# netdata configuration # global netdata configuration [global] # glibc malloc arena max for plugins = 1 # glibc malloc arena max for netdata = 1 hostname = {{ netdata_hostname }} history = {{ netdata_history }} update every = {{ netdata_update_every }} config directory = /etc/netdata log directory = /var/log/netdata plugins directory = /usr/libexec/netdata/plugins.d web files directory = /usr/share/netdata/web cache directory = /var/cache/netdata lib directory = /var/lib/netdata home directory = /var/cache/netdata memory mode = {{ netdata_memory_mode }} {% if netdata_memory_mode == "dbengine" %} page cache size = {{ netdata_dbengine_page_cache_size }} dbengine multihost disk space = {{ netdata_dbengine_multihost_disk_space }} {% endif %} # host access prefix = # memory deduplication (ksm) = yes # TZ environment variable = :/etc/localtime # debug flags = 0x0000000000000000 debug log = /var/log/netdata/debug.log error log = /var/log/netdata/error.log access log = /var/log/netdata/access.log errors flood protection period = {{ netdata_errors_flood_protection_period }} errors to trigger flood protection = {{ netdata_errors_to_trigger_flood_protection }} # pthread stack size = 8388608 # run as user = netdata # OOM score = 1000 # process scheduling policy = idle # cleanup obsolete charts after seconds = 3600 # cleanup orphan hosts after seconds = 3600 # delete obsolete charts files = yes # delete orphan hosts files = yes [web] # web files owner = netdata # web files group = netdata mode = {{ netdata_web_mode }} # listen backlog = 4096 default port = {{ netdata_default_port }} bind to = {{ netdata_bind_to|join(' ') }} # disconnect idle clients after seconds = 60 # respect do not track policy = no # x-frame-options response header = # enable gzip compression = yes # gzip compression strategy = default # gzip compression level = 3 [plugins] # PATH environment variable = /usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/sbin:/usr/sbin:/usr/local/bin:/usr/local/sbin # PYTHONPATH environment variable = # tc = yes # idlejitter = yes # proc = yes # diskspace = yes # cgroups = yes # checks = no # enable running new plugins = yes # check for new plugins every = 60 # apps = yes # node.d = yes # charts.d = yes # python.d = yes # fping = yes [health] {% if not netdata_health_enabled %} enabled = no {% elif netdata_health_enabled %} enabled = yes {% endif %} # in memory max health log entries = 1000 script to execute on alarm = {{ netdata_health_alarm_script }} health configuration directory = /etc/netdata/health.d default repeat warning = {{ netdata_default_repeat_warning }} default repeat critical = {{ netdata_default_repeat_critical }} # run at least every seconds = 10 # postpone alarms during hibernation for seconds = 60 # rotate log every lines = 2000 [registry] {% if not netdata_registry_enabled %} enabled = no {% elif netdata_registry_enabled %} enabled = yes {% endif %} registry db directory = /var/lib/netdata/registry netdata unique id file = /var/lib/netdata/registry/netdata.public.unique.id registry db file = /var/lib/netdata/registry/registry.db registry log file = /var/lib/netdata/registry/registry-log.db # registry save db every new entries = 1000000 # registry expire idle persons days = 365 # registry domain = registry to announce = {{ netdata_registry_to_announce }} registry hostname = {{ netdata_hostname }} # verify browser cookies support = yes # max URL length = 1024 # max URL name length = 50 [backend] {% if not netdata_configure_archive %} # enabled = no # data source = average # type = graphite # destination = localhost # prefix = netdata hostname = {{ netdata_hostname }} # update every = 10 # buffer on failures = 10 # timeout ms = 20000 {% else %} enabled = {{ netdata_archive_enabled }} type = {{ netdata_archive_type }} destination = {{ netdata_archive_destination|join(' ') }} data source = {{ netdata_archive_data_source }} prefix = {{ netdata_archive_prefix }} update every = {{ netdata_archive_update }} buffer on failures = {{ netdata_archive_buffer_on_failures }} timeout ms = {{ netdata_archive_timeout }} send names instead of ids = {{ netdata_archive_send_names }} {% endif %} # per plugin configuration [plugin:apps] # update every = 1 # command options = [plugin:node.d] # update every = 1 # command options = [plugin:charts.d] # update every = 1 # command options = [plugin:python.d] # update every = 1 # command options = [plugin:fping] # update every = 1 # command options = [plugin:cgroups] # cgroups plugin resource charts = yes # update every = 1 # check for new cgroups every = 10 # enable cpuacct stat (total CPU) = auto # enable cpuacct usage (per core CPU) = auto # enable memory (used mem including cache) = auto # enable detailed memory = auto # enable memory limits fail count = auto # enable swap memory = auto # enable blkio bandwidth = auto # enable blkio operations = auto # enable blkio throttle bandwidth = auto # enable blkio throttle operations = auto # enable blkio queued operations = auto # enable blkio merged operations = auto # recheck zero blkio every iterations = 10 # recheck zero memory failcnt every iterations = 10 # recheck zero detailed memory every iterations = 10 # enable systemd services = yes # enable systemd services detailed memory = no # report used memory without cache = yes # path to /sys/fs/cgroup/cpuacct = /sys/fs/cgroup/cpu,cpuacct # path to /sys/fs/cgroup/blkio = /sys/fs/cgroup/blkio # path to /sys/fs/cgroup/memory = /sys/fs/cgroup/memory # path to /sys/fs/cgroup/devices = /sys/fs/cgroup/devices # max cgroups to allow = 500 # max cgroups depth to monitor = 0 # enable new cgroups detected at run time = yes # enable by default cgroups matching = !*/init.scope *.scope !*/vcpu* !*/emulator !*.mount !*.partition !*.service !*.slice !*.swap !*.user !/ !/docker !/libvirt !/lxc !/lxc/*/ns !/machine !/qemu !/system !/systemd !/user * # search for cgroups in subpaths matching = !*/init.scope !*-qemu !/init.scope !/system !/systemd !/user !/user.slice * script to get cgroup names = /usr/libexec/netdata/plugins.d/cgroup-name.sh # run script to rename cgroups matching = *.scope *docker* *lxc* *qemu* !/ !*.mount !*.partition !*.service !*.slice !*.swap !*.user * # cgroups to match as systemd services = !/system.slice/*/*.service /system.slice/*.service [plugin:proc] # netdata server resources = yes # /proc/stat = yes # /proc/uptime = yes # /proc/loadavg = yes # /proc/sys/kernel/random/entropy_avail = yes # /proc/interrupts = yes # /proc/softirqs = yes # /proc/vmstat = yes # /proc/meminfo = yes # /sys/kernel/mm/ksm = yes # /sys/devices/system/edac/mc = yes # /sys/devices/system/node = yes # /proc/net/dev = yes # /proc/net/netstat = yes # /proc/net/snmp = yes # /proc/net/snmp6 = yes # /proc/net/softnet_stat = yes # /proc/net/ip_vs/stats = yes # /proc/net/stat/conntrack = yes # /proc/net/stat/synproxy = yes # /proc/diskstats = yes # /proc/net/rpc/nfsd = yes # /proc/net/rpc/nfs = yes # /proc/spl/kstat/zfs/arcstats = yes # ipc = yes [plugin:proc:diskspace] # update every = 1 # check for new mount points every = 15 # exclude space metrics on paths = /proc/* /sys/* /var/run/user/* /run/user/* /snap/* /var/lib/docker/* # exclude space metrics on filesystems = # space usage for all disks = auto # inodes usage for all disks = auto [plugin:idlejitter] # loop time in ms = 20 [plugin:tc] script to run to get tc values = /usr/libexec/netdata/plugins.d/tc-qos-helper.sh [plugin:proc:/proc/stat] # cpu utilization = yes # per cpu core utilization = yes # cpu interrupts = yes # context switches = yes # processes started = yes # processes running = yes # filename to monitor = /proc/stat [plugin:proc:/proc/loadavg] # filename to monitor = /proc/loadavg # enable load average = yes # enable total processes = yes [plugin:proc:/proc/sys/kernel/random/entropy_avail] # filename to monitor = /proc/sys/kernel/random/entropy_avail [plugin:proc:diskspace:/dev] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/run] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/sys/kernel/security] # space usage = no # inodes usage = no [plugin:proc:diskspace:/dev/shm] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/run/lock] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/sys/fs/cgroup] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/systemd] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/pstore] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/hugetlb] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/pids] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/cpuset] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/cpu,cpuacct] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/devices] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/freezer] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/perf_event] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/memory] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/net_cls,net_prio] # space usage = no # inodes usage = no [plugin:proc:diskspace:/sys/fs/cgroup/blkio] # space usage = no # inodes usage = no [plugin:proc:diskspace:/dev/hugepages] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/boot] # space usage = auto # inodes usage = auto [plugin:proc:diskspace:/run/user/1000] # space usage = no # inodes usage = no [plugin:proc:diskspace:/vagrant] # space usage = auto # inodes usage = auto [plugin:proc:/proc/interrupts] # interrupts per core = yes # filename to monitor = /proc/interrupts [plugin:proc:/proc/softirqs] # interrupts per core = yes # filename to monitor = /proc/softirqs [plugin:proc:/proc/vmstat] # swap i/o = auto # disk i/o = yes # memory page faults = yes # system-wide numa metric summary = auto # filename to monitor = /proc/vmstat [plugin:proc:/sys/devices/system/node] # directory to monitor = /sys/devices/system/node # enable per-node numa metrics = auto [plugin:proc:/proc/meminfo] # system ram = yes # system swap = auto # hardware corrupted ECC = auto # committed memory = yes # writeback memory = yes # kernel memory = yes # slab memory = yes # filename to monitor = /proc/meminfo [plugin:proc:/sys/kernel/mm/ksm] # /sys/kernel/mm/ksm/pages_shared = /sys/kernel/mm/ksm/pages_shared # /sys/kernel/mm/ksm/pages_sharing = /sys/kernel/mm/ksm/pages_sharing # /sys/kernel/mm/ksm/pages_unshared = /sys/kernel/mm/ksm/pages_unshared # /sys/kernel/mm/ksm/pages_volatile = /sys/kernel/mm/ksm/pages_volatile # /sys/kernel/mm/ksm/pages_to_scan = /sys/kernel/mm/ksm/pages_to_scan [plugin:proc:/sys/devices/system/edac/mc] # directory to monitor = /sys/devices/system/edac/mc [plugin:proc:/proc/net/dev] # enable new interfaces detected at runtime = auto # bandwidth for all interfaces = auto # packets for all interfaces = auto # errors for all interfaces = auto # drops for all interfaces = auto # fifo for all interfaces = auto # compressed packets for all interfaces = auto # frames, collisions, carrier counters for all interfaces = auto # disable by default interfaces matching = lo fireqos* *-ifb # filename to monitor = /proc/net/dev [plugin:proc:/proc/net/dev:enp0s8] # enabled = yes # bandwidth = auto # packets = auto # errors = auto # drops = auto # fifo = auto # compressed = auto # events = auto [plugin:proc:/proc/net/dev:enp0s3] # enabled = yes # bandwidth = auto # packets = auto # errors = auto # drops = auto # fifo = auto # compressed = auto # events = auto [plugin:proc:/proc/net/dev:lo] # enabled = no [plugin:proc:/proc/net/netstat] # bandwidth = auto # input errors = auto # multicast bandwidth = auto # broadcast bandwidth = auto # multicast packets = auto # broadcast packets = auto # ECN packets = auto # TCP reorders = auto # TCP SYN cookies = auto # TCP out-of-order queue = auto # TCP connection aborts = auto # TCP memory pressures = auto # filename to monitor = /proc/net/netstat [plugin:proc:/proc/net/snmp] # ipv4 packets = yes # ipv4 fragments sent = yes # ipv4 fragments assembly = yes # ipv4 errors = yes # ipv4 TCP connections = yes # ipv4 TCP packets = yes # ipv4 TCP errors = yes # ipv4 TCP handshake issues = yes # ipv4 UDP packets = yes # ipv4 UDP errors = yes # ipv4 ICMP packets = yes # ipv4 ICMP messages = yes # ipv4 UDPLite packets = yes # filename to monitor = /proc/net/snmp [plugin:proc:/proc/net/snmp6] # ipv6 packets = auto # ipv6 fragments sent = auto # ipv6 fragments assembly = auto # ipv6 errors = auto # ipv6 UDP packets = auto # ipv6 UDP errors = auto # ipv6 UDPlite packets = auto # ipv6 UDPlite errors = auto # bandwidth = auto # multicast bandwidth = auto # broadcast bandwidth = auto # multicast packets = auto # icmp = auto # icmp redirects = auto # icmp errors = auto # icmp echos = auto # icmp group membership = auto # icmp router = auto # icmp neighbor = auto # icmp mldv2 = auto # icmp types = auto # ect = auto # filename to monitor = /proc/net/snmp6 [plugin:proc:/proc/net/softnet_stat] # softnet_stat per core = yes # filename to monitor = /proc/net/softnet_stat [plugin:proc:/proc/net/ip_vs_stats] # IPVS bandwidth = yes # IPVS connections = yes # IPVS packets = yes # filename to monitor = /proc/net/ip_vs_stats [plugin:proc:/proc/net/stat/nf_conntrack] # filename to monitor = /proc/net/stat/nf_conntrack # netfilter new connections = no # netfilter connection changes = no # netfilter connection expectations = no # netfilter connection searches = no # netfilter errors = no # netfilter connections = no [plugin:proc:/proc/sys/net/netfilter/nf_conntrack_max] # filename to monitor = /proc/sys/net/netfilter/nf_conntrack_max # read every seconds = 10 [plugin:proc:/proc/sys/net/netfilter/nf_conntrack_count] # filename to monitor = /proc/sys/net/netfilter/nf_conntrack_count [plugin:proc:/proc/net/stat/synproxy] # SYNPROXY entries = auto # SYNPROXY cookies = auto # SYNPROXY SYN received = auto # SYNPROXY connections reopened = auto # filename to monitor = /proc/net/stat/synproxy [plugin:proc:/proc/diskstats] # enable new disks detected at runtime = yes # performance metrics for physical disks = auto # performance metrics for virtual disks = auto # performance metrics for partitions = no # bandwidth for all disks = auto # operations for all disks = auto # merged operations for all disks = auto # i/o time for all disks = auto # queued operations for all disks = auto # utilization percentage for all disks = auto # backlog for all disks = auto # filename to monitor = /proc/diskstats # path to get block device infos = /sys/dev/block/%lu:%lu/%s # path to get h/w sector size = /sys/block/%s/queue/hw_sector_size # path to get h/w sector size for partitions = /sys/dev/block/%lu:%lu/subsystem/%s/../queue/hw_sector_size # exclude disks = loop* ram* # performance metrics for disks with major 8 = yes # performance metrics for disks with major 252 = yes [plugin:proc:/proc/diskstats:ram0] # enable = no [plugin:proc:/proc/diskstats:ram1] # enable = no [plugin:proc:/proc/diskstats:ram2] # enable = no [plugin:proc:/proc/diskstats:ram3] # enable = no [plugin:proc:/proc/diskstats:ram4] # enable = no [plugin:proc:/proc/diskstats:ram5] # enable = no [plugin:proc:/proc/diskstats:ram6] # enable = no [plugin:proc:/proc/diskstats:ram7] # enable = no [plugin:proc:/proc/diskstats:ram8] # enable = no [plugin:proc:/proc/diskstats:ram9] # enable = no [plugin:proc:/proc/diskstats:ram10] # enable = no [plugin:proc:/proc/diskstats:ram11] # enable = no [plugin:proc:/proc/diskstats:ram12] # enable = no [plugin:proc:/proc/diskstats:ram13] # enable = no [plugin:proc:/proc/diskstats:ram14] # enable = no [plugin:proc:/proc/diskstats:ram15] # enable = no [plugin:proc:/proc/diskstats:loop0] # enable = no [plugin:proc:/proc/diskstats:loop1] # enable = no [plugin:proc:/proc/diskstats:loop2] # enable = no [plugin:proc:/proc/diskstats:loop3] # enable = no [plugin:proc:/proc/diskstats:loop4] # enable = no [plugin:proc:/proc/diskstats:loop5] # enable = no [plugin:proc:/proc/diskstats:loop6] # enable = no [plugin:proc:/proc/diskstats:loop7] # enable = no [plugin:proc:/proc/diskstats:sda] # enable = yes # enable performance metrics = yes # bandwidth = auto # operations = auto # merged operations = auto # i/o time = auto # queued operations = auto # utilization percentage = auto # backlog = auto [plugin:proc:/proc/diskstats:sda1] # enable = yes # enable performance metrics = no # bandwidth = no # operations = no # merged operations = no # i/o time = no # queued operations = no # utilization percentage = no # backlog = no [plugin:proc:/proc/diskstats:sda2] # enable = yes # enable performance metrics = no # bandwidth = no # operations = no # merged operations = no # i/o time = no # queued operations = no # utilization percentage = no # backlog = no [plugin:proc:/proc/diskstats:sda5] # enable = yes # enable performance metrics = no # bandwidth = no # operations = no # merged operations = no # i/o time = no # queued operations = no # utilization percentage = no # backlog = no [plugin:proc:/proc/diskstats:dm-0] # enable = yes # enable performance metrics = yes # bandwidth = auto # operations = auto # merged operations = auto # i/o time = auto # queued operations = auto # utilization percentage = auto # backlog = auto [plugin:proc:/proc/diskstats:dm-1] # enable = yes # enable performance metrics = yes # bandwidth = auto # operations = auto # merged operations = auto # i/o time = auto # queued operations = auto # utilization percentage = auto # backlog = auto [plugin:proc:/proc/net/rpc/nfsd] # filename to monitor = /proc/net/rpc/nfsd [plugin:proc:/proc/net/rpc/nfs] # filename to monitor = /proc/net/rpc/nfs [plugin:proc:/proc/spl/kstat/zfs/arcstats] # filename to monitor = /proc/spl/kstat/zfs/arcstats # per chart configuration [system.idlejitter] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.idlejitter # chart type = area # type = system # family = processes # units = microseconds lost/s # context = system.idlejitter # priority = 9999 # gap when lost iterations above = 1 # name = system.idlejitter # title = CPU Idle Jitter (system.idlejitter) # dim min name = min # dim min algorithm = absolute # dim min multiplier = 1 # dim min divisor = 1 # dim max name = max # dim max algorithm = absolute # dim max multiplier = 1 # dim max divisor = 1 # dim average name = average # dim average algorithm = absolute # dim average multiplier = 1 # dim average divisor = 1 [system.cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.cpu # chart type = stacked # type = system # family = cpu # units = percentage # context = system.cpu # priority = 100 # gap when lost iterations above = 1 # name = system.cpu # title = Total CPU utilization (system.cpu) # dim guest_nice name = guest_nice # dim guest_nice algorithm = percentage-of-incremental-row # dim guest_nice multiplier = 1 # dim guest_nice divisor = 1 # dim guest name = guest # dim guest algorithm = percentage-of-incremental-row # dim guest multiplier = 1 # dim guest divisor = 1 # dim steal name = steal # dim steal algorithm = percentage-of-incremental-row # dim steal multiplier = 1 # dim steal divisor = 1 # dim softirq name = softirq # dim softirq algorithm = percentage-of-incremental-row # dim softirq multiplier = 1 # dim softirq divisor = 1 # dim irq name = irq # dim irq algorithm = percentage-of-incremental-row # dim irq multiplier = 1 # dim irq divisor = 1 # dim user name = user # dim user algorithm = percentage-of-incremental-row # dim user multiplier = 1 # dim user divisor = 1 # dim system name = system # dim system algorithm = percentage-of-incremental-row # dim system multiplier = 1 # dim system divisor = 1 # dim nice name = nice # dim nice algorithm = percentage-of-incremental-row # dim nice multiplier = 1 # dim nice divisor = 1 # dim iowait name = iowait # dim iowait algorithm = percentage-of-incremental-row # dim iowait multiplier = 1 # dim iowait divisor = 1 # dim idle name = idle # dim idle algorithm = percentage-of-incremental-row # dim idle multiplier = 1 # dim idle divisor = 1 [cpu.cpu0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/cpu.cpu0 # chart type = stacked # type = cpu # family = utilization # units = percentage # context = cpu.cpu # priority = 1000 # gap when lost iterations above = 1 # name = cpu.cpu0 # title = Core utilization (cpu.cpu0) # dim guest_nice name = guest_nice # dim guest_nice algorithm = percentage-of-incremental-row # dim guest_nice multiplier = 1 # dim guest_nice divisor = 1 # dim guest name = guest # dim guest algorithm = percentage-of-incremental-row # dim guest multiplier = 1 # dim guest divisor = 1 # dim steal name = steal # dim steal algorithm = percentage-of-incremental-row # dim steal multiplier = 1 # dim steal divisor = 1 # dim softirq name = softirq # dim softirq algorithm = percentage-of-incremental-row # dim softirq multiplier = 1 # dim softirq divisor = 1 # dim irq name = irq # dim irq algorithm = percentage-of-incremental-row # dim irq multiplier = 1 # dim irq divisor = 1 # dim user name = user # dim user algorithm = percentage-of-incremental-row # dim user multiplier = 1 # dim user divisor = 1 # dim system name = system # dim system algorithm = percentage-of-incremental-row # dim system multiplier = 1 # dim system divisor = 1 # dim nice name = nice # dim nice algorithm = percentage-of-incremental-row # dim nice multiplier = 1 # dim nice divisor = 1 # dim iowait name = iowait # dim iowait algorithm = percentage-of-incremental-row # dim iowait multiplier = 1 # dim iowait divisor = 1 # dim idle name = idle # dim idle algorithm = percentage-of-incremental-row # dim idle multiplier = 1 # dim idle divisor = 1 [system.intr] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.intr # chart type = line # type = system # family = interrupts # units = interrupts/s # context = system.intr # priority = 900 # gap when lost iterations above = 1 # name = system.intr # title = CPU Interrupts (system.intr) # dim interrupts name = interrupts # dim interrupts algorithm = incremental # dim interrupts multiplier = 1 # dim interrupts divisor = 1 [system.ctxt] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.ctxt # chart type = line # type = system # family = processes # units = context switches/s # context = system.ctxt # priority = 800 # gap when lost iterations above = 1 # name = system.ctxt # title = CPU Context Switches (system.ctxt) # dim switches name = switches # dim switches algorithm = incremental # dim switches multiplier = 1 # dim switches divisor = 1 [system.forks] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.forks # chart type = line # type = system # family = processes # units = processes/s # context = system.forks # priority = 700 # gap when lost iterations above = 1 # name = system.forks # title = Started Processes (system.forks) # dim started name = started # dim started algorithm = incremental # dim started multiplier = 1 # dim started divisor = 1 [system.processes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.processes # chart type = line # type = system # family = processes # units = processes # context = system.processes # priority = 600 # gap when lost iterations above = 1 # name = system.processes # title = System Processes (system.processes) # dim running name = running # dim running algorithm = absolute # dim running multiplier = 1 # dim running divisor = 1 # dim blocked name = blocked # dim blocked algorithm = absolute # dim blocked multiplier = -1 # dim blocked divisor = 1 [system.uptime] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.uptime # chart type = line # type = system # family = uptime # units = seconds # context = system.uptime # priority = 1000 # gap when lost iterations above = 1 # name = system.uptime # title = System Uptime (system.uptime) # dim uptime name = uptime # dim uptime algorithm = absolute # dim uptime multiplier = 1 # dim uptime divisor = 1000 [system.load] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.load # chart type = line # type = system # family = load # units = load # context = system.load # priority = 100 # gap when lost iterations above = 1 # name = system.load # title = System Load Average (system.load) # dim load1 name = load1 # dim load1 algorithm = absolute # dim load1 multiplier = 1 # dim load1 divisor = 1000 # dim load5 name = load5 # dim load5 algorithm = absolute # dim load5 multiplier = 1 # dim load5 divisor = 1000 # dim load15 name = load15 # dim load15 algorithm = absolute # dim load15 multiplier = 1 # dim load15 divisor = 1000 [system.active_processes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.active_processes # chart type = line # type = system # family = processes # units = processes # context = system.active_processes # priority = 750 # gap when lost iterations above = 1 # name = system.active_processes # title = System Active Processes (system.active_processes) # dim active name = active # dim active algorithm = absolute # dim active multiplier = 1 # dim active divisor = 1 [system.entropy] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.entropy # chart type = line # type = system # family = entropy # units = entropy # context = system.entropy # priority = 1000 # gap when lost iterations above = 1 # name = system.entropy # title = Available Entropy (system.entropy) # dim entropy name = entropy # dim entropy algorithm = absolute # dim entropy multiplier = 1 # dim entropy divisor = 1 [disk_space._dev] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._dev # chart type = stacked # type = disk_space # family = /dev # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._dev # title = Disk Space Usage for /dev [udev] (disk_space._dev) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 4096 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 4096 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 4096 # dim reserved_for_root divisor = 1073741824 [disk_inodes._dev] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._dev # chart type = stacked # type = disk_inodes # family = /dev # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._dev # title = Disk Files (inodes) Usage for /dev [udev] (disk_inodes._dev) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [disk_space._run] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._run # chart type = stacked # type = disk_space # family = /run # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._run # title = Disk Space Usage for /run [tmpfs] (disk_space._run) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 4096 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 4096 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 4096 # dim reserved_for_root divisor = 1073741824 [disk_inodes._run] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._run # chart type = stacked # type = disk_inodes # family = /run # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._run # title = Disk Files (inodes) Usage for /run [tmpfs] (disk_inodes._run) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [disk_space._] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._ # chart type = stacked # type = disk_space # family = / # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._ # title = Disk Space Usage for / [/dev/mapper/vagrant--vg-root] (disk_space._) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 4096 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 4096 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 4096 # dim reserved_for_root divisor = 1073741824 [disk_inodes._] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._ # chart type = stacked # type = disk_inodes # family = / # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._ # title = Disk Files (inodes) Usage for / [/dev/mapper/vagrant--vg-root] (disk_inodes._) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [disk_space._dev_shm] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._dev_shm # chart type = stacked # type = disk_space # family = /dev/shm # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._dev_shm # title = Disk Space Usage for /dev/shm [tmpfs] (disk_space._dev_shm) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 4096 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 4096 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 4096 # dim reserved_for_root divisor = 1073741824 [disk_inodes._dev_shm] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._dev_shm # chart type = stacked # type = disk_inodes # family = /dev/shm # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._dev_shm # title = Disk Files (inodes) Usage for /dev/shm [tmpfs] (disk_inodes._dev_shm) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [disk_space._run_lock] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._run_lock # chart type = stacked # type = disk_space # family = /run/lock # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._run_lock # title = Disk Space Usage for /run/lock [tmpfs] (disk_space._run_lock) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 4096 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 4096 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 4096 # dim reserved_for_root divisor = 1073741824 [disk_inodes._run_lock] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._run_lock # chart type = stacked # type = disk_inodes # family = /run/lock # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._run_lock # title = Disk Files (inodes) Usage for /run/lock [tmpfs] (disk_inodes._run_lock) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [disk_space._boot] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._boot # chart type = stacked # type = disk_space # family = /boot # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._boot # title = Disk Space Usage for /boot [/dev/sda1] (disk_space._boot) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1024 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1024 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1024 # dim reserved_for_root divisor = 1073741824 [disk_inodes._boot] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._boot # chart type = stacked # type = disk_inodes # family = /boot # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._boot # title = Disk Files (inodes) Usage for /boot [/dev/sda1] (disk_inodes._boot) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [netdata.plugin_cgroups_cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_cgroups_cpu # chart type = stacked # type = netdata # family = cgroups # units = milliseconds/s # context = netdata.plugin_cgroups_cpu # priority = 132000 # gap when lost iterations above = 1 # name = netdata.plugin_cgroups_cpu # title = NetData CGroups Plugin CPU usage (netdata.plugin_cgroups_cpu) # dim user name = user # dim user algorithm = incremental # dim user multiplier = 1 # dim user divisor = 1000 # dim system name = system # dim system algorithm = incremental # dim system multiplier = 1 # dim system divisor = 1000 [system.interrupts] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.interrupts # chart type = stacked # type = system # family = interrupts # units = interrupts/s # context = system.interrupts # priority = 1000 # gap when lost iterations above = 1 # name = system.interrupts # title = System interrupts (system.interrupts) # dim 0 name = timer_0 # dim 0 algorithm = incremental # dim 0 multiplier = 1 # dim 0 divisor = 1 # dim 1 name = i8042_1 # dim 