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+# Using Netdata with Prometheus
+
+Netdata supports exporting metrics to Prometheus in two ways:
+
+ - You can [configure Prometheus to scrape Netdata metrics](#configure-prometheus-to-scrape-netdata-metrics).
+
+ - You can [configure Netdata to push metrics to Prometheus](https://github.com/netdata/netdata/blob/master/src/exporting/prometheus/remote_write/README.md)
+   , using the Prometheus remote write API.
+
+## Netdata support for Prometheus
+
+Regardless of the methodology, you first need to understand how Netdata structures the metrics it exports to Prometheus
+and the capabilities it provides. The examples provided in this document assume that you will be using Netdata as 
+a metrics endpoint, but the concepts apply as well to the remote write API method.
+
+### Understanding Netdata metrics
+
+#### Charts
+
+Each chart in Netdata has several properties (common to all its metrics):
+
+- `chart_id` - uniquely identifies a chart.
+
+- `chart_name` - a more human friendly name for `chart_id`, also unique.
+
+- `context` - this is the template of the chart. All disk I/O charts have the same context, all mysql requests charts
+  have the same context, etc. This is used for alert templates to match all the charts they should be attached to.
+
+- `family` groups a set of charts together. It is used as the submenu of the dashboard.
+
+- `units` is the units for all the metrics attached to the chart.
+
+#### Dimensions
+
+Then each Netdata chart contains metrics called `dimensions`. All the dimensions of a chart have the same units of
+measurement, and are contextually in the same category (ie. the metrics for disk bandwidth are `read` and `write` and
+they are both in the same chart).
+
+### Netdata data source
+
+Netdata can send metrics to Prometheus from 3 data sources:
+
+- `as collected` or `raw` - this data source sends the metrics to Prometheus as they are collected. No conversion is
+  done by Netdata. The latest value for each metric is just given to Prometheus. This is the most preferred method by
+  Prometheus, but it is also the harder to work with. To work with this data source, you will need to understand how
+  to get meaningful values out of them.
+
+  The format of the metrics is: `CONTEXT{chart="CHART",family="FAMILY",dimension="DIMENSION"}`.
+
+  If the metric is a counter (`incremental` in Netdata lingo), `_total` is appended the context.
+
+  Unlike Prometheus, Netdata allows each dimension of a chart to have a different algorithm and conversion constants
+  (`multiplier` and `divisor`). In this case, that the dimensions of a charts are heterogeneous, Netdata will use this
+  format: `CONTEXT_DIMENSION{chart="CHART",family="FAMILY"}`
+
+- `average` - this data source uses the Netdata database to send the metrics to Prometheus as they are presented on
+  the Netdata dashboard. So, all the metrics are sent as gauges, at the units they are presented in the Netdata
+  dashboard charts. This is the easiest to work with.
+
+  The format of the metrics is: `CONTEXT_UNITS_average{chart="CHART",family="FAMILY",dimension="DIMENSION"}`.
+
+  When this source is used, Netdata keeps track of the last access time for each Prometheus server fetching the
+  metrics. This last access time is used at the subsequent queries of the same Prometheus server to identify the
+  time-frame the `average` will be calculated.
+
+  So, no matter how frequently Prometheus scrapes Netdata, it will get all the database data.
+  To identify each Prometheus server, Netdata uses by default the IP of the client fetching the metrics.
+
+  If there are multiple Prometheus servers fetching data from the same Netdata, using the same IP, each Prometheus
+  server can append `server=NAME` to the URL. Netdata will use this `NAME` to uniquely identify the Prometheus server.
+
+- `sum` or `volume`, is like `average` but instead of averaging the values, it sums them.
+
+  The format of the metrics is: `CONTEXT_UNITS_sum{chart="CHART",family="FAMILY",dimension="DIMENSION"}`. All the
+  other operations are the same with `average`.
+
+  To change the data source to `sum` or `as-collected` you need to provide the `source` parameter in the request URL.
