/**************************************************************************//** * @file * Agent for the OPNFV VNF Event Stream (VES) vHello_VES test * * Copyright 2016-2017 AT&T Intellectual Property, Inc * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *****************************************************************************/ #include #include #include #include #include #include #include #include #include "evel.h" #include "evel_demo.h" #include "evel_test_control.h" /**************************************************************************//** * Definition of long options to the program. * * See the documentation for getopt_long() for details of the structure's use. *****************************************************************************/ static const struct option long_options[] = { {"help", no_argument, 0, 'h'}, {"id", required_argument, 0, 'i'}, {"fqdn", required_argument, 0, 'f'}, {"port", required_argument, 0, 'n'}, {"path", required_argument, 0, 'p'}, {"topic", required_argument, 0, 't'}, {"https", no_argument, 0, 's'}, {"verbose", no_argument, 0, 'v'}, {"cycles", required_argument, 0, 'c'}, {"username", required_argument, 0, 'u'}, {"password", required_argument, 0, 'w'}, {"nothrott", no_argument, 0, 'x'}, {0, 0, 0, 0} }; /**************************************************************************//** * Definition of short options to the program. *****************************************************************************/ static const char* short_options = "hi:f:n:p:t:sc:u:w:vx"; /**************************************************************************//** * Basic user help text describing the usage of the application. *****************************************************************************/ static const char* usage_text = "evel_demo [--help]\n" " --id \n" " --fqdn \n" " --port \n" " [--path ]\n" " [--topic ]\n" " [--username ]\n" " [--password ]\n" " [--https]\n" " [--cycles ]\n" " [--nothrott]\n" "\n" "Demonstrate use of the ECOMP Vendor Event Listener API.\n" "\n" " -h Display this usage message.\n" " --help\n" "\n" " -i The ID of the agent host.\n" " --id\n" "\n" " -f The FQDN or IP address to the RESTful API.\n" " --fqdn\n" "\n" " -n The port number the RESTful API.\n" " --port\n" "\n" " -p The optional path prefix to the RESTful API.\n" " --path\n" "\n" " -t The optional topic part of the RESTful API.\n" " --topic\n" "\n" " -u The optional username for basic authentication of requests.\n" " --username\n" "\n" " -w The optional password for basic authentication of requests.\n" " --password\n" "\n" " -s Use HTTPS rather than HTTP for the transport.\n" " --https\n" "\n" " -c Loop times round the main loop. Default = 1.\n" " --cycles\n" "\n" " -v Generate much chattier logs.\n" " --verbose\n" "\n" " -x Exclude throttling commands from demonstration.\n" " --nothrott\n"; #define DEFAULT_SLEEP_SECONDS 3 #define MINIMUM_SLEEP_SECONDS 1 unsigned long long epoch_start = 0; typedef enum { SERVICE_CODEC, SERVICE_TRANSCODING, SERVICE_RTCP, SERVICE_EOC_VQM, SERVICE_MARKER } SERVICE_EVENT; /*****************************************************************************/ /* Local prototypes. */ /*****************************************************************************/ static void demo_heartbeat(void); static void demo_fault(void); static void demo_measurement(const int interval); static void demo_mobile_flow(void); static void demo_service(void); static void demo_service_event(const SERVICE_EVENT service_event); static void demo_signaling(void); static void demo_state_change(void); static void demo_syslog(void); static void demo_other(void); /**************************************************************************//** * Global flags related the applicaton. *****************************************************************************/ char *app_prevstate = "Stopped"; /**************************************************************************//** * Report app state change fault. * * Reports the change in app state. * * param[in] char *change The type of change ("Started", "Stopped") *****************************************************************************/ void report_app_statechange(char *change) { printf("report_app_statechange(%s)\n", change); EVENT_FAULT * fault = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; fault = evel_new_fault("App state change", change, EVEL_PRIORITY_HIGH, EVEL_SEVERITY_MAJOR); if (fault != NULL) { evel_fault_type_set(fault, "App state change"); evel_fault_addl_info_add(fault, "change", change); evel_rc = evel_post_event((EVENT_HEADER *)fault); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } else { EVEL_ERROR("Unable to send new fault report"); } } } /**************************************************************************//** * Check status of the app container. * * Checks and reports any change in app state. * * param[in] none *****************************************************************************/ void check_app_container_state() { printf("Checking status of app container\n"); FILE *fp; int status; char state[100]; fp = popen("sudo docker inspect vHello | grep Status | sed -- 's/,//g' | sed -- 's/\"//g' | sed -- 's/ Status: //g'", "r"); if (fp == NULL) { EVEL_ERROR("popen failed to execute command"); } fgets(state, 100, fp); if (strstr(state, "running") != NULL) { if (strcmp(app_prevstate,"Stopped") == 0) { printf("App state change detected: Started\n"); report_app_statechange("Started"); app_prevstate = "Running"; } } else { if (strcmp(app_prevstate, "Running") == 0) { printf("App state change detected: Stopped\n"); report_app_statechange("Stopped"); app_prevstate = "Stopped"; } } status = pclose(fp); if (status == -1) { EVEL_ERROR("pclose returned an error"); } } /**************************************************************************//** * Measure app traffic * * Reports transactions per second in the last second. * * param[in] none *****************************************************************************/ double cpu() { double a[4], b[4], loadavg; FILE *fp; int status; fp = fopen("/proc/stat","r"); fscanf(fp,"%*s %lf %lf %lf %lf",&a[0],&a[1],&a[2],&a[3]); fclose(fp); sleep(1); fp = fopen("/proc/stat","r"); fscanf(fp,"%*s %lf %lf %lf %lf",&b[0],&b[1],&b[2],&b[3]); fclose(fp); loadavg = ((b[0]+b[1]+b[2]) - (a[0]+a[1]+a[2])) / ((b[0]+b[1]+b[2]+b[3]) - (a[0]+a[1]+a[2]+a[3])); return(loadavg); } void measure_traffic() { printf("Checking app traffic\n"); EVENT_FAULT * fault = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; EVENT_MEASUREMENT * measurement = NULL; FILE *fp; int status; char count[10]; time_t rawtime; struct tm * timeinfo; char period [21]; char cmd [100]; int concurrent_sessions = 0; int configured_entities = 0; double mean_request_latency = 0; double measurement_interval = 1; double memory_configured = 0; double memory_used = 0; int request_rate; char secs [3]; int sec; double loadavg; time (&rawtime); timeinfo = localtime (&rawtime); strftime(period,21,"%d/%b/%Y:%H:%M:",timeinfo); strftime(secs,3,"%S",timeinfo); sec = atoi(secs); if (sec == 0) sec = 59; sprintf(secs, "%02d", sec); strncat(period, secs, 21); // ....x....1....x....2. // 15/Oct/2016:17:51:19 strcpy(cmd, "sudo docker logs vHello | grep -c "); strncat(cmd, period, 100); fp = popen(cmd, "r"); if (fp == NULL) { EVEL_ERROR("popen failed to execute command"); } if (fgets(count, 10, fp) != NULL) { request_rate = atoi(count); printf("Reporting request rate for second: %s as %d\n", period, request_rate); measurement = evel_new_measurement(measurement_interval); if (measurement != NULL) { cpu(); evel_measurement_type_set(measurement, "HTTP request rate"); evel_measurement_request_rate_set(measurement, request_rate); // evel_measurement_agg_cpu_use_set(measurement, loadavg); // evel_measurement_cpu_use_add(measurement, "cpu0", loadavg); evel_rc = evel_post_event((EVENT_HEADER *)measurement); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post Measurement failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Measurement failed"); } printf("Processed measurement\n"); } status = pclose(fp); if (status == -1) { EVEL_ERROR("pclose returned an error"); } } /**************************************************************************//** * Global flag to initiate shutdown. *****************************************************************************/ static int glob_exit_now = 0; static char * api_fqdn = NULL; static int api_port = 0; static int api_secure = 0; static void show_usage(FILE* fp) { fputs(usage_text, fp); } /**************************************************************************//** * Main function. * * Parses the command-line then ... * * @param[in] argc Argument count. * @param[in] argv Argument vector - for usage see usage_text. *****************************************************************************/ int main(int argc, char ** argv) { sigset_t sig_set; pthread_t thread_id; int option_index = 0; int param = 0; char * api_vmid = NULL; char * api_path = NULL; char * api_topic = NULL; char * api_username = ""; char * api_password = ""; int verbose_mode = 0; int exclude_throttling = 0; int cycles = 2147483647; int cycle; int measurement_interval = EVEL_MEASUREMENT_INTERVAL_UKNOWN; EVENT_HEADER * heartbeat = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* We're very interested in memory management problems so check behavior. */ /***************************************************************************/ mcheck(NULL); if (argc < 2) { show_usage(stderr); exit(-1); } param = getopt_long(argc, argv, short_options, long_options, &option_index); while (param != -1) { switch (param) { case 'h': show_usage(stdout); exit(0); break; case 'i': api_vmid = optarg; break; case 'f': api_fqdn = optarg; break; case 'n': api_port = atoi(optarg); break; case 'p': api_path = optarg; break; case 't': api_topic = optarg; break; case 'u': api_username = optarg; break; case 'w': api_password = optarg; break; case 's': api_secure = 1; break; case 'c': cycles = atoi(optarg); break; case 'v': verbose_mode = 1; break; case 'x': exclude_throttling = 1; break; case '?': /*********************************************************************/ /* Unrecognized parameter - getopt_long already printed an error */ /* message. */ /*********************************************************************/ break; default: fprintf(stderr, "Code error: recognized but missing option (%d)!