensitive", row[4], ZBX_JSON_TYPE_INT); zbx_json_close(&json); } DBfree_result(result); } zbx_free(regexp); zabbix_log(LOG_LEVEL_DEBUG, "Sending [%s]", json.buffer); alarm(CONFIG_TIMEOUT); if (SUCCEED != zbx_tcp_send(sock, json.buffer)) zbx_snprintf(error, MAX_STRING_LEN, "%s", zbx_tcp_strerror()); else res = SUCCEED; alarm(0); zbx_json_free(&json); zbx_free(sql); return res; error: //zabbix_log(LOG_LEVEL_WARNING, "Sending list of active checks to [%s] failed: %s", // get_ip_by_socket(sock), error); zbx_json_init(&json, ZBX_JSON_STAT_BUF_LEN); zbx_json_addstring(&json, ZBX_PROTO_TAG_RESPONSE, ZBX_PROTO_VALUE_FAILED, ZBX_JSON_TYPE_STRING); zbx_json_addstring(&json, ZBX_PROTO_TAG_INFO, error, ZBX_JSON_TYPE_STRING); zabbix_log(LOG_LEVEL_DEBUG, "Sending [%s]", json.buffer); res = zbx_tcp_send(sock, json.buffer); zbx_json_free(&json); return res; }