+  e.g.: `http://your.netdata.ip:19999/api/v1/allmetrics?format=prometheus&help=yes&source=as-collected`
+
+  Keep in mind that early versions of Netdata were sending the metrics as: `CHART_DIMENSION{}`.
+
+### Querying Metrics
+
+Fetch with your web browser this URL:
+
+`http://your.netdata.ip:19999/api/v1/allmetrics?format=prometheus&help=yes`
+
+_(replace `your.netdata.ip` with the ip or hostname of your Netdata server)_
+
+Netdata will respond with all the metrics it sends to Prometheus.
+
+If you search that page for `"system.cpu"` you will find all the metrics Netdata is exporting to Prometheus for this
+chart. `system.cpu` is the chart name on the Netdata dashboard (on the Netdata dashboard all charts have a text heading
+such as : `Total CPU utilization (system.cpu)`. What we are interested here in the chart name: `system.cpu`).
+
+Searching for `"system.cpu"` reveals:
+
+```sh
+# COMMENT homogeneous chart "system.cpu", context "system.cpu", family "cpu", units "percentage"
+# COMMENT netdata_system_cpu_percentage_average: dimension "guest_nice", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="guest_nice"} 0.0000000 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "guest", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="guest"} 1.7837326 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "steal", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="steal"} 0.0000000 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "softirq", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="softirq"} 0.5275442 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "irq", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="irq"} 0.2260836 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "user", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="user"} 2.3362762 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "system", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="system"} 1.7961062 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "nice", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="nice"} 0.0000000 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "iowait", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="iowait"} 0.9671802 1500066662000
+# COMMENT netdata_system_cpu_percentage_average: dimension "idle", value is percentage, gauge, dt 1500066653 to 1500066662 inclusive
+netdata_system_cpu_percentage_average{chart="system.cpu",family="cpu",dimension="idle"} 92.3630770 1500066662000
+```
+
+_(Netdata response for `system.cpu` with source=`average`)_
+
+In `average` or `sum` data sources, all values are normalized and are reported to Prometheus as gauges. Now, use the
+'expression' text form in Prometheus. Begin to type the metrics we are looking for: `netdata_system_cpu`. You should see
+that the text form begins to auto-fill as Prometheus knows about this metric.
+
+If the data source was `as collected`, the response would be:
+
+```sh
+# COMMENT homogeneous chart "system.cpu", context "system.cpu", family "cpu", units "percentage"
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "guest_nice", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="guest_nice"} 0 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "guest", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="guest"} 63945 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "steal", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="steal"} 0 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "softirq", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="softirq"} 8295 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "irq", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="irq"} 4079 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "user", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="user"} 116488 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "system", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="system"} 35084 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "nice", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="nice"} 505 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "iowait", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="iowait"} 23314 1500066716438
+# COMMENT netdata_system_cpu_total: chart "system.cpu", context "system.cpu", family "cpu", dimension "idle", value * 1 / 1 delta gives percentage (counter)
+netdata_system_cpu_total{chart="system.cpu",family="cpu",dimension="idle"} 918470 1500066716438
+```
+
+_(Netdata response for `system.cpu` with source=`as-collected`)_
+
+For more information check Prometheus documentation.
+
+### Streaming data from upstream hosts
+
+The `format=prometheus` parameter only exports the host's Netdata metrics. If you are using the parent-child
+functionality of Netdata this ignores any upstream hosts - so you should consider using the below in your
+**prometheus.yml**:
+
+```yaml
+    metrics_path: '/api/v1/allmetrics'
+    params:
+      format: [ prometheus_all_hosts ]
+    honor_labels: true
+```
+
+This will report all upstream host data, and `honor_labels` will make Prometheus take note of the instance names
+provided.
+
+### Timestamps
+
+To pass the metrics through Prometheus pushgateway, Netdata supports the option `&timestamps=no` to send the metrics
+without timestamps.
+
+## Netdata host variables
+
+Netdata collects various system configuration metrics, like the max number of TCP sockets supported, the max number of
+files allowed system-wide, various IPC sizes, etc. These metrics are not exposed to Prometheus by default.