\n", param); exit(-1); } /*************************************************************************/ /* Extract next parameter. */ /*************************************************************************/ param = getopt_long(argc, argv, short_options, long_options, &option_index); } /***************************************************************************/ /* All the command-line has parsed cleanly, so now check that the options */ /* are meaningful. */ /***************************************************************************/ if (api_fqdn == NULL) { fprintf(stderr, "FQDN of the Vendor Event Listener API server must be " "specified.\n"); exit(1); } if (api_port <= 0 || api_port > 65535) { fprintf(stderr, "Port for the Vendor Event Listener API server must be " "specified between 1 and 65535.\n"); exit(1); } if (cycles <= 0) { fprintf(stderr, "Number of cycles around the main loop must be an" "integer greater than zero.\n"); exit(1); } /***************************************************************************/ /* Set up default signal behaviour. Block all signals we trap explicitly */ /* on the signal_watcher thread. */ /***************************************************************************/ sigemptyset(&sig_set); sigaddset(&sig_set, SIGALRM); sigaddset(&sig_set, SIGINT); pthread_sigmask(SIG_BLOCK, &sig_set, NULL); /***************************************************************************/ /* Start the signal watcher thread. */ /***************************************************************************/ if (pthread_create(&thread_id, NULL, signal_watcher, &sig_set) != 0) { fprintf(stderr, "Failed to start signal watcher thread."); exit(1); } pthread_detach(thread_id); /***************************************************************************/ /* Version info */ /***************************************************************************/ printf("%s built %s %s\n", argv[0], __DATE__, __TIME__); /***************************************************************************/ /* Initialize the EVEL interface. */ /***************************************************************************/ if (evel_initialize(api_fqdn, api_port, api_path, api_topic, api_secure, api_username, api_password, EVEL_SOURCE_VIRTUAL_MACHINE, "EVEL demo client", verbose_mode)) { fprintf(stderr, "Failed to initialize the EVEL library!!!"); exit(-1); } else { EVEL_INFO("Initialization completed"); } /***************************************************************************/ /* Work out a start time for measurements, and sleep for initial period. */ /***************************************************************************/ struct timeval tv_start; gettimeofday(&tv_start, NULL); epoch_start = tv_start.tv_usec + 1000000 * tv_start.tv_sec; sleep(DEFAULT_SLEEP_SECONDS); /***************************************************************************/ /* MAIN LOOP */ /***************************************************************************/ printf("Starting %d loops...\n", cycles); cycle = 0; while (cycle++ < cycles) { EVEL_INFO("MAI: Starting main loop"); printf("\nStarting main loop %d\n", cycle); /*************************************************************************/ /* A 20s-long repeating cycle of behaviour. */ /*************************************************************************/ if (exclude_throttling == 0) { switch (cycle % 20) { case 1: printf(" 1 - Resetting throttle specification for all domains\n"); evel_test_control_scenario(TC_RESET_ALL_DOMAINS, api_secure, api_fqdn, api_port); break; case 2: printf(" 2 - Switching measurement interval to 2s\n"); evel_test_control_meas_interval(2, api_secure, api_fqdn, api_port); break; case 3: printf(" 3 - Suppressing fault domain\n"); evel_test_control_scenario(TC_FAULT_SUPPRESS_FIELDS_AND_PAIRS, api_secure, api_fqdn, api_port); break; case 4: printf(" 4 - Suppressing measurement domain\n"); evel_test_control_scenario(TC_MEAS_SUPPRESS_FIELDS_AND_PAIRS, api_secure, api_fqdn, api_port); break; case 5: printf(" 5 - Switching measurement interval to 5s\n"); evel_test_control_meas_interval(5, api_secure, api_fqdn, api_port); break; case 6: printf(" 6 - Suppressing mobile flow domain\n"); evel_test_control_scenario(TC_MOBILE_SUPPRESS_FIELDS_AND_PAIRS, api_secure, api_fqdn, api_port); break; case 7: printf(" 7 - Suppressing state change