1 algorithm = incremental # dim 1 multiplier = 1 # dim 1 divisor = 1 # dim 8 name = rtc0_8 # dim 8 algorithm = incremental # dim 8 multiplier = 1 # dim 8 divisor = 1 # dim 9 name = acpi_9 # dim 9 algorithm = incremental # dim 9 multiplier = 1 # dim 9 divisor = 1 # dim 12 name = i8042_12 # dim 12 algorithm = incremental # dim 12 multiplier = 1 # dim 12 divisor = 1 # dim 14 name = ata_piix_14 # dim 14 algorithm = incremental # dim 14 multiplier = 1 # dim 14 divisor = 1 # dim 15 name = ata_piix_15 # dim 15 algorithm = incremental # dim 15 multiplier = 1 # dim 15 divisor = 1 # dim 16 name = enp0s8_16 # dim 16 algorithm = incremental # dim 16 multiplier = 1 # dim 16 divisor = 1 # dim 18 name = vboxvideo_18 # dim 18 algorithm = incremental # dim 18 multiplier = 1 # dim 18 divisor = 1 # dim 19 name = enp0s3_19 # dim 19 algorithm = incremental # dim 19 multiplier = 1 # dim 19 divisor = 1 # dim 20 name = vboxguest_20 # dim 20 algorithm = incremental # dim 20 multiplier = 1 # dim 20 divisor = 1 # dim 21 name = snd_intel8x0_21 # dim 21 algorithm = incremental # dim 21 multiplier = 1 # dim 21 divisor = 1 # dim NMI name = NMI # dim NMI algorithm = incremental # dim NMI multiplier = 1 # dim NMI divisor = 1 # dim LOC name = LOC # dim LOC algorithm = incremental # dim LOC multiplier = 1 # dim LOC divisor = 1 # dim SPU name = SPU # dim SPU algorithm = incremental # dim SPU multiplier = 1 # dim SPU divisor = 1 # dim PMI name = PMI # dim PMI algorithm = incremental # dim PMI multiplier = 1 # dim PMI divisor = 1 # dim IWI name = IWI # dim IWI algorithm = incremental # dim IWI multiplier = 1 # dim IWI divisor = 1 # dim RTR name = RTR # dim RTR algorithm = incremental # dim RTR multiplier = 1 # dim RTR divisor = 1 # dim RES name = RES # dim RES algorithm = incremental # dim RES multiplier = 1 # dim RES divisor = 1 # dim CAL name = CAL # dim CAL algorithm = incremental # dim CAL multiplier = 1 # dim CAL divisor = 1 # dim TLB name = TLB # dim TLB algorithm = incremental # dim TLB multiplier = 1 # dim TLB divisor = 1 # dim TRM name = TRM # dim TRM algorithm = incremental # dim TRM multiplier = 1 # dim TRM divisor = 1 # dim THR name = THR # dim THR algorithm = incremental # dim THR multiplier = 1 # dim THR divisor = 1 # dim DFR name = DFR # dim DFR algorithm = incremental # dim DFR multiplier = 1 # dim DFR divisor = 1 # dim MCE name = MCE # dim MCE algorithm = incremental # dim MCE multiplier = 1 # dim MCE divisor = 1 # dim MCP name = MCP # dim MCP algorithm = incremental # dim MCP multiplier = 1 # dim MCP divisor = 1 # dim ERR name = ERR # dim ERR algorithm = incremental # dim ERR multiplier = 1 # dim ERR divisor = 1 # dim MIS name = MIS # dim MIS algorithm = incremental # dim MIS multiplier = 1 # dim MIS divisor = 1 # dim PIN name = PIN # dim PIN algorithm = incremental # dim PIN multiplier = 1 # dim PIN divisor = 1 # dim PIW name = PIW # dim PIW algorithm = incremental # dim PIW multiplier = 1 # dim PIW divisor = 1 [cpu.cpu0_interrupts] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/cpu.cpu0_interrupts # chart type = stacked # type = cpu # family = interrupts # units = interrupts/s # context = cpu.interrupts # priority = 1100 # gap when lost iterations above = 1 # name = cpu.cpu0_interrupts # title = CPU0 Interrupts (cpu.cpu0_interrupts) # dim 0 name = timer_0 # dim 0 algorithm = incremental # dim 0 multiplier = 1 # dim 0 divisor = 1 # dim 1 name = i8042_1 # dim 1 algorithm = incremental # dim 1 multiplier = 1 # dim 1 divisor = 1 # dim 8 name = rtc0_8 # dim 8 algorithm = incremental # dim 8 multiplier = 1 # dim 8 divisor = 1 # dim 9 name = acpi_9 # dim 9 algorithm = incremental # dim 9 multiplier = 1 # dim 9 divisor = 1 # dim 12 name = i8042_12 # dim 12 algorithm = incremental # dim 12 multiplier = 1 # dim 12 divisor = 1 # dim 14 name = ata_piix_14 # dim 14 algorithm = incremental # dim 14 multiplier = 1 # dim 14 divisor = 1 # dim 15 name = ata_piix_15 # dim 15 algorithm = incremental # dim 15 multiplier = 1 # dim 15 divisor = 1 # dim 16 name = enp0s8_16 # dim 16 algorithm = incremental # dim 16 multiplier = 1 # dim 16 divisor = 1 # dim 18 name = vboxvideo_18 # dim 18 algorithm = incremental # dim 18 multiplier = 1 # dim 18 divisor = 1 # dim 19 name = enp0s3_19 # dim 19 algorithm = incremental # dim 19 multiplier = 1 # dim 19 divisor = 1 # dim 20 name = vboxguest_20 # dim 20 algorithm = incremental # dim 20 multiplier = 1 # dim 20 divisor = 1 # dim 21 name = snd_intel8x0_21 # dim 21 algorithm = incremental # dim 21 multiplier = 1 # dim 21 divisor = 1 # dim NMI name = NMI # dim NMI algorithm = incremental # dim NMI multiplier = 1 # dim NMI divisor = 1 # dim LOC name = LOC # dim LOC algorithm = incremental # dim LOC multiplier = 1 # dim LOC divisor = 1 # dim SPU name = SPU # dim SPU algorithm = incremental # dim SPU multiplier = 1 # dim SPU divisor = 1 # dim PMI name = PMI # dim PMI algorithm = incremental # dim PMI multiplier = 1 # dim PMI divisor = 1 # dim IWI name = IWI # dim IWI algorithm = incremental # dim IWI multiplier = 1 # dim IWI divisor = 1 # dim RTR name = RTR # dim RTR algorithm = incremental # dim RTR multiplier = 1 # dim RTR divisor = 1 # dim RES name = RES # dim RES algorithm = incremental # dim RES multiplier = 1 # dim RES divisor = 1 # dim CAL name = CAL # dim CAL algorithm = incremental # dim CAL multiplier = 1 # dim CAL divisor = 1 # dim TLB name = TLB # dim TLB algorithm = incremental # dim TLB multiplier = 1 # dim TLB divisor = 1 # dim TRM name = TRM # dim TRM algorithm = incremental # dim TRM multiplier = 1 # dim TRM divisor = 1 # dim THR name = THR # dim THR algorithm = incremental # dim THR multiplier = 1 # dim THR divisor = 1 # dim DFR name = DFR # dim DFR algorithm = incremental # dim DFR multiplier = 1 # dim DFR divisor = 1 # dim MCE name = MCE # dim MCE algorithm = incremental # dim MCE multiplier = 1 # dim MCE divisor = 1 # dim MCP name = MCP # dim MCP algorithm = incremental # dim MCP multiplier = 1 # dim MCP divisor = 1 # dim ERR name = ERR # dim ERR algorithm = incremental # dim ERR multiplier = 1 # dim ERR divisor = 1 # dim MIS name = MIS # dim MIS algorithm = incremental # dim MIS multiplier = 1 # dim MIS divisor = 1 # dim PIN name = PIN # dim PIN algorithm = incremental # dim PIN multiplier = 1 # dim PIN divisor = 1 # dim PIW name = PIW # dim PIW algorithm = incremental # dim PIW multiplier = 1 # dim PIW divisor = 1 [system.softirqs] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.softirqs # chart type = stacked # type = system # family = softirqs # units = softirqs/s # context = system.softirqs # priority = 950 # gap when lost iterations above = 1 # name = system.softirqs # title = System softirqs (system.softirqs) # dim HI name = HI # dim HI algorithm = incremental # dim HI multiplier = 1 # dim HI divisor = 1 # dim TIMER name = TIMER # dim TIMER algorithm = incremental # dim TIMER multiplier = 1 # dim TIMER divisor = 1 # dim NET_TX name = NET_TX # dim NET_TX algorithm = incremental # dim NET_TX multiplier = 1 # dim NET_TX divisor = 1 # dim NET_RX name = NET_RX # dim NET_RX algorithm = incremental # dim NET_RX multiplier = 1 # dim NET_RX divisor = 1 # dim BLOCK name = BLOCK # dim BLOCK algorithm = incremental # dim BLOCK multiplier = 1 # dim BLOCK divisor = 1 # dim BLOCK_IOPOLL name = BLOCK_IOPOLL # dim BLOCK_IOPOLL algorithm = incremental # dim BLOCK_IOPOLL multiplier = 1 # dim BLOCK_IOPOLL divisor = 1 # dim TASKLET name = TASKLET # dim TASKLET algorithm = incremental # dim TASKLET multiplier = 1 # dim TASKLET divisor = 1 # dim SCHED name = SCHED # dim SCHED algorithm = incremental # dim SCHED multiplier = 1 # dim SCHED divisor = 1 # dim HRTIMER name = HRTIMER # dim HRTIMER algorithm = incremental # dim HRTIMER multiplier = 1 # dim HRTIMER divisor = 1 # dim RCU name = RCU # dim RCU algorithm = incremental # dim RCU multiplier = 1 # dim RCU divisor = 1 [cpu.cpu0_softirqs] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/cpu.cpu0_softirqs # chart type = stacked # type = cpu # family = softirqs # units = softirqs/s # context = cpu.softirqs # priority = 3000 # gap when lost iterations above = 1 # name = cpu.cpu0_softirqs # title = CPU0 softirqs (cpu.cpu0_softirqs) # dim HI name = HI # dim HI algorithm = incremental # dim HI multiplier = 1 # dim HI divisor = 1 # dim TIMER name = TIMER # dim TIMER algorithm = incremental # dim TIMER multiplier = 1 # dim TIMER divisor = 1 # dim NET_TX name = NET_TX # dim NET_TX algorithm = incremental # dim NET_TX multiplier = 1 # dim NET_TX divisor = 1 # dim NET_RX name = NET_RX # dim NET_RX algorithm = incremental # dim NET_RX multiplier = 1 # dim NET_RX divisor = 1 # dim BLOCK name = BLOCK # dim BLOCK algorithm = incremental # dim BLOCK multiplier = 1 # dim BLOCK divisor = 1 # dim BLOCK_IOPOLL name = BLOCK_IOPOLL # dim BLOCK_IOPOLL algorithm = incremental # dim BLOCK_IOPOLL multiplier = 1 # dim BLOCK_IOPOLL divisor = 1 # dim TASKLET name = TASKLET # dim TASKLET algorithm = incremental # dim TASKLET multiplier = 1 # dim TASKLET divisor = 1 # dim SCHED name = SCHED # dim SCHED algorithm = incremental # dim SCHED multiplier = 1 # dim SCHED divisor = 1 # dim HRTIMER name = HRTIMER # dim HRTIMER algorithm = incremental # dim HRTIMER multiplier = 1 # dim HRTIMER divisor = 1 # dim RCU name = RCU # dim RCU algorithm = incremental # dim RCU multiplier = 1 # dim RCU divisor = 1 [system.swapio] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.swapio # chart type = area # type = system # family = swap # units = kilobytes/s # context = system.swapio # priority = 250 # gap when lost iterations above = 1 # name = system.swapio # title = Swap I/O (system.swapio) # dim in name = in # dim in algorithm = incremental # dim in multiplier = 4096 # dim in divisor = 1024 # dim out name = out # dim out algorithm = incremental # dim out multiplier = -4096 # dim out divisor = 1024 [system.io] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.io # chart type = area # type = system # family = disk # units = kilobytes/s # context = system.io # priority = 150 # gap when lost iterations above = 1 # name = system.io # title = Disk I/O (system.io) # dim in name = in # dim in algorithm = incremental # dim in multiplier = 1 # dim in divisor = 1 # dim out name = out # dim out algorithm = incremental # dim out multiplier = -1 # dim out divisor = 1 [mem.pgfaults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/mem.pgfaults # chart type = line # type = mem # family = system # units = page faults/s # context = mem.pgfaults # priority = 500 # gap when lost iterations above = 1 # name = mem.pgfaults # title = Memory Page Faults (mem.pgfaults) # dim minor name = minor # dim minor algorithm = incremental # dim minor multiplier = 1 # dim minor divisor = 1 # dim major name = major # dim major algorithm = incremental # dim major multiplier = -1 # dim major divisor = 1 [system.ram] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.ram # chart type = stacked # type = system # family = ram # units = MB # context = system.ram # priority = 200 # gap when lost iterations above = 1 # name = system.ram # title = System RAM (system.ram) # dim free name = free # dim free algorithm = absolute # dim free multiplier = 1 # dim free divisor = 1024 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1024 # dim cached name = cached # dim cached algorithm = absolute # dim cached multiplier = 1 # dim cached divisor = 1024 # dim buffers name = buffers # dim buffers algorithm = absolute # dim buffers multiplier = 1 # dim buffers divisor = 1024 [system.swap] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.swap # chart type = stacked # type = system # family = swap # units = MB # context = system.swap # priority = 201 # gap when lost iterations above = 1 # name = system.swap # title = System Swap (system.swap) # dim free name = free # dim free algorithm = absolute # dim free multiplier = 1 # dim free divisor = 1024 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1024 [mem.committed] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/mem.committed # chart type = area # type = mem # family = system # units = MB # context = mem.committed # priority = 5000 # gap when lost iterations above = 1 # name = mem.committed # title = Committed (Allocated) Memory (mem.committed) # dim Committed_AS name = Committed_AS # dim Committed_AS algorithm = absolute # dim Committed_AS multiplier = 1 # dim Committed_AS divisor = 1024 [mem.writeback] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/mem.writeback # chart type = line # type = mem # family = kernel # units = MB # context = mem.writeback # priority = 4000 # gap when lost iterations above = 1 # name = mem.writeback # title = Writeback Memory (mem.writeback) # dim Dirty name = Dirty # dim Dirty algorithm = absolute # dim Dirty multiplier = 1 # dim Dirty divisor = 1024 # dim Writeback name = Writeback # dim Writeback algorithm = absolute # dim Writeback multiplier = 1 # dim Writeback divisor = 1024 # dim FuseWriteback name = FuseWriteback # dim FuseWriteback algorithm = absolute # dim FuseWriteback multiplier = 1 # dim FuseWriteback divisor = 1024 # dim NfsWriteback name = NfsWriteback # dim NfsWriteback algorithm = absolute # dim NfsWriteback multiplier = 1 # dim NfsWriteback divisor = 1024 # dim Bounce name = Bounce # dim Bounce algorithm = absolute # dim Bounce multiplier = 1 # dim Bounce divisor = 1024 [mem.kernel] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/mem.kernel # chart type = stacked # type = mem # family = kernel # units = MB # context = mem.kernel # priority = 6000 # gap when lost iterations above = 1 # name = mem.kernel # title = Memory Used by Kernel (mem.kernel) # dim Slab name = Slab # dim Slab algorithm = absolute # dim Slab multiplier = 1 # dim Slab divisor = 1024 # dim KernelStack name = KernelStack # dim KernelStack algorithm = absolute # dim KernelStack multiplier = 1 # dim KernelStack divisor = 1024 # dim PageTables name = PageTables # dim PageTables algorithm = absolute # dim PageTables multiplier = 1 # dim PageTables divisor = 1024 # dim VmallocUsed name = VmallocUsed # dim VmallocUsed algorithm = absolute # dim VmallocUsed multiplier = 1 # dim VmallocUsed divisor = 1024 [mem.slab] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/mem.slab # chart type = stacked # type = mem # family = slab # units = MB # context = mem.slab # priority = 6500 # gap when lost iterations above = 1 # name = mem.slab # title = Reclaimable Kernel Memory (mem.slab) # dim reclaimable name = reclaimable # dim reclaimable algorithm = absolute # dim reclaimable multiplier = 1 # dim reclaimable divisor = 1024 # dim unreclaimable name = unreclaimable # dim unreclaimable algorithm = absolute # dim unreclaimable multiplier = 1 # dim unreclaimable divisor = 1024 [net.enp0s8] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/net.enp0s8 # chart type = area # type = net # family = enp0s8 # units = kilobits/s # context = net.net # priority = 7000 # gap when lost iterations above = 1 # name = net.enp0s8 # title = Bandwidth (net.enp0s8) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 8 # dim received divisor = 1024 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -8 # dim sent divisor = 1024 [net_packets.enp0s8] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/net_packets.enp0s8 # chart type = line # type = net_packets # family = enp0s8 # units = packets/s # context = net.packets # priority = 7001 # gap when lost iterations above = 1 # name = net_packets.enp0s8 # title = Packets (net_packets.enp0s8) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 1 # dim received divisor = 1 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -1 # dim sent divisor = 1 # dim multicast name = multicast # dim multicast algorithm = incremental # dim multicast multiplier = 1 # dim multicast divisor = 1 [net.enp0s3] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/net.enp0s3 # chart type = area # type = net # family = enp0s3 # units = kilobits/s # context = net.net # priority = 7000 # gap when lost iterations above = 1 # name = net.enp0s3 # title = Bandwidth (net.enp0s3) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 8 # dim received divisor = 1024 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -8 # dim sent divisor = 1024 [net_packets.enp0s3] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/net_packets.enp0s3 # chart type = line # type = net_packets # family = enp0s3 # units = packets/s # context = net.packets # priority = 7001 # gap when lost iterations above = 1 # name = net_packets.enp0s3 # title = Packets (net_packets.enp0s3) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 1 # dim received divisor = 1 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -1 # dim sent divisor = 1 # dim multicast name = multicast # dim multicast algorithm = incremental # dim multicast multiplier = 1 # dim multicast divisor = 1 [system.ipv4] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.ipv4 # chart type = area # type = system # family = network # units = kilobits/s # context = system.ipv4 # priority = 500 # gap when lost iterations above = 1 # name = system.ipv4 # title = IPv4 Bandwidth (system.ipv4) # dim InOctets name = received # dim InOctets algorithm = incremental # dim InOctets multiplier = 8 # dim InOctets divisor = 1024 # dim OutOctets name = sent # dim OutOctets algorithm = incremental # dim OutOctets multiplier = -8 # dim OutOctets divisor = 1024 [ipv4.bcast] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.bcast # chart type = area # type = ipv4 # family = broadcast # units = kilobits/s # context = ipv4.bcast # priority = 8000 # gap when lost iterations above = 1 # name = ipv4.bcast # title = IPv4 Broadcast Bandwidth (ipv4.bcast) # dim InBcastOctets name = received # dim InBcastOctets algorithm = incremental # dim InBcastOctets multiplier = 8 # dim InBcastOctets divisor = 1024 # dim OutBcastOctets name = sent # dim OutBcastOctets algorithm = incremental # dim OutBcastOctets multiplier = -8 # dim OutBcastOctets divisor = 1024 [ipv4.bcastpkts] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.bcastpkts # chart type = line # type = ipv4 # family = broadcast # units = packets/s # context = ipv4.bcastpkts # priority = 8500 # gap when lost iterations above = 1 # name = ipv4.bcastpkts # title = IPv4 Broadcast Packets (ipv4.bcastpkts) # dim InBcastPkts name = received # dim InBcastPkts algorithm = incremental # dim InBcastPkts multiplier = 1 # dim InBcastPkts divisor = 1 # dim OutBcastPkts name = sent # dim OutBcastPkts algorithm = incremental # dim OutBcastPkts multiplier = -1 # dim OutBcastPkts divisor = 1 [ipv4.ecnpkts] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.ecnpkts # chart type = line # type = ipv4 # family = ecn # units = packets/s # context = ipv4.ecnpkts # priority = 8700 # gap when lost iterations above = 1 # name = ipv4.ecnpkts # title = IPv4 ECN Statistics (ipv4.ecnpkts) # dim InCEPkts name = CEP # dim InCEPkts algorithm = incremental # dim InCEPkts multiplier = 1 # dim InCEPkts divisor = 1 # dim InNoECTPkts name = NoECTP # dim InNoECTPkts algorithm = incremental # dim InNoECTPkts multiplier = -1 # dim InNoECTPkts divisor = 1 # dim InECT0Pkts name = ECTP0 # dim InECT0Pkts algorithm = incremental # dim InECT0Pkts multiplier = 1 # dim InECT0Pkts divisor = 1 # dim InECT1Pkts name = ECTP1 # dim InECT1Pkts algorithm = incremental # dim InECT1Pkts multiplier = 1 # dim InECT1Pkts divisor = 1 [ipv4.packets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.packets # chart type = line # type = ipv4 # family = packets # units = packets/s # context = ipv4.packets # priority = 3000 # gap when lost iterations above = 1 # name = ipv4.packets # title = IPv4 Packets (ipv4.packets) # dim InReceives name = received # dim InReceives algorithm = incremental # dim InReceives multiplier = 1 # dim InReceives divisor = 1 # dim OutRequests name = sent # dim OutRequests algorithm = incremental # dim OutRequests multiplier = -1 # dim OutRequests divisor = 1 # dim ForwDatagrams name = forwarded # dim ForwDatagrams algorithm = incremental # dim ForwDatagrams multiplier = 1 # dim ForwDatagrams divisor = 1 # dim InDelivers name = delivered # dim InDelivers algorithm = incremental # dim InDelivers multiplier = 1 # dim InDelivers divisor = 1 [ipv4.fragsout] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.fragsout # chart type = line # type = ipv4 # family = fragments # units = packets/s # context = ipv4.fragsout # priority = 3010 # gap when lost iterations above = 1 # name = ipv4.fragsout # title = IPv4 Fragments Sent (ipv4.fragsout) # dim FragOKs name = ok # dim FragOKs algorithm = incremental # dim FragOKs multiplier = 1 # dim FragOKs divisor = 1 # dim FragFails name = failed # dim FragFails algorithm = incremental # dim FragFails multiplier = -1 # dim FragFails divisor = 1 # dim FragCreates name = created # dim FragCreates algorithm = incremental # dim FragCreates multiplier = 1 # dim FragCreates divisor = 1 [ipv4.fragsin] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.fragsin # chart type = line # type = ipv4 # family = fragments # units = packets/s # context = ipv4.fragsin # priority = 3011 # gap when lost iterations above = 1 # name = ipv4.fragsin # title = IPv4 Fragments Reassembly (ipv4.fragsin) # dim ReasmOKs name = ok # dim ReasmOKs algorithm = incremental # dim ReasmOKs multiplier = 1 # dim ReasmOKs divisor = 1 # dim ReasmFails name = failed # dim ReasmFails algorithm = incremental # dim ReasmFails multiplier = -1 # dim ReasmFails divisor = 1 # dim ReasmReqds name = all # dim ReasmReqds algorithm = incremental # dim ReasmReqds multiplier = 1 # dim ReasmReqds divisor = 1 [disk_space._vagrant] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_space._vagrant # chart type = stacked # type = disk_space # family = /vagrant # units = GB # context = disk.space # priority = 2023 # gap when lost iterations above = 1 # name = disk_space._vagrant # title = Disk Space Usage for /vagrant [vagrant] (disk_space._vagrant) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 4096 # dim avail divisor = 1073741824 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 4096 # dim used divisor = 1073741824 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 4096 # dim reserved_for_root divisor = 1073741824 [disk_inodes._vagrant] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_inodes._vagrant # chart type = stacked # type = disk_inodes # family = /vagrant # units = Inodes # context = disk.inodes # priority = 2024 # gap when lost iterations above = 1 # name = disk_inodes._vagrant # title = Disk Files (inodes) Usage for /vagrant [vagrant] (disk_inodes._vagrant) # dim avail name = avail # dim avail algorithm = absolute # dim avail multiplier = 1 # dim avail divisor = 1 # dim used name = used # dim used algorithm = absolute # dim used multiplier = 1 # dim used divisor = 1 # dim reserved_for_root name = reserved for root # dim reserved_for_root algorithm = absolute # dim reserved_for_root multiplier = 1 # dim reserved_for_root divisor = 1 [netdata.plugin_diskspace] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_diskspace # chart type = stacked # type = netdata # family = diskspace # units = milliseconds/s # context = netdata.plugin_diskspace # priority = 132020 # gap when lost iterations above = 1 # name = netdata.plugin_diskspace # title = NetData Disk Space Plugin CPU usage (netdata.plugin_diskspace) # dim user name = user # dim user algorithm = incremental # dim user multiplier = 1 # dim user divisor = 1000 # dim system name = system # dim system algorithm = incremental # dim system multiplier = 1 # dim system divisor = 1000 [netdata.plugin_diskspace_dt] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_diskspace_dt # chart type = area # type = netdata # family = diskspace # units = milliseconds/run # context = netdata.plugin_diskspace_dt # priority = 132021 # gap when lost iterations above = 1 # name = netdata.plugin_diskspace_dt # title = NetData Disk Space Plugin Duration (netdata.plugin_diskspace_dt) # dim duration name = duration # dim duration algorithm = absolute # dim duration multiplier = 1 # dim duration divisor = 1000 [ipv4.errors] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.errors # chart type = line # type = ipv4 # family = errors # units = packets/s # context = ipv4.errors # priority = 3002 # gap when lost iterations above = 1 # name = ipv4.errors # title = IPv4 Errors (ipv4.errors) # dim InDiscards name = InDiscards # dim InDiscards algorithm = incremental # dim InDiscards multiplier = 1 # dim InDiscards divisor = 1 # dim OutDiscards name = OutDiscards # dim OutDiscards algorithm = incremental # dim OutDiscards multiplier = -1 # dim OutDiscards divisor = 1 # dim InHdrErrors name = InHdrErrors # dim InHdrErrors algorithm = incremental # dim InHdrErrors multiplier = 1 # dim InHdrErrors divisor = 1 # dim OutNoRoutes name = OutNoRoutes # dim OutNoRoutes algorithm = incremental # dim OutNoRoutes multiplier = -1 # dim OutNoRoutes divisor = 1 # dim InAddrErrors name = InAddrErrors # dim InAddrErrors algorithm = incremental # dim InAddrErrors multiplier = 1 # dim InAddrErrors divisor = 1 # dim InUnknownProtos name = InUnknownProtos # dim InUnknownProtos algorithm = incremental # dim InUnknownProtos multiplier = 1 # dim InUnknownProtos divisor = 1 [ipv4.icmp] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.icmp # chart type = line # type = ipv4 # family = icmp # units = packets/s # context = ipv4.icmp # priority = 2602 # gap when lost iterations above = 1 # name = ipv4.icmp # title = IPv4 ICMP Packets (ipv4.icmp) # dim InMsgs name = received # dim InMsgs algorithm = incremental # dim InMsgs multiplier = 1 # dim InMsgs divisor = 1 # dim OutMsgs name = sent # dim OutMsgs algorithm = incremental # dim OutMsgs multiplier = -1 # dim OutMsgs divisor = 1 [ipv4.icmp_errors] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.icmp_errors # chart type = line # type = ipv4 # family = icmp # units = packets/s # context = ipv4.icmp_errors # priority = 2603 # gap when lost iterations above = 1 # name = ipv4.icmp_errors # title = IPv4 ICMP Errors (ipv4.icmp_errors) # dim InErrors name = InErrors # dim InErrors algorithm = incremental # dim InErrors multiplier = 1 # dim InErrors divisor = 1 # dim OutErrors name = OutErrors # dim OutErrors algorithm = incremental # dim OutErrors multiplier = -1 # dim OutErrors divisor = 1 # dim InCsumErrors name = InCsumErrors # dim InCsumErrors algorithm = incremental # dim InCsumErrors multiplier = 1 # dim InCsumErrors divisor = 1 [ipv4.tcpsock] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.tcpsock # chart type = line # type = ipv4 # family = tcp # units = active connections # context = ipv4.tcpsock # priority = 2500 # gap when lost iterations above = 1 # name = ipv4.tcpsock # title = IPv4 TCP Connections (ipv4.tcpsock) # dim CurrEstab name = connections # dim CurrEstab algorithm = absolute # dim CurrEstab multiplier = 1 # dim CurrEstab divisor = 1 [ipv4.tcppackets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.tcppackets # chart type = line # type = ipv4 # family = tcp # units = packets/s # context = ipv4.tcppackets # priority = 2600 # gap when lost iterations above = 1 # name = ipv4.tcppackets # title = IPv4 TCP Packets (ipv4.tcppackets) # dim InSegs name = received # dim InSegs algorithm = incremental # dim InSegs multiplier = 1 # dim InSegs divisor = 1 # dim OutSegs name = sent # dim OutSegs algorithm = incremental # dim OutSegs multiplier = -1 # dim OutSegs divisor = 1 [ipv4.tcperrors] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.tcperrors # chart type = line # type = ipv4 # family = tcp # units = packets/s # context = ipv4.tcperrors # priority = 2700 # gap when lost iterations above = 1 # name = ipv4.tcperrors # title = IPv4 TCP Errors (ipv4.tcperrors) # dim InErrs name = InErrs # dim InErrs algorithm = incremental # dim InErrs multiplier = 1 # dim InErrs divisor = 1 # dim InCsumErrors name = InCsumErrors # dim InCsumErrors algorithm = incremental # dim InCsumErrors multiplier = 1 # dim InCsumErrors divisor = 1 # dim RetransSegs name = RetransSegs # dim RetransSegs algorithm = incremental # dim RetransSegs multiplier = -1 # dim RetransSegs divisor = 1 [ipv4.tcphandshake] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.tcphandshake # chart type = line # type = ipv4 # family = tcp # units = events/s # context = ipv4.tcphandshake # priority = 2900 # gap when lost iterations above = 1 # name = ipv4.tcphandshake # title = IPv4 TCP Handshake Issues (ipv4.tcphandshake) # dim EstabResets name = EstabResets # dim EstabResets algorithm = incremental # dim EstabResets multiplier = 1 # dim EstabResets divisor = 1 # dim OutRsts name = OutRsts # dim OutRsts algorithm = incremental # dim OutRsts multiplier = -1 # dim OutRsts divisor = 1 # dim ActiveOpens name = ActiveOpens # dim ActiveOpens algorithm = incremental # dim ActiveOpens multiplier = 1 # dim ActiveOpens divisor = 1 # dim PassiveOpens name = PassiveOpens # dim PassiveOpens algorithm = incremental # dim PassiveOpens multiplier = 1 # dim PassiveOpens divisor = 1 # dim AttemptFails name = AttemptFails # dim AttemptFails algorithm = incremental # dim AttemptFails multiplier = 1 # dim AttemptFails divisor = 1 [ipv4.udppackets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.udppackets # chart type = line # type = ipv4 # family = udp # units = packets/s # context = ipv4.udppackets # priority = 2601 # gap when lost iterations above = 1 # name = ipv4.udppackets # title = IPv4 UDP Packets (ipv4.udppackets) # dim InDatagrams name = received # dim InDatagrams algorithm = incremental # dim InDatagrams multiplier = 1 # dim InDatagrams divisor = 1 # dim OutDatagrams name = sent # dim OutDatagrams algorithm = incremental # dim OutDatagrams multiplier = -1 # dim OutDatagrams divisor = 1 [ipv4.udperrors] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.udperrors # chart type = line # type = ipv4 # family = udp # units = events/s # context = ipv4.udperrors # priority = 2701 # gap when lost iterations above = 1 # name = ipv4.udperrors # title = IPv4 UDP Errors (ipv4.udperrors) # dim RcvbufErrors name = RcvbufErrors # dim RcvbufErrors algorithm = incremental # dim RcvbufErrors multiplier = 1 # dim RcvbufErrors divisor = 1 # dim SndbufErrors name = SndbufErrors # dim SndbufErrors algorithm = incremental # dim SndbufErrors multiplier = -1 # dim SndbufErrors divisor = 1 # dim InErrors name = InErrors # dim InErrors algorithm = incremental # dim InErrors multiplier = 1 # dim InErrors divisor = 1 # dim NoPorts name = NoPorts # dim NoPorts algorithm = incremental # dim NoPorts multiplier = 1 # dim NoPorts divisor = 1 # dim InCsumErrors name = InCsumErrors # dim InCsumErrors algorithm = incremental # dim InCsumErrors multiplier = 1 # dim InCsumErrors divisor = 1 # dim IgnoredMulti name = IgnoredMulti # dim IgnoredMulti algorithm = incremental # dim IgnoredMulti multiplier = 1 # dim IgnoredMulti divisor = 1 [ipv4.udplite] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.udplite # chart type = line # type = ipv4 # family = udplite # units = packets/s # context = ipv4.udplite # priority = 2603 # gap when lost iterations above = 1 # name = ipv4.udplite # title = IPv4 UDPLite Packets (ipv4.udplite) # dim