+
+To expose them, append `variables=yes` to the Netdata URL.
+
+### TYPE and HELP
+
+To save bandwidth, and because Prometheus does not use them anyway, `# TYPE` and `# HELP` lines are suppressed. If
+wanted they can be re-enabled via `types=yes` and `help=yes`, e.g.
+`/api/v1/allmetrics?format=prometheus&types=yes&help=yes`
+
+Note that if enabled, the `# TYPE` and `# HELP` lines are repeated for every occurrence of a metric, which goes against
+the Prometheus
+documentation's [specification for these lines](https://github.com/prometheus/docs/blob/master/content/docs/instrumenting/exposition_formats.md#comments-help-text-and-type-information).
+
+### Names and IDs
+
+Netdata supports names and IDs for charts and dimensions. Usually IDs are unique identifiers as read by the system and
+names are human friendly labels (also unique).
+
+Most charts and metrics have the same ID and name, but in several cases they are different: disks with device-mapper,
+interrupts, QoS classes, statsd synthetic charts, etc.
+
+The default is controlled in `exporting.conf`:
+
+```conf
+[prometheus:exporter]
+	send names instead of ids = yes | no
+```
+
+You can overwrite it from Prometheus, by appending to the URL:
+
+- `&names=no` to get IDs (the old behaviour)
+- `&names=yes` to get names
+
+### Filtering metrics sent to Prometheus
+
+Netdata can filter the metrics it sends to Prometheus with this setting:
+
+```conf
+[prometheus:exporter]
+	send charts matching = *
+```
+
+This settings accepts a space separated list
+of [simple patterns](https://github.com/netdata/netdata/blob/master/src/libnetdata/simple_pattern/README.md) to match the
+**charts** to be sent to Prometheus. Each pattern can use `*` as wildcard, any number of times (e.g `*a*b*c*` is valid).
+Patterns starting with `!` give a negative match (e.g `!*.bad users.* groups.*` will send all the users and groups
+except `bad` user and `bad` group). The order is important: the first match (positive or negative) left to right, is
+used.
+
+### Changing the prefix of Netdata metrics
+
+Netdata sends all metrics prefixed with `netdata_`. You can change this in `netdata.conf`, like this:
+
+```conf
+[prometheus:exporter]
+	prefix = netdata
+```
+
+It can also be changed from the URL, by appending `&prefix=netdata`.
+
+### Metric Units
+
+The default source `average` adds the unit of measurement to the name of each metric (e.g. `_KiB_persec`). To hide the
+units and get the same metric names as with the other sources, append to the URL `&hideunits=yes`.
+
+The units were standardized in v1.12, with the effect of changing the metric names. To get the metric names as they were
+before v1.12, append to the URL `&oldunits=yes`
+
+### Accuracy of `average` and `sum` data sources
+
+When the data source is set to `average` or `sum`, Netdata remembers the last access of each client accessing Prometheus
+metrics and uses this last access time to respond with the `average` or `sum` of all the entries in the database since
+that. This means that Prometheus servers are not losing data when they access Netdata with data source = `average` or
+`sum`.
+
+To uniquely identify each Prometheus server, Netdata uses the IP of the client accessing the metrics. If however the IP
+is not good enough for identifying a single Prometheus server (e.g. when Prometheus servers are accessing Netdata
+through a web proxy, or when multiple Prometheus servers are NATed to a single IP), each Prometheus may append
+`&server=NAME` to the URL. This `NAME` is used by Netdata to uniquely identify each Prometheus server and keep track of
+its last access time.
+
+## Configure Prometheus to scrape Netdata metrics
+
+The following `prometheus.yml` file will scrape all netdata metrics "as collected". 
+
+Make sure to replace `your.netdata.ip` with the IP or hostname of the host running Netdata.
+
+```yaml
+# my global config
+global:
+  scrape_interval: 5s # Set the scrape interval to every 5 seconds. Default is every 1 minute.