domain\n"); evel_test_control_scenario(TC_STATE_SUPPRESS_FIELDS_AND_PAIRS, api_secure, api_fqdn, api_port); break; case 8: printf(" 8 - Suppressing signaling domain\n"); evel_test_control_scenario(TC_SIGNALING_SUPPRESS_FIELDS, api_secure, api_fqdn, api_port); break; case 9: printf(" 9 - Suppressing service event domain\n"); evel_test_control_scenario(TC_SERVICE_SUPPRESS_FIELDS_AND_PAIRS, api_secure, api_fqdn, api_port); break; case 10: printf(" 10 - Switching measurement interval to 20s\n"); evel_test_control_meas_interval(20, api_secure, api_fqdn, api_port); break; case 11: printf(" 11 - Suppressing syslog domain\n"); evel_test_control_scenario(TC_SYSLOG_SUPPRESS_FIELDS_AND_PAIRS, api_secure, api_fqdn, api_port); break; case 12: printf(" 12 - Switching measurement interval to 10s\n"); evel_test_control_meas_interval(10, api_secure, api_fqdn, api_port); break; case 15: printf(" Requesting provide throttling spec\n"); evel_test_control_scenario(TC_PROVIDE_THROTTLING_SPEC, api_secure, api_fqdn, api_port); break; } } fflush(stdout); /*************************************************************************/ /* Send a bunch of events. */ /*************************************************************************/ printf("Sending heartbeat\n"); heartbeat = evel_new_heartbeat(); if (heartbeat != NULL) { evel_rc = evel_post_event(heartbeat); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New heartbeat failed"); } check_app_container_state(); measure_traffic(); // demo_heartbeat(); // demo_fault(); // demo_measurement((measurement_interval == // EVEL_MEASUREMENT_INTERVAL_UKNOWN) ? // DEFAULT_SLEEP_SECONDS : measurement_interval); // demo_mobile_flow(); // demo_service(); // demo_signaling(); // demo_state_change(); // demo_syslog(); // demo_other(); /*************************************************************************/ /* MAIN RETRY LOOP. Check and implement the measurement interval. */ /*************************************************************************/ if (cycle <= cycles) { int sleep_time; /***********************************************************************/ /* We have a minimum loop time. */ /***********************************************************************/ sleep(MINIMUM_SLEEP_SECONDS); /***********************************************************************/ /* Get the latest measurement interval and sleep for the remainder. */ /***********************************************************************/ measurement_interval = evel_get_measurement_interval(); printf("Measurement Interval = %d\n", measurement_interval); if (measurement_interval == EVEL_MEASUREMENT_INTERVAL_UKNOWN) { sleep_time = DEFAULT_SLEEP_SECONDS - MINIMUM_SLEEP_SECONDS; } else { sleep_time = measurement_interval - MINIMUM_SLEEP_SECONDS; } sleep(sleep_time); } } /***************************************************************************/ /* We are exiting, but allow the final set of events to be dispatched */ /* properly first. */ /***************************************************************************/ sleep(2); printf("All done - exiting!\n"); return 0; } /**************************************************************************//** * Signal watcher. * * Signal catcher for incoming signal processing. Work out which signal has * been received and process it accordingly. * * param[in] void_sig_set The signal mask to listen for. *****************************************************************************/ void *signal_watcher(void *void_sig_set) { sigset_t *sig_set = (sigset_t *)void_sig_set; int sig = 0; int old_type = 0; siginfo_t sig_info; /***************************************************************************/ /* Set this thread to be cancellable immediately. */ /***************************************************************************/ pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, &old_type); while (!glob_exit_now) { /*************************************************************************/ /* Wait for a signal to be received. */ /*************************************************************************/ sig = sigwaitinfo(sig_set, &sig_info); switch (sig) { case SIGALRM: /*********************************************************************/ /* Failed to do something in the given amount of time. Exit. */ /*********************************************************************/ EVEL_ERROR( "Timeout alarm"); fprintf(stderr,"Timeout alarm - quitting!\n"); exit(2); break; case SIGINT: EVEL_INFO( "Interrupted - quitting"); printf("\n\nInterrupted - quitting!