InDatagrams name = received # dim InDatagrams algorithm = incremental # dim InDatagrams multiplier = 1 # dim InDatagrams divisor = 1 # dim OutDatagrams name = sent # dim OutDatagrams algorithm = incremental # dim OutDatagrams multiplier = -1 # dim OutDatagrams divisor = 1 [ipv4.udplite_errors] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv4.udplite_errors # chart type = line # type = ipv4 # family = udplite # units = packets/s # context = ipv4.udplite_errors # priority = 2604 # gap when lost iterations above = 1 # name = ipv4.udplite_errors # title = IPv4 UDPLite Errors (ipv4.udplite_errors) # dim RcvbufErrors name = RcvbufErrors # dim RcvbufErrors algorithm = incremental # dim RcvbufErrors multiplier = 1 # dim RcvbufErrors divisor = 1 # dim SndbufErrors name = SndbufErrors # dim SndbufErrors algorithm = incremental # dim SndbufErrors multiplier = -1 # dim SndbufErrors divisor = 1 # dim NoPorts name = NoPorts # dim NoPorts algorithm = incremental # dim NoPorts multiplier = 1 # dim NoPorts divisor = 1 # dim IgnoredMulti name = IgnoredMulti # dim IgnoredMulti algorithm = incremental # dim IgnoredMulti multiplier = 1 # dim IgnoredMulti divisor = 1 # dim InErrors name = InErrors # dim InErrors algorithm = incremental # dim InErrors multiplier = 1 # dim InErrors divisor = 1 # dim InCsumErrors name = InCsumErrors # dim InCsumErrors algorithm = incremental # dim InCsumErrors multiplier = 1 # dim InCsumErrors divisor = 1 [system.ipv6] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.ipv6 # chart type = area # type = system # family = network # units = kilobits/s # context = system.ipv6 # priority = 500 # gap when lost iterations above = 1 # name = system.ipv6 # title = IPv6 Bandwidth (system.ipv6) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 8 # dim received divisor = 1024 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -8 # dim sent divisor = 1024 [ipv6.packets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.packets # chart type = line # type = ipv6 # family = packets # units = packets/s # context = ipv6.packets # priority = 3000 # gap when lost iterations above = 1 # name = ipv6.packets # title = IPv6 Packets (ipv6.packets) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 1 # dim received divisor = 1 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -1 # dim sent divisor = 1 # dim forwarded name = forwarded # dim forwarded algorithm = incremental # dim forwarded multiplier = 1 # dim forwarded divisor = 1 # dim delivers name = delivers # dim delivers algorithm = incremental # dim delivers multiplier = -1 # dim delivers divisor = 1 [ipv6.mcast] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.mcast # chart type = area # type = ipv6 # family = multicast # units = kilobits/s # context = ipv6.mcast # priority = 9000 # gap when lost iterations above = 1 # name = ipv6.mcast # title = IPv6 Multicast Bandwidth (ipv6.mcast) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 8 # dim received divisor = 1024 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -8 # dim sent divisor = 1024 [ipv6.mcastpkts] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.mcastpkts # chart type = line # type = ipv6 # family = multicast # units = packets/s # context = ipv6.mcastpkts # priority = 9500 # gap when lost iterations above = 1 # name = ipv6.mcastpkts # title = IPv6 Multicast Packets (ipv6.mcastpkts) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 1 # dim received divisor = 1 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -1 # dim sent divisor = 1 [ipv6.icmp] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.icmp # chart type = line # type = ipv6 # family = icmp # units = messages/s # context = ipv6.icmp # priority = 10000 # gap when lost iterations above = 1 # name = ipv6.icmp # title = IPv6 ICMP Messages (ipv6.icmp) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 1 # dim received divisor = 1 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -1 # dim sent divisor = 1 [ipv6.icmprouter] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.icmprouter # chart type = line # type = ipv6 # family = icmp # units = messages/s # context = ipv6.icmprouter # priority = 10400 # gap when lost iterations above = 1 # name = ipv6.icmprouter # title = IPv6 Router Messages (ipv6.icmprouter) # dim InSolicits name = InSolicits # dim InSolicits algorithm = incremental # dim InSolicits multiplier = 1 # dim InSolicits divisor = 1 # dim OutSolicits name = OutSolicits # dim OutSolicits algorithm = incremental # dim OutSolicits multiplier = -1 # dim OutSolicits divisor = 1 # dim InAdvertisements name = InAdvertisements # dim InAdvertisements algorithm = incremental # dim InAdvertisements multiplier = 1 # dim InAdvertisements divisor = 1 # dim OutAdvertisements name = OutAdvertisements # dim OutAdvertisements algorithm = incremental # dim OutAdvertisements multiplier = -1 # dim OutAdvertisements divisor = 1 [ipv6.icmpneighbor] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.icmpneighbor # chart type = line # type = ipv6 # family = icmp # units = messages/s # context = ipv6.icmpneighbor # priority = 10500 # gap when lost iterations above = 1 # name = ipv6.icmpneighbor # title = IPv6 Neighbor Messages (ipv6.icmpneighbor) # dim InSolicits name = InSolicits # dim InSolicits algorithm = incremental # dim InSolicits multiplier = 1 # dim InSolicits divisor = 1 # dim OutSolicits name = OutSolicits # dim OutSolicits algorithm = incremental # dim OutSolicits multiplier = -1 # dim OutSolicits divisor = 1 # dim InAdvertisements name = InAdvertisements # dim InAdvertisements algorithm = incremental # dim InAdvertisements multiplier = 1 # dim InAdvertisements divisor = 1 # dim OutAdvertisements name = OutAdvertisements # dim OutAdvertisements algorithm = incremental # dim OutAdvertisements multiplier = -1 # dim OutAdvertisements divisor = 1 [ipv6.icmpmldv2] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.icmpmldv2 # chart type = line # type = ipv6 # family = icmp # units = reports/s # context = ipv6.icmpmldv2 # priority = 10600 # gap when lost iterations above = 1 # name = ipv6.icmpmldv2 # title = IPv6 ICMP MLDv2 Reports (ipv6.icmpmldv2) # dim received name = received # dim received algorithm = incremental # dim received multiplier = 1 # dim received divisor = 1 # dim sent name = sent # dim sent algorithm = incremental # dim sent multiplier = -1 # dim sent divisor = 1 [ipv6.icmptypes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.icmptypes # chart type = line # type = ipv6 # family = icmp # units = messages/s # context = ipv6.icmptypes # priority = 10700 # gap when lost iterations above = 1 # name = ipv6.icmptypes # title = IPv6 ICMP Types (ipv6.icmptypes) # dim InType1 name = InType1 # dim InType1 algorithm = incremental # dim InType1 multiplier = 1 # dim InType1 divisor = 1 # dim InType128 name = InType128 # dim InType128 algorithm = incremental # dim InType128 multiplier = 1 # dim InType128 divisor = 1 # dim InType129 name = InType129 # dim InType129 algorithm = incremental # dim InType129 multiplier = 1 # dim InType129 divisor = 1 # dim InType136 name = InType136 # dim InType136 algorithm = incremental # dim InType136 multiplier = 1 # dim InType136 divisor = 1 # dim OutType1 name = OutType1 # dim OutType1 algorithm = incremental # dim OutType1 multiplier = -1 # dim OutType1 divisor = 1 # dim OutType128 name = OutType128 # dim OutType128 algorithm = incremental # dim OutType128 multiplier = -1 # dim OutType128 divisor = 1 # dim OutType129 name = OutType129 # dim OutType129 algorithm = incremental # dim OutType129 multiplier = -1 # dim OutType129 divisor = 1 # dim OutType133 name = OutType133 # dim OutType133 algorithm = incremental # dim OutType133 multiplier = -1 # dim OutType133 divisor = 1 # dim OutType135 name = OutType135 # dim OutType135 algorithm = incremental # dim OutType135 multiplier = -1 # dim OutType135 divisor = 1 # dim OutType143 name = OutType143 # dim OutType143 algorithm = incremental # dim OutType143 multiplier = -1 # dim OutType143 divisor = 1 [system.softnet_stat] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.softnet_stat # chart type = line # type = system # family = softnet_stat # units = events/s # context = system.softnet_stat # priority = 955 # gap when lost iterations above = 1 # name = system.softnet_stat # title = System softnet_stat (system.softnet_stat) # dim processed name = processed # dim processed algorithm = incremental # dim processed multiplier = 1 # dim processed divisor = 1 # dim dropped name = dropped # dim dropped algorithm = incremental # dim dropped multiplier = 1 # dim dropped divisor = 1 # dim squeezed name = squeezed # dim squeezed algorithm = incremental # dim squeezed multiplier = 1 # dim squeezed divisor = 1 # dim received_rps name = received_rps # dim received_rps algorithm = incremental # dim received_rps multiplier = 1 # dim received_rps divisor = 1 # dim flow_limit_count name = flow_limit_count # dim flow_limit_count algorithm = incremental # dim flow_limit_count multiplier = 1 # dim flow_limit_count divisor = 1 [cpu.cpu0_softnet_stat] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/cpu.cpu0_softnet_stat # chart type = line # type = cpu # family = softnet_stat # units = events/s # context = cpu.cpu0_softnet_stat # priority = 4101 # gap when lost iterations above = 1 # name = cpu.cpu0_softnet_stat # title = CPU0 softnet_stat (cpu.cpu0_softnet_stat) # dim processed name = processed # dim processed algorithm = incremental # dim processed multiplier = 1 # dim processed divisor = 1 # dim dropped name = dropped # dim dropped algorithm = incremental # dim dropped multiplier = 1 # dim dropped divisor = 1 # dim squeezed name = squeezed # dim squeezed algorithm = incremental # dim squeezed multiplier = 1 # dim squeezed divisor = 1 # dim received_rps name = received_rps # dim received_rps algorithm = incremental # dim received_rps multiplier = 1 # dim received_rps divisor = 1 # dim flow_limit_count name = flow_limit_count # dim flow_limit_count algorithm = incremental # dim flow_limit_count multiplier = 1 # dim flow_limit_count divisor = 1 [disk.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk.sda # chart type = area # type = disk # family = sda # units = kilobytes/s # context = disk.io # priority = 2000 # gap when lost iterations above = 1 # name = disk.sda # title = Disk I/O Bandwidth (disk.sda) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 512 # dim reads divisor = 1024 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -512 # dim writes divisor = 1024 [disk_ops.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_ops.sda # chart type = line # type = disk_ops # family = sda # units = operations/s # context = disk.ops # priority = 2001 # gap when lost iterations above = 1 # name = disk_ops.sda # title = Disk Completed I/O Operations (disk_ops.sda) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [disk_backlog.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_backlog.sda # chart type = area # type = disk_backlog # family = sda # units = backlog (ms) # context = disk.backlog # priority = 2003 # gap when lost iterations above = 1 # name = disk_backlog.sda # title = Disk Backlog (disk_backlog.sda) # dim backlog name = backlog # dim backlog algorithm = incremental # dim backlog multiplier = 1 # dim backlog divisor = 10 [disk_util.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_util.sda # chart type = area # type = disk_util # family = sda # units = % of time working # context = disk.util # priority = 2004 # gap when lost iterations above = 1 # name = disk_util.sda # title = Disk Utilization Time (disk_util.sda) # dim utilization name = utilization # dim utilization algorithm = incremental # dim utilization multiplier = 1 # dim utilization divisor = 10 [disk_mops.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_mops.sda # chart type = line # type = disk_mops # family = sda # units = merged operations/s # context = disk.mops # priority = 2021 # gap when lost iterations above = 1 # name = disk_mops.sda # title = Disk Merged Operations (disk_mops.sda) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [disk_iotime.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_iotime.sda # chart type = line # type = disk_iotime # family = sda # units = milliseconds/s # context = disk.iotime # priority = 2022 # gap when lost iterations above = 1 # name = disk_iotime.sda # title = Disk Total I/O Time (disk_iotime.sda) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [disk.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk.dm_0 # chart type = area # type = disk # family = / # units = kilobytes/s # context = disk.io # priority = 2000 # gap when lost iterations above = 1 # name = disk.dm_0 # title = Disk I/O Bandwidth (disk.dm_0) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 512 # dim reads divisor = 1024 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -512 # dim writes divisor = 1024 [disk_ops.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_ops.dm_0 # chart type = line # type = disk_ops # family = / # units = operations/s # context = disk.ops # priority = 2001 # gap when lost iterations above = 1 # name = disk_ops.dm_0 # title = Disk Completed I/O Operations (disk_ops.dm_0) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [disk_backlog.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_backlog.dm_0 # chart type = area # type = disk_backlog # family = / # units = backlog (ms) # context = disk.backlog # priority = 2003 # gap when lost iterations above = 1 # name = disk_backlog.dm_0 # title = Disk Backlog (disk_backlog.dm_0) # dim backlog name = backlog # dim backlog algorithm = incremental # dim backlog multiplier = 1 # dim backlog divisor = 10 [disk_util.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_util.dm_0 # chart type = area # type = disk_util # family = / # units = % of time working # context = disk.util # priority = 2004 # gap when lost iterations above = 1 # name = disk_util.dm_0 # title = Disk Utilization Time (disk_util.dm_0) # dim utilization name = utilization # dim utilization algorithm = incremental # dim utilization multiplier = 1 # dim utilization divisor = 10 [disk_iotime.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_iotime.dm_0 # chart type = line # type = disk_iotime # family = / # units = milliseconds/s # context = disk.iotime # priority = 2022 # gap when lost iterations above = 1 # name = disk_iotime.dm_0 # title = Disk Total I/O Time (disk_iotime.dm_0) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [disk.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk.dm_1 # chart type = area # type = disk # family = dm-1 # units = kilobytes/s # context = disk.io # priority = 2000 # gap when lost iterations above = 1 # name = disk.dm_1 # title = Disk I/O Bandwidth (disk.dm_1) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 512 # dim reads divisor = 1024 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -512 # dim writes divisor = 1024 [disk_ops.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_ops.dm_1 # chart type = line # type = disk_ops # family = dm-1 # units = operations/s # context = disk.ops # priority = 2001 # gap when lost iterations above = 1 # name = disk_ops.dm_1 # title = Disk Completed I/O Operations (disk_ops.dm_1) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [disk_backlog.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_backlog.dm_1 # chart type = area # type = disk_backlog # family = dm-1 # units = backlog (ms) # context = disk.backlog # priority = 2003 # gap when lost iterations above = 1 # name = disk_backlog.dm_1 # title = Disk Backlog (disk_backlog.dm_1) # dim backlog name = backlog # dim backlog algorithm = incremental # dim backlog multiplier = 1 # dim backlog divisor = 10 [disk_util.