+  evaluation_interval: 5s # Evaluate rules every 5 seconds. The default is every 1 minute.
+  # scrape_timeout is set to the global default (10s).
+
+  # Attach these labels to any time series or alerts when communicating with
+  # external systems (federation, remote storage, Alertmanager).
+  external_labels:
+    monitor: 'codelab-monitor'
+
+# Load rules once and periodically evaluate them according to the global 'evaluation_interval'.
+rule_files:
+# - "first.rules"
+# - "second.rules"
+
+# A scrape configuration containing exactly one endpoint to scrape:
+# Here it's Prometheus itself.
+scrape_configs:
+  # The job name is added as a label `job=<job_name>` to any timeseries scraped from this config.
+  - job_name: 'prometheus'
+
+    # metrics_path defaults to '/metrics'
+    # scheme defaults to 'http'.
+
+    static_configs:
+      - targets: [ '0.0.0.0:9090' ]
+
+  - job_name: 'netdata-scrape'
+
+    metrics_path: '/api/v1/allmetrics'
+    params:
+      # format: prometheus | prometheus_all_hosts
+      # You can use `prometheus_all_hosts` if you want Prometheus to set the `instance` to your hostname instead of IP 
+      format: [ prometheus ]
+      #
+      # sources: as-collected | raw | average | sum | volume
+      # default is: average
+      #source: [as-collected]
+      #
+      # server name for this prometheus - the default is the client IP
+      # for Netdata to uniquely identify it
+      #server: ['prometheus1']
+    honor_labels: true
+
+    static_configs:
+      - targets: [ '{your.netdata.ip}:19999' ]
+```
+
+### Prometheus alerts for Netdata metrics
+
+The following is an example of a `nodes.yml` file that will allow Prometheus to generate alerts from some Netdata sources. 
+Save it at `/opt/prometheus/nodes.yml`, and add a _- "nodes.yml"_ entry under the _rule_files:_ section in the example prometheus.yml file above.
+
+```yaml
+groups:
+  - name: nodes
+
+    rules:
+      - alert: node_high_cpu_usage_70
+        expr: sum(sum_over_time(netdata_system_cpu_percentage_average{dimension=~"(user|system|softirq|irq|guest)"}[10m])) by (job) / sum(count_over_time(netdata_system_cpu_percentage_average{dimension="idle"}[10m])) by (job) > 70
+        for: 1m
+        annotations:
+          description: '{{ $labels.job }} on ''{{ $labels.job }}'' CPU usage is at {{ humanize $value }}%.'
+          summary: CPU alert for container node '{{ $labels.job }}'
+
+      - alert: node_high_memory_usage_70
+        expr: 100 / sum(netdata_system_ram_MB_average) by (job)
+          * sum(netdata_system_ram_MB_average{dimension=~"free|cached"}) by (job) < 30
+        for: 1m
+        annotations:
+          description: '{{ $labels.job }} memory usage is {{ humanize $value}}%.'
+          summary: Memory alert for container node '{{ $labels.job }}'
+
+      - alert: node_low_root_filesystem_space_20
+        expr: 100 / sum(netdata_disk_space_GB_average{family="/"}) by (job)
+          * sum(netdata_disk_space_GB_average{family="/",dimension=~"avail|cached"}) by (job) < 20
+        for: 1m
+        annotations:
+          description: '{{ $labels.job }} root filesystem space is {{ humanize $value}}%.'
+          summary: Root filesystem alert for container node '{{ $labels.job }}'
+
+      - alert: node_root_filesystem_fill_rate_6h
+        expr: predict_linear(netdata_disk_space_GB_average{family="/",dimension=~"avail|cached"}[1h], 6 * 3600) < 0
+        for: 1h
+        labels:
+          severity: critical
+        annotations:
+          description: Container node {{ $labels.job }} root filesystem is going to fill up in 6h.
+          summary: Disk fill alert for Swarm node '{{ $labels.job }}'
+```