\n"); glob_exit_now = 1; break; } } evel_terminate(); exit(0); return(NULL); } /**************************************************************************//** * Create and send a heartbeat event. *****************************************************************************/ void demo_heartbeat(void) { EVENT_HEADER * heartbeat = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* Heartbeat */ /***************************************************************************/ heartbeat = evel_new_heartbeat(); if (heartbeat != NULL) { evel_rc = evel_post_event(heartbeat); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Heartbeat failed"); } printf(" Processed Heartbeat\n"); } /**************************************************************************//** * Create and send three fault events. *****************************************************************************/ void demo_fault(void) { EVENT_FAULT * fault = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* Fault */ /***************************************************************************/ fault = evel_new_fault("An alarm condition", "Things are broken", EVEL_PRIORITY_NORMAL, EVEL_SEVERITY_MAJOR); if (fault != NULL) { evel_rc = evel_post_event((EVENT_HEADER *)fault); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Fault failed"); } printf(" Processed empty Fault\n"); fault = evel_new_fault("Another alarm condition", "It broke badly", EVEL_PRIORITY_NORMAL, EVEL_SEVERITY_MAJOR); if (fault != NULL) { evel_fault_type_set(fault, "Bad things happening"); evel_fault_interface_set(fault, "An Interface Card"); evel_rc = evel_post_event((EVENT_HEADER *)fault); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Fault failed"); } printf(" Processed partial Fault\n"); fault = evel_new_fault("My alarm condition", "It broke very badly", EVEL_PRIORITY_NORMAL, EVEL_SEVERITY_MAJOR); if (fault != NULL) { evel_fault_type_set(fault, "Bad things happen..."); evel_fault_interface_set(fault, "My Interface Card"); evel_fault_addl_info_add(fault, "name1", "value1"); evel_fault_addl_info_add(fault, "name2", "value2"); evel_rc = evel_post_event((EVENT_HEADER *)fault); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Fault failed"); } printf(" Processed full Fault\n"); } /**************************************************************************//** * Create and send a measurement event. *****************************************************************************/ void demo_measurement(const int interval) { EVENT_MEASUREMENT * measurement = NULL; MEASUREMENT_LATENCY_BUCKET * bucket = NULL; MEASUREMENT_VNIC_USE * vnic_use = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* Measurement */ /***************************************************************************/ measurement = evel_new_measurement(interval); if (measurement != NULL) { evel_measurement_type_set(measurement, "Perf management..."); evel_measurement_conc_sess_set(measurement, 1); evel_measurement_cfg_ents_set(measurement, 2); evel_measurement_mean_req_lat_set(measurement, 4.4); evel_measurement_mem_cfg_set(measurement, 6.6); evel_measurement_mem_used_set(measurement, 3.3); evel_measurement_request_rate_set(measurement, 6); evel_measurement_agg_cpu_use_set(measurement, 8.8); evel_measurement_cpu_use_add(measurement, "cpu1", 11.11); evel_measurement_cpu_use_add(measurement, "cpu2", 22.22); evel_measurement_fsys_use_add(measurement,"00-11-22",100.11, 100.22, 33, 200.11, 200.22, 44); evel_measurement_fsys_use_add(measurement,"33-44-55",300.11, 300.22, 55, 400.11, 400.22, 66); bucket = evel_new_meas_latency_bucket(20); evel_meas_latency_bucket_low_end_set(bucket, 0.0); evel_meas_latency_bucket_high_end_set(bucket, 10.0); evel_meas_latency_bucket_add(measurement, bucket); bucket = evel_new_meas_latency_bucket(30); evel_meas_latency_bucket_low_end_set(bucket, 10.0); evel_meas_latency_bucket_high_end_set(bucket, 20.0); evel_meas_latency_bucket_add(measurement, bucket); vnic_use = evel_new_measurement_vnic_use("eth0", 100, 200, 3, 4); evel_vnic_use_bcast_pkt_in_set(vnic_use, 1); evel_vnic_use_bcast_pkt_out_set(vnic_use, 2); evel_vnic_use_mcast_pkt_in_set(vnic_use, 5); evel_vnic_use_mcast_pkt_out_set(vnic_use, 6); evel_vnic_use_ucast_pkt_in_set(vnic_use, 7); evel_vnic_use_ucast_pkt_out_set(vnic_use, 8); evel_meas_vnic_use_add(measurement, vnic_use); vnic_use = evel_new_measurement_vnic_use("eth1", 110, 240, 13, 14); evel_vnic_use_bcast_pkt_in_set(vnic_use, 11); evel_vnic_use_bcast_pkt_out_set(vnic_use, 12); evel_vnic_use_mcast_pkt_in_set(vnic_use, 15); evel_vnic_use_mcast_pkt_out_set(vnic_use, 16); evel_vnic_use_ucast_pkt_in_set(vnic_use, 17); evel_vnic_use_ucast_pkt_out_set(vnic_use, 18); evel_meas_vnic_use_add(measurement, vnic_use); evel_measurement_errors_set(measurement, 1, 0, 2, 1); evel_measurement_feature_use_add(measurement, "FeatureA", 123); evel_measurement_feature_use_add(measurement, "FeatureB", 567); evel_measurement_codec_use_add(measurement, "G711a", 91); evel_measurement_codec_use_add(measurement, "G729ab", 92); evel_measurement_media_port_use_set(measurement, 1234); evel_measurement_vnfc_scaling_metric_set(measurement, 1234.5678); evel_measurement_custom_measurement_add(measurement, "Group1", "Name1", "Value1"); evel_measurement_custom_measurement_add(measurement, "Group2", "Name1", "Value1"); evel_measurement_custom_measurement_add(measurement, "Group2", "Name2", "Value2"); /*************************************************************************/ /* Work out the time, to use as end of measurement period. */ /*************************************************************************/ struct timeval tv_now; gettimeofday(&tv_now, NULL); unsigned long long epoch_now = tv_now.tv_usec + 1000000 * tv_now.tv_sec; evel_start_epoch_set(&measurement->header, epoch_start); evel_last_epoch_set(&measurement->header, epoch_now); epoch_start = epoch_now; evel_reporting_entity_name_set(&measurement->header, "measurer"); evel_reporting_entity_id_set(&measurement->header, "measurer_id"); evel_rc = evel_post_event((EVENT_HEADER *)measurement); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post Measurement failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Measurement failed"); } printf(" Processed Measurement\n"); } /**************************************************************************//** * Create and send three mobile flow events. *****************************************************************************/ void demo_mobile_flow(void) { MOBILE_GTP_PER_FLOW_METRICS * metrics = NULL; EVENT_MOBILE_FLOW * mobile_flow = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* Mobile Flow */ /***************************************************************************/ metrics = evel_new_mobile_gtp_flow_metrics(12.3, 3.12, 100, 2100, 500, 1470409421, 987, 1470409431, 11, (time_t)1470409431, "Working", 87, 3, 17, 123654, 4561, 0, 12, 10, 1, 3, 7, 899, 901, 302, 6, 2, 0, 110, 225); if (metrics != NULL) { mobile_flow = evel_new_mobile_flow("Outbound", metrics, "TCP", "IPv4", "2.3.4.1", 2341, "4.2.3.1", 4321); if (mobile_flow != NULL) { evel_rc = evel_post_event((EVENT_HEADER *)mobile_flow); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post Mobile Flow failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Mobile Flow failed"); } printf(" Processed empty Mobile Flow\n"); } else { EVEL_ERROR("New GTP Per Flow Metrics failed - skipping Mobile Flow"); printf(" Skipped empty Mobile Flow\n"); } metrics = evel_new_mobile_gtp_flow_metrics(132.0001, 31.2, 101, 2101, 501, 1470409422, 988, 1470409432, 12, (time_t)1470409432, "Inactive", 88, 4, 18, 123655, 4562, 1, 13, 11, 2, 4, 8, 900, 902, 303, 7, 3, 1, 111, 226); if (metrics != NULL) { mobile_flow = evel_new_mobile_flow("Inbound", metrics, "UDP", "IPv6", "2.3.4.2", 2342, "4.2.3.2", 4322); if (mobile_flow != NULL) { evel_mobile_flow_app_type_set(mobile_flow, "Demo application"); evel_mobile_flow_app_prot_type_set(mobile_flow, "GSM"); evel_mobile_flow_app_prot_ver_set(mobile_flow, "1"); evel_mobile_flow_cid_set(mobile_flow, "65535"); evel_mobile_flow_con_type_set(mobile_flow, "S1-U"); evel_mobile_flow_ecgi_set(mobile_flow, "e65535"); evel_mobile_flow_gtp_prot_type_set(mobile_flow, "GTP-U"); evel_mobile_flow_gtp_prot_ver_set(mobile_flow, "1"); evel_mobile_flow_http_header_set(mobile_flow, "http://www.something.com"); evel_mobile_flow_imei_set(mobile_flow, "209917614823"); evel_mobile_flow_imsi_set(mobile_flow, "355251/05/850925/8"); evel_mobile_flow_lac_set(mobile_flow, "1"); evel_mobile_flow_mcc_set(mobile_flow, "410"); evel_mobile_flow_mnc_set(mobile_flow, "04"); evel_mobile_flow_msisdn_set(mobile_flow, "6017123456789"); evel_mobile_flow_other_func_role_set(mobile_flow, "MME"); evel_mobile_flow_rac_set(mobile_flow, "514"); evel_mobile_flow_radio_acc_tech_set(mobile_flow, "LTE"); evel_mobile_flow_sac_set(mobile_flow, "1"); evel_mobile_flow_samp_alg_set(mobile_flow, 1); evel_mobile_flow_tac_set(mobile_flow, "2099"); evel_mobile_flow_tunnel_id_set(mobile_flow, "Tunnel 1"); evel_mobile_flow_vlan_id_set(mobile_flow, "15"); evel_rc = evel_post_event((EVENT_HEADER *)mobile_flow); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post Mobile Flow failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Mobile Flow failed"); } printf(" Processed partial Mobile Flow\n"); } else { EVEL_ERROR("New GTP Per Flow Metrics failed - skipping Mobile Flow"); printf(" Skipped partial Mobile Flow\n"); } metrics = evel_new_mobile_gtp_flow_metrics(12.32, 3.122, 1002, 21002, 5002, 1470409423, 9872, 1470409433, 112, (time_t)1470409433, "Failed", 872, 32, 172, 1236542, 45612, 2, 122, 102, 12, 32, 72, 8992, 9012, 3022, 62, 22, 2, 1102, 2252); if (metrics != NULL) { evel_mobile_gtp_metrics_dur_con_fail_set(metrics, 12); evel_mobile_gtp_metrics_dur_tun_fail_set(metrics, 13); evel_mobile_gtp_metrics_act_by_set(metrics, "Remote"); evel_mobile_gtp_metrics_act_time_set(metrics, (time_t)1470409423); evel_mobile_gtp_metrics_deact_by_set(metrics, "Remote"); evel_mobile_gtp_metrics_con_status_set(metrics, "Connected"); evel_mobile_gtp_metrics_tun_status_set(metrics, "Not tunneling"); evel_mobile_gtp_metrics_iptos_set(metrics, 1, 13); evel_mobile_gtp_metrics_iptos_set(metrics, 17, 1); evel_mobile_gtp_metrics_iptos_set(metrics, 4, 99); evel_mobile_gtp_metrics_large_pkt_rtt_set(metrics, 