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_util.dm_1 # chart type = area # type = disk_util # family = dm-1 # units = % of time working # context = disk.util # priority = 2004 # gap when lost iterations above = 1 # name = disk_util.dm_1 # title = Disk Utilization Time (disk_util.dm_1) # dim utilization name = utilization # dim utilization algorithm = incremental # dim utilization multiplier = 1 # dim utilization divisor = 10 [disk_iotime.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_iotime.dm_1 # chart type = line # type = disk_iotime # family = dm-1 # units = milliseconds/s # context = disk.iotime # priority = 2022 # gap when lost iterations above = 1 # name = disk_iotime.dm_1 # title = Disk Total I/O Time (disk_iotime.dm_1) # dim reads name = reads # dim reads algorithm = incremental # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = incremental # dim writes multiplier = -1 # dim writes divisor = 1 [system.ipc_semaphores] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.ipc_semaphores # chart type = area # type = system # family = ipc semaphores # units = semaphores # context = system.ipc_semaphores # priority = 1000 # gap when lost iterations above = 1 # name = system.ipc_semaphores # title = IPC Semaphores (system.ipc_semaphores) # dim semaphores name = semaphores # dim semaphores algorithm = absolute # dim semaphores multiplier = 1 # dim semaphores divisor = 1 [system.ipc_semaphore_arrays] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/system.ipc_semaphore_arrays # chart type = area # type = system # family = ipc semaphores # units = arrays # context = system.ipc_semaphore_arrays # priority = 1000 # gap when lost iterations above = 1 # name = system.ipc_semaphore_arrays # title = IPC Semaphore Arrays (system.ipc_semaphore_arrays) # dim arrays name = arrays # dim arrays algorithm = absolute # dim arrays multiplier = 1 # dim arrays divisor = 1 [netdata.plugin_proc_modules] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_proc_modules # chart type = stacked # type = netdata # family = proc # units = milliseconds/run # context = netdata.plugin_proc_modules # priority = 132001 # gap when lost iterations above = 1 # name = netdata.plugin_proc_modules # title = NetData Proc Plugin Modules Durations (netdata.plugin_proc_modules) # dim stat name = stat # dim stat algorithm = absolute # dim stat multiplier = 1 # dim stat divisor = 1000 # dim uptime name = uptime # dim uptime algorithm = absolute # dim uptime multiplier = 1 # dim uptime divisor = 1000 # dim loadavg name = loadavg # dim loadavg algorithm = absolute # dim loadavg multiplier = 1 # dim loadavg divisor = 1000 # dim entropy name = entropy # dim entropy algorithm = absolute # dim entropy multiplier = 1 # dim entropy divisor = 1000 # dim interrupts name = interrupts # dim interrupts algorithm = absolute # dim interrupts multiplier = 1 # dim interrupts divisor = 1000 # dim softirqs name = softirqs # dim softirqs algorithm = absolute # dim softirqs multiplier = 1 # dim softirqs divisor = 1000 # dim vmstat name = vmstat # dim vmstat algorithm = absolute # dim vmstat multiplier = 1 # dim vmstat divisor = 1000 # dim meminfo name = meminfo # dim meminfo algorithm = absolute # dim meminfo multiplier = 1 # dim meminfo divisor = 1000 # dim ksm name = ksm # dim ksm algorithm = absolute # dim ksm multiplier = 1 # dim ksm divisor = 1000 # dim numa name = numa # dim numa algorithm = absolute # dim numa multiplier = 1 # dim numa divisor = 1000 # dim netdev name = netdev # dim netdev algorithm = absolute # dim netdev multiplier = 1 # dim netdev divisor = 1000 # dim netstat name = netstat # dim netstat algorithm = absolute # dim netstat multiplier = 1 # dim netstat divisor = 1000 # dim snmp name = snmp # dim snmp algorithm = absolute # dim snmp multiplier = 1 # dim snmp divisor = 1000 # dim snmp6 name = snmp6 # dim snmp6 algorithm = absolute # dim snmp6 multiplier = 1 # dim snmp6 divisor = 1000 # dim softnet name = softnet # dim softnet algorithm = absolute # dim softnet multiplier = 1 # dim softnet divisor = 1000 # dim diskstats name = diskstats # dim diskstats algorithm = absolute # dim diskstats multiplier = 1 # dim diskstats divisor = 1000 # dim ipc name = ipc # dim ipc algorithm = absolute # dim ipc multiplier = 1 # dim ipc divisor = 1000 [netdata.plugin_proc_cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_proc_cpu # chart type = stacked # type = netdata # family = proc # units = milliseconds/s # context = netdata.plugin_proc_cpu # priority = 132000 # gap when lost iterations above = 1 # name = netdata.plugin_proc_cpu # title = NetData Proc Plugin CPU usage (netdata.plugin_proc_cpu) # dim user name = user # dim user algorithm = incremental # dim user multiplier = 1 # dim user divisor = 1000 # dim system name = system # dim system algorithm = incremental # dim system multiplier = 1 # dim system divisor = 1000 [netdata.server_cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.server_cpu # chart type = stacked # type = netdata # family = netdata # units = milliseconds/s # context = netdata.server_cpu # priority = 130000 # gap when lost iterations above = 1 # name = netdata.server_cpu # title = NetData CPU usage (netdata.server_cpu) # dim user name = user # dim user algorithm = incremental # dim user multiplier = 1 # dim user divisor = 1000 # dim system name = system # dim system algorithm = incremental # dim system multiplier = 1 # dim system divisor = 1000 [netdata.clients] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.clients # chart type = line # type = netdata # family = netdata # units = connected clients # context = netdata.clients # priority = 130200 # gap when lost iterations above = 1 # name = netdata.clients # title = NetData Web Clients (netdata.clients) # dim clients name = clients # dim clients algorithm = absolute # dim clients multiplier = 1 # dim clients divisor = 1 [netdata.requests] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.requests # chart type = line # type = netdata # family = netdata # units = requests/s # context = netdata.requests # priority = 130300 # gap when lost iterations above = 1 # name = netdata.requests # title = NetData Web Requests (netdata.requests) # dim requests name = requests # dim requests algorithm = incremental # dim requests multiplier = 1 # dim requests divisor = 1 [netdata.net] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.net # chart type = area # type = netdata # family = netdata # units = kilobits/s # context = netdata.net # priority = 130000 # gap when lost iterations above = 1 # name = netdata.net # title = NetData Network Traffic (netdata.net) # dim in name = in # dim in algorithm = incremental # dim in multiplier = 8 # dim in divisor = 1024 # dim out name = out # dim out algorithm = incremental # dim out multiplier = -8 # dim out divisor = 1024 [netdata.response_time] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.response_time # chart type = line # type = netdata # family = netdata # units = ms/request # context = netdata.response_time # priority = 130400 # gap when lost iterations above = 1 # name = netdata.response_time # title = NetData API Response Time (netdata.response_time) # dim average name = average # dim average algorithm = absolute # dim average multiplier = 1 # dim average divisor = 1000 # dim max name = max # dim max algorithm = absolute # dim max multiplier = 1 # dim max divisor = 1000 [netdata.compression_ratio] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.compression_ratio # chart type = line # type = netdata # family = netdata # units = percentage # context = netdata.compression_ratio # priority = 130500 # gap when lost iterations above = 1 # name = netdata.compression_ratio # title = NetData API Responses Compression Savings Ratio (netdata.compression_ratio) # dim savings name = savings # dim savings algorithm = absolute # dim savings multiplier = 1 # dim savings divisor = 1000 [netdata.plugin_tc_cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_tc_cpu # chart type = stacked # type = netdata # family = tc.helper # units = milliseconds/s # context = netdata.plugin_tc_cpu # priority = 135000 # gap when lost iterations above = 1 # name = netdata.plugin_tc_cpu # title = NetData TC CPU usage (netdata.plugin_tc_cpu) # dim user name = user # dim user algorithm = incremental # dim user multiplier = 1 # dim user divisor = 1000 # dim system name = system # dim system algorithm = incremental # dim system multiplier = 1 # dim system divisor = 1000 [netdata.plugin_tc_time] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.plugin_tc_time # chart type = area # type = netdata # family = tc.helper # units = milliseconds/run # context = netdata.plugin_tc_time # priority = 135001 # gap when lost iterations above = 1 # name = netdata.plugin_tc_time # title = NetData TC script execution (netdata.plugin_tc_time) # dim run_time name = run time # dim run_time algorithm = absolute # dim run_time multiplier = 1 # dim run_time divisor = 1 [ipv6.ect] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/ipv6.ect # chart type = line # type = ipv6 # family = packets # units = packets/s # context = ipv6.ect # priority = 10800 # gap when lost iterations above = 1 # name = ipv6.ect # title = IPv6 ECT Packets (ipv6.ect) # dim InNoECTPkts name = InNoECTPkts # dim InNoECTPkts algorithm = incremental # dim InNoECTPkts multiplier = 1 # dim InNoECTPkts divisor = 1 # dim InECT1Pkts name = InECT1Pkts # dim InECT1Pkts algorithm = incremental # dim InECT1Pkts multiplier = 1 # dim InECT1Pkts divisor = 1 # dim InECT0Pkts name = InECT0Pkts # dim InECT0Pkts algorithm = incremental # dim InECT0Pkts multiplier = 1 # dim InECT0Pkts divisor = 1 # dim InCEPkts name = InCEPkts # dim InCEPkts algorithm = incremental # dim InCEPkts multiplier = 1 # dim InCEPkts divisor = 1 [disk_await.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_await.sda # chart type = line # type = disk_await # family = sda # units = ms per operation # context = disk.await # priority = 2005 # gap when lost iterations above = 1 # name = disk_await.sda # title = Average Completed I/O Operation Time (disk_await.sda) # dim reads name = reads # dim reads algorithm = absolute # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = absolute # dim writes multiplier = -1 # dim writes divisor = 1 [disk_avgsz.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_avgsz.sda # chart type = area # type = disk_avgsz # family = sda # units = kilobytes per operation # context = disk.avgsz # priority = 2006 # gap when lost iterations above = 1 # name = disk_avgsz.sda # title = Average Completed I/O Operation Bandwidth (disk_avgsz.sda) # dim reads name = reads # dim reads algorithm = absolute # dim reads multiplier = 512 # dim reads divisor = 1024 # dim writes name = writes # dim writes algorithm = absolute # dim writes multiplier = -512 # dim writes divisor = 1024 [disk_svctm.sda] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_svctm.sda # chart type = line # type = disk_svctm # family = sda # units = ms per operation # context = disk.svctm # priority = 2007 # gap when lost iterations above = 1 # name = disk_svctm.sda # title = Average Service Time (disk_svctm.sda) # dim svctm name = svctm # dim svctm algorithm = absolute # dim svctm multiplier = 1 # dim svctm divisor = 1 [disk_await.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_await.dm_0 # chart type = line # type = disk_await # family = / # units = ms per operation # context = disk.await # priority = 2005 # gap when lost iterations above = 1 # name = disk_await.dm_0 # title = Average Completed I/O Operation Time (disk_await.dm_0) # dim reads name = reads # dim reads algorithm = absolute # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = absolute # dim writes multiplier = -1 # dim writes divisor = 1 [disk_avgsz.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_avgsz.dm_0 # chart type = area # type = disk_avgsz # family = / # units = kilobytes per operation # context = disk.avgsz # priority = 2006 # gap when lost iterations above = 1 # name = disk_avgsz.dm_0 # title = Average Completed I/O Operation Bandwidth (disk_avgsz.dm_0) # dim reads name = reads # dim reads algorithm = absolute # dim reads multiplier = 512 # dim reads divisor = 1024 # dim writes name = writes # dim writes algorithm = absolute # dim writes multiplier = -512 # dim writes divisor = 1024 [disk_svctm.dm-0] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_svctm.dm_0 # chart type = line # type = disk_svctm # family = / # units = ms per operation # context = disk.svctm # priority = 2007 # gap when lost iterations above = 1 # name = disk_svctm.dm_0 # title = Average Service Time (disk_svctm.dm_0) # dim svctm name = svctm # dim svctm algorithm = absolute # dim svctm multiplier = 1 # dim svctm divisor = 1 [disk_await.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_await.dm_1 # chart type = line # type = disk_await # family = dm-1 # units = ms per operation # context = disk.await # priority = 2005 # gap when lost iterations above = 1 # name = disk_await.dm_1 # title = Average Completed I/O Operation Time (disk_await.dm_1) # dim reads name = reads # dim reads algorithm = absolute # dim reads multiplier = 1 # dim reads divisor = 1 # dim writes name = writes # dim writes algorithm = absolute # dim writes multiplier = -1 # dim writes divisor = 1 [disk_avgsz.