Ejemplo n.º 1
0
def main():
    # take some input 
    parser = argparse.ArgumentParser(description="collect metrics from VNX and import into InfluxDB.  Assumes naviseccli is in the PATH")
    parser.add_argument('--vnx', required=True, action='append', 
                        help="VNX SP to connect to")
    parser.add_argument('--vnx-username', default="admin", 
                        help="navisec username")
    parser.add_argument('--vnx-password', default="changeme", 
                        help="navisec password")
    parser.add_argument('--influx-dsn', default=influx_dsn_default,
                        help="InfluxDB DSN, eg. %s" % influx_dsn_default)
    parser.add_argument('--debug', '-d', action='store_true', 
                        help="enable debugging")

    args = parser.parse_args()

    # loop over vCenters and collect metrics
    for vnx in args.vnx:

        meas = "vnxprop.%s" % (convert_to_alnum(vnx))
        results = build_vnx(vnx, vnx_tags, vnx_fields, 
                            measurement=meas, args=args)
        
        if args.debug:
            print "Results of VNX query:"
            for ts in results:
                print "Measurement:", ts.measurement
                print "Tags:", ts.tags
                print "Fields:", ts.fields
                print
        else:
            write_results(args.influx_dsn, results)
def main():
    # take some input 
    parser = argparse.ArgumentParser(description="synthesize zero-sized data points for vm growth tracking")
    parser.add_argument('--influx-dsn', default=influx_dsn_default,
                        help="InfluxDB DSN, eg. %s" % influx_dsn_default)
    parser.add_argument('--search-interval', default=None,
                        help="Length of time to search (e.g. 10m, 4h, 30d)")
    parser.add_argument('--debug', '-d', action='store_true', 
                        help="enable debugging")

    args = parser.parse_args()

    # find the first point in each series within the last search interval
    search = "/vmprop.*/"
    first_points = find_first_point(args.influx_dsn, search, 
                               interval=args.search_interval)

    synth_points = []
    for ts in first_points:
        # whether we need to synthesize a zero point or not
        needs_synth = False
        for field in data_fields:
            if ts.fields[field] != 0:
                needs_synth = True

        if needs_synth:
            synth_ts = InfluxResult08(ts.measurement)
            synth_ts.timestamp = ts.timestamp - 600 # 10 minutes into the past
            synth_ts.fields = copy(ts.fields)
            synth_ts.tags = copy(ts.tags)
            for field in data_fields:
                synth_ts.fields[field] = 0

            synth_points.append(synth_ts)

    if args.debug:
        print "Synthesized points:"
        for ts in synth_points:
            print "Measurement:", ts.measurement
            print "Tags:", ts.tags
            print "Fields:", ts.fields
            print "Timestamp:", ts.timestamp
            print
    else:
        write_results(args.influx_dsn, synth_points)
def main():
    # take some input 
    parser = argparse.ArgumentParser(description="collect metrics from XtremIO and import into InfluxDB")
    parser.add_argument('--xms', required=True, action='append', 
                        help="XtremIO XMS to connect to")
    parser.add_argument('--xmsadmin-username', default="xmsadmin", 
                        help="xmsadmin username")
    parser.add_argument('--xmsadmin-password', default="changeme", 
                        help="xmsadmin password")
    parser.add_argument('--xms-username', default="admin", 
                        help="xms user username")
    parser.add_argument('--xms-password', default="changeme", 
                        help="xms user password")
    parser.add_argument('--influx-dsn', default=influx_dsn_default,
                        help="InfluxDB DSN, eg. %s" % influx_dsn_default)
    parser.add_argument('--debug', '-d', action='store_true', 
                        help="enable debugging")

    args = parser.parse_args()

    # loop over vCenters and collect metrics
    for xms in args.xms:

        meas = "xioprop.%s" % (convert_to_alnum(xms))
        results = build_xiocluster(xms, xio_tags, xio_fields, 
                                   measurement=meas, args=args)
        
        if args.debug:
            print "Results of XMS query:"
            for ts in results:
                print "Measurement:", ts.measurement
                print "Tags:", ts.tags
                print "Fields:", ts.fields
                print
        else:
            write_results(args.influx_dsn, results)
def main():
    # take some input 
    parser = argparse.ArgumentParser(description="collect metrics from vSphere and import into InfluxDB")
    parser.add_argument('--vcenter', required=True, action='append', 
                        help="vCenter to connect to")
    parser.add_argument('--vs-username', default="admin", 
                        help="vSphere username")
    parser.add_argument('--vs-password', default="changeme", 
                        help="vSphere password")
    parser.add_argument('--vs-port', type=int, default=443, 
                        help="vSphere port")
    parser.add_argument('--influx-dsn', default=influx_dsn_default,
                        help="InfluxDB DSN, eg. %s" % influx_dsn_default)
    parser.add_argument('--debug', '-d', action='store_true', 
                        help="enable debugging")

    args = parser.parse_args()

    silence_warnings()

    # loop over vCenters and collect metrics
    for vcenter in args.vcenter:
        service_instance = None

        try:
            service_instance = connect.SmartConnect(host=vcenter,
                                                    user=args.vs_username,
                                                    pwd=args.vs_password,
                                                    port=args.vs_port)
            atexit.register(connect.Disconnect, service_instance)
        except Exception as e:
            print "Unable to connect to %s" % vcenter
            continue

        meas = "vmprop.%s" % (convert_to_alnum(vcenter))
        results = build_vmresultset(service_instance, vm_tags, vm_fields,
                                    measurement=meas)
        
        for ts in results:
            ts.tags['vcenter'] = vcenter
            if len(ts.tags['folderPath'].split('/')) >= 2:
                ts.tags['topLevelFolder'] = ts.tags['folderPath'].split('/')[1]
            else:
                ts.tags['topLevelFolder'] = "None"

        # collect the results and some aggregates 
        output = []
        output.extend(results)
        output.extend(agg_by_topLevelFolder(results))
        output.extend(agg_by_vcenter(results))

        # now write the output to the database
        if args.debug:
            print "Results of vSphere query:"
            for ts in output:
                print "Measurement:", ts.measurement
                print "Tags:", ts.tags
                print "Fields:", ts.fields
                print
        else:
            write_results(args.influx_dsn, output)