80); evel_mobile_gtp_metrics_large_pkt_thresh_set(metrics, 600.0); evel_mobile_gtp_metrics_max_rcv_bit_rate_set(metrics, 1357924680); evel_mobile_gtp_metrics_max_trx_bit_rate_set(metrics, 235711); evel_mobile_gtp_metrics_num_echo_fail_set(metrics, 1); evel_mobile_gtp_metrics_num_tun_fail_set(metrics, 4); evel_mobile_gtp_metrics_num_http_errors_set(metrics, 2); evel_mobile_gtp_metrics_tcp_flag_count_add(metrics, EVEL_TCP_CWR, 10); evel_mobile_gtp_metrics_tcp_flag_count_add(metrics, EVEL_TCP_URG, 121); evel_mobile_gtp_metrics_qci_cos_count_add( metrics, EVEL_QCI_COS_UMTS_CONVERSATIONAL, 11); evel_mobile_gtp_metrics_qci_cos_count_add( metrics, EVEL_QCI_COS_LTE_65, 122); mobile_flow = evel_new_mobile_flow("Outbound", metrics, "RTP", "IPv8", "2.3.4.3", 2343, "4.2.3.3", 4323); if (mobile_flow != NULL) { evel_mobile_flow_app_type_set(mobile_flow, "Demo application 2"); evel_mobile_flow_app_prot_type_set(mobile_flow, "GSM"); evel_mobile_flow_app_prot_ver_set(mobile_flow, "2"); evel_mobile_flow_cid_set(mobile_flow, "1"); evel_mobile_flow_con_type_set(mobile_flow, "S1-U"); evel_mobile_flow_ecgi_set(mobile_flow, "e1"); evel_mobile_flow_gtp_prot_type_set(mobile_flow, "GTP-U"); evel_mobile_flow_gtp_prot_ver_set(mobile_flow, "1"); evel_mobile_flow_http_header_set(mobile_flow, "http://www.google.com"); evel_mobile_flow_imei_set(mobile_flow, "209917614823"); evel_mobile_flow_imsi_set(mobile_flow, "355251/05/850925/8"); evel_mobile_flow_lac_set(mobile_flow, "1"); evel_mobile_flow_mcc_set(mobile_flow, "410"); evel_mobile_flow_mnc_set(mobile_flow, "04"); evel_mobile_flow_msisdn_set(mobile_flow, "6017123456789"); evel_mobile_flow_other_func_role_set(mobile_flow, "MMF"); evel_mobile_flow_rac_set(mobile_flow, "514"); evel_mobile_flow_radio_acc_tech_set(mobile_flow, "3G"); evel_mobile_flow_sac_set(mobile_flow, "1"); evel_mobile_flow_samp_alg_set(mobile_flow, 2); evel_mobile_flow_tac_set(mobile_flow, "2099"); evel_mobile_flow_tunnel_id_set(mobile_flow, "Tunnel 2"); evel_mobile_flow_vlan_id_set(mobile_flow, "4096"); evel_rc = evel_post_event((EVENT_HEADER *)mobile_flow); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post Mobile Flow failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Mobile Flow failed"); } printf(" Processed full Mobile Flow\n"); } else { EVEL_ERROR("New GTP Per Flow Metrics failed - skipping Mobile Flow"); printf(" Skipped full Mobile Flow\n"); } } /**************************************************************************//** * Create and send a Service event. *****************************************************************************/ void demo_service() { demo_service_event(SERVICE_CODEC); demo_service_event(SERVICE_TRANSCODING); demo_service_event(SERVICE_RTCP); demo_service_event(SERVICE_EOC_VQM); demo_service_event(SERVICE_MARKER); } void demo_service_event(const SERVICE_EVENT service_event) { EVENT_SERVICE * event = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; event = evel_new_service("vendor_x_id", "vendor_x_event_id"); if (event != NULL) { evel_service_type_set(event, "Service Event"); evel_service_product_id_set(event, "vendor_x_product_id"); evel_service_subsystem_id_set(event, "vendor_x_subsystem_id"); evel_service_friendly_name_set(event, "vendor_x_frieldly_name"); evel_service_correlator_set(event, "vendor_x_correlator"); evel_service_addl_field_add(event, "Name1", "Value1"); evel_service_addl_field_add(event, "Name2", "Value2"); switch (service_event) { case SERVICE_CODEC: evel_service_codec_set(event, "PCMA"); break; case SERVICE_TRANSCODING: evel_service_callee_codec_set(event, "PCMA"); evel_service_caller_codec_set(event, "G729A"); break; case SERVICE_RTCP: evel_service_rtcp_data_set(event, "some_rtcp_data"); break; case SERVICE_EOC_VQM: evel_service_adjacency_name_set(event, "vendor_x_adjacency"); evel_service_endpoint_desc_set(event, EVEL_SERVICE_ENDPOINT_CALLER); evel_service_endpoint_jitter_set(event, 66); evel_service_endpoint_rtp_oct_disc_set(event, 100); evel_service_endpoint_rtp_oct_recv_set(event, 200); evel_service_endpoint_rtp_oct_sent_set(event, 300); evel_service_endpoint_rtp_pkt_disc_set(event, 400); evel_service_endpoint_rtp_pkt_recv_set(event, 500); evel_service_endpoint_rtp_pkt_sent_set(event, 600); evel_service_local_jitter_set(event, 99); evel_service_local_rtp_oct_disc_set(event, 150); evel_service_local_rtp_oct_recv_set(event, 250); evel_service_local_rtp_oct_sent_set(event, 350); evel_service_local_rtp_pkt_disc_set(event, 450); evel_service_local_rtp_pkt_recv_set(event, 550); evel_service_local_rtp_pkt_sent_set(event, 650); evel_service_mos_cqe_set(event, 12.255); evel_service_packets_lost_set(event, 157); evel_service_packet_loss_percent_set(event, 0.232); evel_service_r_factor_set(event, 11); evel_service_round_trip_delay_set(event, 15); break; case SERVICE_MARKER: evel_service_phone_number_set(event, "0888888888"); break; } evel_rc = evel_post_event((EVENT_HEADER *) event); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Service