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_avgsz.dm_1 # chart type = area # type = disk_avgsz # family = dm-1 # units = kilobytes per operation # context = disk.avgsz # priority = 2006 # gap when lost iterations above = 1 # name = disk_avgsz.dm_1 # title = Average Completed I/O Operation Bandwidth (disk_avgsz.dm_1) # dim reads name = reads # dim reads algorithm = absolute # dim reads multiplier = 512 # dim reads divisor = 1024 # dim writes name = writes # dim writes algorithm = absolute # dim writes multiplier = -512 # dim writes divisor = 1024 [disk_svctm.dm-1] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/disk_svctm.dm_1 # chart type = line # type = disk_svctm # family = dm-1 # units = ms per operation # context = disk.svctm # priority = 2007 # gap when lost iterations above = 1 # name = disk_svctm.dm_1 # title = Average Service Time (disk_svctm.dm_1) # dim svctm name = svctm # dim svctm algorithm = absolute # dim svctm multiplier = 1 # dim svctm divisor = 1 [netdata.apps_cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.apps_cpu # chart type = stacked # type = netdata # family = apps.plugin # units = milliseconds/s # context = netdata.apps_cpu # priority = 140000 # gap when lost iterations above = 1 # name = netdata.apps_cpu # title = Apps Plugin CPU (netdata.apps_cpu) # dim user name = user # dim user algorithm = incremental # dim user multiplier = 1 # dim user divisor = 1000 # dim system name = system # dim system algorithm = incremental # dim system multiplier = 1 # dim system divisor = 1000 [netdata.apps_sizes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.apps_sizes # chart type = line # type = netdata # family = apps.plugin # units = files/s # context = netdata.apps_sizes # priority = 140001 # gap when lost iterations above = 1 # name = netdata.apps_sizes # title = Apps Plugin Files (netdata.apps_sizes) # dim calls name = calls # dim calls algorithm = incremental # dim calls multiplier = 1 # dim calls divisor = 1 # dim files name = files # dim files algorithm = incremental # dim files multiplier = 1 # dim files divisor = 1 # dim pids name = pids # dim pids algorithm = absolute # dim pids multiplier = 1 # dim pids divisor = 1 # dim fds name = fds # dim fds algorithm = absolute # dim fds multiplier = 1 # dim fds divisor = 1 # dim targets name = targets # dim targets algorithm = absolute # dim targets multiplier = 1 # dim targets divisor = 1 # dim new_pids name = new pids # dim new_pids algorithm = incremental # dim new_pids multiplier = 1 # dim new_pids divisor = 1 [netdata.apps_fix] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.apps_fix # chart type = line # type = netdata # family = apps.plugin # units = percentage # context = netdata.apps_fix # priority = 140002 # gap when lost iterations above = 1 # name = netdata.apps_fix # title = Apps Plugin Normalization Ratios (netdata.apps_fix) # dim utime name = utime # dim utime algorithm = absolute # dim utime multiplier = 1 # dim utime divisor = 10000 # dim stime name = stime # dim stime algorithm = absolute # dim stime multiplier = 1 # dim stime divisor = 10000 # dim gtime name = gtime # dim gtime algorithm = absolute # dim gtime multiplier = 1 # dim gtime divisor = 10000 # dim minflt name = minflt # dim minflt algorithm = absolute # dim minflt multiplier = 1 # dim minflt divisor = 10000 # dim majflt name = majflt # dim majflt algorithm = absolute # dim majflt multiplier = 1 # dim majflt divisor = 10000 [netdata.apps_children_fix] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/netdata.apps_children_fix # chart type = line # type = netdata # family = apps.plugin # units = percentage # context = netdata.apps_children_fix # priority = 140003 # gap when lost iterations above = 1 # name = netdata.apps_children_fix # title = Apps Plugin Exited Children Normalization Ratios (netdata.apps_children_fix) # dim cutime name = cutime # dim cutime algorithm = absolute # dim cutime multiplier = 1 # dim cutime divisor = 10000 # dim cstime name = cstime # dim cstime algorithm = absolute # dim cstime multiplier = 1 # dim cstime divisor = 10000 # dim cgtime name = cgtime # dim cgtime algorithm = absolute # dim cgtime multiplier = 1 # dim cgtime divisor = 10000 # dim cminflt name = cminflt # dim cminflt algorithm = absolute # dim cminflt multiplier = 1 # dim cminflt divisor = 10000 # dim cmajflt name = cmajflt # dim cmajflt algorithm = absolute # dim cmajflt multiplier = 1 # dim cmajflt divisor = 10000 [apps.cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.cpu # chart type = stacked # type = apps # family = cpu # units = cpu time % # context = apps.cpu # priority = 20001 # gap when lost iterations above = 1 # name = apps.cpu # title = Apps CPU Time (100% = 1 core) (apps.cpu) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10000 [apps.mem] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.mem # chart type = stacked # type = apps # family = mem # units = MB # context = apps.mem # priority = 20003 # gap when lost iterations above = 1 # name = apps.mem # title = Apps Real Memory (w/o shared) (apps.mem) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 4096 # dim netdata divisor = 1048576 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 4096 # dim apps.plugin divisor = 1048576 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 4096 # dim python.d.plugin divisor = 1048576 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 4096 # dim tc-qos-helper divisor = 1048576 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 4096 # dim logs divisor = 1048576 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 4096 # dim VMs divisor = 1048576 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 4096 # dim ssh divisor = 1048576 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 4096 # dim time divisor = 1048576 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 4096 # dim dhcp divisor = 1048576 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 4096 # dim cron divisor = 1048576 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 4096 # dim ksmd divisor = 1048576 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 4096 # dim system divisor = 1048576 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 4096 # dim kernel divisor = 1048576 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 4096 # dim other divisor = 1048576 [apps.vmem] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.vmem # chart type = stacked # type = apps # family = mem # units = MB # context = apps.vmem # priority = 20004 # gap when lost iterations above = 1 # name = apps.vmem # title = Apps Virtual Memory Size (apps.vmem) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 4096 # dim netdata divisor = 1048576 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 4096 # dim apps.plugin divisor = 1048576 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 4096 # dim python.d.plugin divisor = 1048576 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 4096 # dim tc-qos-helper divisor = 1048576 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 4096 # dim logs divisor = 1048576 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 4096 # dim VMs divisor = 1048576 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 4096 # dim ssh divisor = 1048576 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 4096 # dim time divisor = 1048576 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 4096 # dim dhcp divisor = 1048576 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 4096 # dim cron divisor = 1048576 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 4096 # dim ksmd divisor = 1048576 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 4096 # dim system divisor = 1048576 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 4096 # dim kernel divisor = 1048576 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 4096 # dim other divisor = 1048576 [apps.threads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.threads # chart type = stacked # type = apps # family = processes # units = threads # context = apps.threads # priority = 20005 # gap when lost iterations above = 1 # name = apps.threads # title = Apps Threads (apps.threads) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 1 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 1 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 1 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 1 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 1 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 1 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 1 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 1 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 1 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 1 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 1 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 1 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 1 [apps.processes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.processes # chart type = stacked # type = apps # family = processes # units = processes # context = apps.processes # priority = 20004 # gap when lost iterations above = 1 # name = apps.processes # title = Apps Processes (apps.processes) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 1 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 1 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 1 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 1 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 1 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 1 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 1 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 1 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 1 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 1 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 1 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 1 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 1 [apps.cpu_user] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.cpu_user # chart type = stacked # type = apps # family = cpu # units = cpu time % # context = apps.cpu_user # priority = 20020 # gap when lost iterations above = 1 # name = apps.cpu_user # title = Apps CPU User Time (100% = 1 core) (apps.cpu_user) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10000 [apps.cpu_system] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.cpu_system # chart type = stacked # type = apps # family = cpu # units = cpu time % # context = apps.cpu_system # priority = 20021 # gap when lost iterations above = 1 # name = apps.cpu_system # title = Apps CPU System Time (100% = 1 core) (apps.cpu_system) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10000 [apps.major_faults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.major_faults # chart type = stacked # type = apps # family = swap # units = page faults/s # context = apps.major_faults # priority = 20010 # gap when lost iterations above = 1 # name = apps.major_faults # title = Apps Major Page Faults (swap read) (apps.major_faults) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10000 [apps.minor_faults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.minor_faults # chart type = stacked # type = apps # family = mem # units = page faults/s # context = apps.minor_faults # priority = 20011 # gap when lost iterations above = 1 # name = apps.minor_faults # title = Apps Minor Page Faults (apps.minor_faults) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10000 [apps.preads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.preads # chart type = stacked # type = apps # family = disk # units = kilobytes/s # context = apps.preads # priority = 20002 # gap when lost iterations above = 1 # name = apps.preads # title = Apps Disk Reads (apps.preads) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10240000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10240000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10240000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10240000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10240000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10240000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10240000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10240000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10240000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10240000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10240000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10240000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10240000 [apps.pwrites] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.pwrites # chart type = stacked # type = apps # family = disk # units = kilobytes/s # context = apps.pwrites # priority = 20002 # gap when lost iterations above = 1 # name = apps.pwrites # title = Apps Disk Writes (apps.pwrites) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10240000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10240000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10240000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10240000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10240000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10240000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10240000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10240000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10240000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10240000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10240000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10240000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10240000 [apps.lreads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.lreads # chart type = stacked # type = apps # family = disk # units = kilobytes/s # context = apps.lreads # priority = 20042 # gap when lost iterations above = 1 # name = apps.lreads # title = Apps Disk Logical Reads (apps.lreads) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10240000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10240000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10240000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10240000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10240000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10240000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10240000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10240000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10240000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10240000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10240000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10240000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10240000 [apps.lwrites] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.lwrites # chart type = stacked # type = apps # family = disk # units = kilobytes/s # context = apps.lwrites # priority = 20042 # gap when lost iterations above = 1 # name = apps.lwrites # title = Apps I/O Logical Writes (apps.lwrites) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 10240000 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 10240000 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 10240000 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 10240000 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 10240000 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 10240000 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 10240000 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 10240000 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 10240000 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 10240000 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 10240000 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 10240000 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 10240000 [apps.files] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.files # chart type = stacked # type = apps # family = disk # units = open files # context = apps.files # priority = 20050 # gap when lost iterations above = 1 # name = apps.files # title = Apps Open Files (apps.files) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 1 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 1 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 1 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 1 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 1 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 1 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 1 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 1 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 1 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 1 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 1 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 1 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 1 [apps.sockets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.sockets # chart type = stacked # type = apps # family = net # units = open sockets # context = apps.sockets # priority = 20051 # gap when lost iterations above = 1 # name = apps.sockets # title = Apps Open Sockets (apps.sockets) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 1 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 1 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 1 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 1 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 1 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 1 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 1 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 1 