failed"); } printf(" Processed Service Events\n"); } /**************************************************************************//** * Create and send a Signaling event. *****************************************************************************/ void demo_signaling(void) { EVENT_SIGNALING * event = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; event = evel_new_signaling("vendor_x_id", "vendor_x_event_id"); if (event != NULL) { evel_signaling_type_set(event, "Signaling"); evel_signaling_product_id_set(event, "vendor_x_product_id"); evel_signaling_subsystem_id_set(event, "vendor_x_subsystem_id"); evel_signaling_friendly_name_set(event, "vendor_x_frieldly_name"); evel_signaling_correlator_set(event, "vendor_x_correlator"); evel_signaling_local_ip_address_set(event, "1.0.3.1"); evel_signaling_local_port_set(event, "1031"); evel_signaling_remote_ip_address_set(event, "5.3.3.0"); evel_signaling_remote_port_set(event, "5330"); evel_signaling_compressed_sip_set(event, "compressed_sip"); evel_signaling_summary_sip_set(event, "summary_sip"); evel_rc = evel_post_event((EVENT_HEADER *) event); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Signaling failed"); } printf(" Processed Signaling\n"); } /**************************************************************************//** * Create and send a state change event. *****************************************************************************/ void demo_state_change(void) { EVENT_STATE_CHANGE * state_change = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* State Change */ /***************************************************************************/ state_change = evel_new_state_change(EVEL_ENTITY_STATE_IN_SERVICE, EVEL_ENTITY_STATE_OUT_OF_SERVICE, "Interface"); if (state_change != NULL) { evel_state_change_type_set(state_change, "State Change"); evel_state_change_addl_field_add(state_change, "Name1", "Value1"); evel_state_change_addl_field_add(state_change, "Name2", "Value2"); evel_rc = evel_post_event((EVENT_HEADER *)state_change); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New State Change failed"); } printf(" Processed State Change\n"); } /**************************************************************************//** * Create and send two syslog events. *****************************************************************************/ void demo_syslog(void) { EVENT_SYSLOG * syslog = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* Syslog */ /***************************************************************************/ syslog = evel_new_syslog(EVEL_SOURCE_VIRTUAL_NETWORK_FUNCTION, "EVEL library message", "EVEL"); if (syslog != NULL) { evel_rc = evel_post_event((EVENT_HEADER *)syslog); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Syslog failed"); } printf(" Processed empty Syslog\n"); syslog = evel_new_syslog(EVEL_SOURCE_VIRTUAL_MACHINE, "EVEL library message", "EVEL"); if (syslog != NULL) { evel_syslog_event_source_host_set(syslog, "Virtual host"); evel_syslog_facility_set(syslog, EVEL_SYSLOG_FACILITY_LOCAL0); evel_syslog_proc_set(syslog, "vnf_process"); evel_syslog_proc_id_set(syslog, 1423); evel_syslog_version_set(syslog, 1); evel_syslog_addl_field_add(syslog, "Name1", "Value1"); evel_syslog_addl_field_add(syslog, "Name2", "Value2"); evel_syslog_addl_field_add(syslog, "Name3", "Value3"); evel_syslog_addl_field_add(syslog, "Name4", "Value4"); evel_rc = evel_post_event((EVENT_HEADER *)syslog); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Syslog failed"); } printf(" Processed full Syslog\n"); } /**************************************************************************//** * Create and send two other events. *****************************************************************************/ void demo_other(void) { EVENT_OTHER * other = NULL; EVEL_ERR_CODES evel_rc = EVEL_SUCCESS; /***************************************************************************/ /* Other */ /***************************************************************************/ other = evel_new_other(); if (other != NULL) { evel_rc = evel_post_event((EVENT_HEADER *)other); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Other failed"); } printf(" Processed empty Other\n"); other = evel_new_other(); if (other != NULL) { evel_other_field_add(other, "Other field 1", "Other value 1"); evel_rc = evel_post_event((EVENT_HEADER *)other); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Other failed"); } printf(" Processed small Other\n"); other = evel_new_other(); if (other != NULL) { evel_other_field_add(other, "Other field A", "Other value A"); evel_other_field_add(other, "Other field B", "Other value B"); evel_other_field_add(other, "Other field C", "Other value C"); evel_rc = evel_post_event((EVENT_HEADER *)other); if (evel_rc != EVEL_SUCCESS) { EVEL_ERROR("Post failed %d (%s)", evel_rc, evel_error_string()); } } else { EVEL_ERROR("New Other failed"); } printf(" Processed large Other\n"); }