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 1 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 1 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 1 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 1 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 1 [apps.pipes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/apps.pipes # chart type = stacked # type = apps # family = processes # units = open pipes # context = apps.pipes # priority = 20053 # gap when lost iterations above = 1 # name = apps.pipes # title = Apps Pipes (apps.pipes) # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim apps.plugin name = apps.plugin # dim apps.plugin algorithm = absolute # dim apps.plugin multiplier = 1 # dim apps.plugin divisor = 1 # dim python.d.plugin name = python.d.plugin # dim python.d.plugin algorithm = absolute # dim python.d.plugin multiplier = 1 # dim python.d.plugin divisor = 1 # dim tc-qos-helper name = tc-qos-helper # dim tc-qos-helper algorithm = absolute # dim tc-qos-helper multiplier = 1 # dim tc-qos-helper divisor = 1 # dim logs name = logs # dim logs algorithm = absolute # dim logs multiplier = 1 # dim logs divisor = 1 # dim VMs name = VMs # dim VMs algorithm = absolute # dim VMs multiplier = 1 # dim VMs divisor = 1 # dim ssh name = ssh # dim ssh algorithm = absolute # dim ssh multiplier = 1 # dim ssh divisor = 1 # dim time name = time # dim time algorithm = absolute # dim time multiplier = 1 # dim time divisor = 1 # dim dhcp name = dhcp # dim dhcp algorithm = absolute # dim dhcp multiplier = 1 # dim dhcp divisor = 1 # dim cron name = cron # dim cron algorithm = absolute # dim cron multiplier = 1 # dim cron divisor = 1 # dim ksmd name = ksmd # dim ksmd algorithm = absolute # dim ksmd multiplier = 1 # dim ksmd divisor = 1 # dim system name = system # dim system algorithm = absolute # dim system multiplier = 1 # dim system divisor = 1 # dim kernel name = kernel # dim kernel algorithm = absolute # dim kernel multiplier = 1 # dim kernel divisor = 1 # dim other name = other # dim other algorithm = absolute # dim other multiplier = 1 # dim other divisor = 1 [users.cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.cpu # chart type = stacked # type = users # family = cpu # units = cpu time % # context = users.cpu # priority = 20001 # gap when lost iterations above = 1 # name = users.cpu # title = Users CPU Time (100% = 1 core) (users.cpu) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [users.mem] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.mem # chart type = stacked # type = users # family = mem # units = MB # context = users.mem # priority = 20003 # gap when lost iterations above = 1 # name = users.mem # title = Users Real Memory (w/o shared) (users.mem) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 4096 # dim vagrant divisor = 1048576 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 4096 # dim uuidd divisor = 1048576 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 4096 # dim netdata divisor = 1048576 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 4096 # dim root divisor = 1048576 [users.vmem] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.vmem # chart type = stacked # type = users # family = mem # units = MB # context = users.vmem # priority = 20004 # gap when lost iterations above = 1 # name = users.vmem # title = Users Virtual Memory Size (users.vmem) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 4096 # dim vagrant divisor = 1048576 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 4096 # dim uuidd divisor = 1048576 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 4096 # dim netdata divisor = 1048576 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 4096 # dim root divisor = 1048576 [users.threads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.threads # chart type = stacked # type = users # family = processes # units = threads # context = users.threads # priority = 20005 # gap when lost iterations above = 1 # name = users.threads # title = Users Threads (users.threads) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [users.processes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.processes # chart type = stacked # type = users # family = processes # units = processes # context = users.processes # priority = 20004 # gap when lost iterations above = 1 # name = users.processes # title = Users Processes (users.processes) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [users.cpu_user] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.cpu_user # chart type = stacked # type = users # family = cpu # units = cpu time % # context = users.cpu_user # priority = 20020 # gap when lost iterations above = 1 # name = users.cpu_user # title = Users CPU User Time (100% = 1 core) (users.cpu_user) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [users.cpu_system] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.cpu_system # chart type = stacked # type = users # family = cpu # units = cpu time % # context = users.cpu_system # priority = 20021 # gap when lost iterations above = 1 # name = users.cpu_system # title = Users CPU System Time (100% = 1 core) (users.cpu_system) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [users.major_faults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.major_faults # chart type = stacked # type = users # family = swap # units = page faults/s # context = users.major_faults # priority = 20010 # gap when lost iterations above = 1 # name = users.major_faults # title = Users Major Page Faults (swap read) (users.major_faults) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [users.minor_faults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.minor_faults # chart type = stacked # type = users # family = mem # units = page faults/s # context = users.minor_faults # priority = 20011 # gap when lost iterations above = 1 # name = users.minor_faults # title = Users Minor Page Faults (users.minor_faults) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [users.preads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.preads # chart type = stacked # type = users # family = disk # units = kilobytes/s # context = users.preads # priority = 20002 # gap when lost iterations above = 1 # name = users.preads # title = Users Disk Reads (users.preads) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [users.pwrites] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.pwrites # chart type = stacked # type = users # family = disk # units = kilobytes/s # context = users.pwrites # priority = 20002 # gap when lost iterations above = 1 # name = users.pwrites # title = Users Disk Writes (users.pwrites) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [users.lreads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.lreads # chart type = stacked # type = users # family = disk # units = kilobytes/s # context = users.lreads # priority = 20042 # gap when lost iterations above = 1 # name = users.lreads # title = Users Disk Logical Reads (users.lreads) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [users.lwrites] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.lwrites # chart type = stacked # type = users # family = disk # units = kilobytes/s # context = users.lwrites # priority = 20042 # gap when lost iterations above = 1 # name = users.lwrites # title = Users I/O Logical Writes (users.lwrites) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [users.files] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.files # chart type = stacked # type = users # family = disk # units = open files # context = users.files # priority = 20050 # gap when lost iterations above = 1 # name = users.files # title = Users Open Files (users.files) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [users.sockets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.sockets # chart type = stacked # type = users # family = net # units = open sockets # context = users.sockets # priority = 20051 # gap when lost iterations above = 1 # name = users.sockets # title = Users Open Sockets (users.sockets) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [users.pipes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/users.pipes # chart type = stacked # type = users # family = processes # units = open pipes # context = users.pipes # priority = 20053 # gap when lost iterations above = 1 # name = users.pipes # title = Users Pipes (users.pipes) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [groups.cpu] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.cpu # chart type = stacked # type = groups # family = cpu # units = cpu time % # context = groups.cpu # priority = 20001 # gap when lost iterations above = 1 # name = groups.cpu # title = User Groups CPU Time (100% = 1 core) (groups.cpu) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [groups.mem] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.mem # chart type = stacked # type = groups # family = mem # units = MB # context = groups.mem # priority = 20003 # gap when lost iterations above = 1 # name = groups.mem # title = User Groups Real Memory (w/o shared) (groups.mem) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 4096 # dim vagrant divisor = 1048576 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 4096 # dim uuidd divisor = 1048576 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 4096 # dim netdata divisor = 1048576 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 4096 # dim root divisor = 1048576 [groups.vmem] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.vmem # chart type = stacked # type = groups # family = mem # units = MB # context = groups.vmem # priority = 20004 # gap when lost iterations above = 1 # name = groups.vmem # title = User Groups Virtual Memory Size (groups.vmem) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 4096 # dim vagrant divisor = 1048576 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 4096 # dim uuidd divisor = 1048576 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 4096 # dim netdata divisor = 1048576 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 4096 # dim root divisor = 1048576 [groups.threads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.threads # chart type = stacked # type = groups # family = processes # units = threads # context = groups.threads # priority = 20005 # gap when lost iterations above = 1 # name = groups.threads # title = User Groups Threads (groups.threads) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [groups.processes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.processes # chart type = stacked # type = groups # family = processes # units = processes # context = groups.processes # priority = 20004 # gap when lost iterations above = 1 # name = groups.processes # title = User Groups Processes (groups.processes) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [groups.cpu_user] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.cpu_user # chart type = stacked # type = groups # family = cpu # units = cpu time % # context = groups.cpu_user # priority = 20020 # gap when lost iterations above = 1 # name = groups.cpu_user # title = User Groups CPU User Time (100% = 1 core) (groups.cpu_user) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [groups.cpu_system] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.cpu_system # chart type = stacked # type = groups # family = cpu # units = cpu time % # context = groups.cpu_system # priority = 20021 # gap when lost iterations above = 1 # name = groups.cpu_system # title = User Groups CPU System Time (100% = 1 core) (groups.cpu_system) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [groups.major_faults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.major_faults # chart type = stacked # type = groups # family = swap # units = page faults/s # context = groups.major_faults # priority = 20010 # gap when lost iterations above = 1 # name = groups.major_faults # title = User Groups Major Page Faults (swap read) (groups.major_faults) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [groups.minor_faults] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.minor_faults # chart type = stacked # type = groups # family = mem # units = page faults/s # context = groups.minor_faults # priority = 20011 # gap when lost iterations above = 1 # name = groups.minor_faults # title = User Groups Minor Page Faults (groups.minor_faults) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10000 [groups.preads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.preads # chart type = stacked # type = groups # family = disk # units = kilobytes/s # context = groups.preads # priority = 20002 # gap when lost iterations above = 1 # name = groups.preads # title = User Groups Disk Reads (groups.preads) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [groups.pwrites] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.pwrites # chart type = stacked # type = groups # family = disk # units = kilobytes/s # context = groups.pwrites # priority = 20002 # gap when lost iterations above = 1 # name = groups.pwrites # title = User Groups Disk Writes (groups.pwrites) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [groups.lreads] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.lreads # chart type = stacked # type = groups # family = disk # units = kilobytes/s # context = groups.lreads # priority = 20042 # gap when lost iterations above = 1 # name = groups.lreads # title = User Groups Disk Logical Reads (groups.lreads) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [groups.lwrites] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.lwrites # chart type = stacked # type = groups # family = disk # units = kilobytes/s # context = groups.lwrites # priority = 20042 # gap when lost iterations above = 1 # name = groups.lwrites # title = User Groups I/O Logical Writes (groups.lwrites) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 10240000 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 10240000 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 10240000 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 10240000 [groups.files] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.files # chart type = stacked # type = groups # family = disk # units = open files # context = groups.files # priority = 20050 # gap when lost iterations above = 1 # name = groups.files # title = User Groups Open Files (groups.files) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [groups.sockets] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.sockets # chart type = stacked # type = groups # family = net # units = open sockets # context = groups.sockets # priority = 20051 # gap when lost iterations above = 1 # name = groups.sockets # title = User Groups Open Sockets (groups.sockets) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1 [groups.pipes] # history = 3996 # enabled = yes cache directory = /var/cache/netdata/groups.pipes # chart type = stacked # type = groups # family = processes # units = open pipes # context = groups.pipes # priority = 20053 # gap when lost iterations above = 1 # name = groups.pipes # title = User Groups Pipes (groups.pipes) # dim vagrant name = vagrant # dim vagrant algorithm = absolute # dim vagrant multiplier = 1 # dim vagrant divisor = 1 # dim uuidd name = uuidd # dim uuidd algorithm = absolute # dim uuidd multiplier = 1 # dim uuidd divisor = 1 # dim netdata name = netdata # dim netdata algorithm = absolute # dim netdata multiplier = 1 # dim netdata divisor = 1 # dim root name = root # dim root algorithm = absolute # dim root multiplier = 1 # dim root divisor = 1