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+<!--
+title: "Registry"
+description: "Netdata utilizes a central registry of machines/person GUIDs, URLs, and opt-in account information to provide unified cross-server dashboards."
+custom_edit_url: https://github.com/netdata/netdata/edit/master/registry/README.md
+-->
+
+# Registry
+
+Netdata provides distributed monitoring.
+
+Traditional monitoring solutions centralize all the data to provide unified dashboards across all servers. Before
+Netdata, this was the standard practice. However it has a few issues:
+
+1. due to the resources required, the number of metrics collected is limited.
+2. for the same reason, the data collection frequency is not that high, at best it will be once every 10 or 15 seconds,
+ at worst every 5 or 10 mins.
+3. the central monitoring solution needs dedicated resources, thus becoming "another bottleneck" in the whole
+ ecosystem. It also requires maintenance, administration, etc.
+4. most centralized monitoring solutions are usually only good for presenting _statistics of past performance_ (i.e.
+ cannot be used for real-time performance troubleshooting).
+
+Netdata follows a different approach:
+
+1. data collection happens per second
+2. thousands of metrics per server are collected
+3. data do not leave the server where they are collected
+4. Netdata servers do not talk to each other
+5. your browser connects all the Netdata servers
+
+Using Netdata, your monitoring infrastructure is embedded on each server, limiting significantly the need of additional
+resources. Netdata is blazingly fast, very resource efficient and utilizes server resources that already exist and are
+spare (on each server). This allows **scaling out** the monitoring infrastructure.
+
+However, the Netdata approach introduces a few new issues that need to be addressed, one being **the list of Netdata we
+have installed**, i.e. the URLs our Netdata servers are listening.
+
+To solve this, Netdata utilizes a **central registry**. This registry, together with certain browser features, allow
+Netdata to provide unified cross-server dashboards. For example, when you jump from server to server using the node
+menu, several session settings (like the currently viewed charts, the current zoom and pan operations on the charts,
+etc.) are propagated to the new server, so that the new dashboard will come with exactly the same view.
+
+## What data does the registry store?
+
+The registry keeps track of 4 entities:
+
+1. **machines**: i.e. the Netdata installations (a random GUID generated by each Netdata the first time it starts; we
+ call this **machine_guid**)
+
+ For each Netdata installation (each `machine_guid`) the registry keeps track of the different URLs it has accessed.
+
+2. **persons**: i.e. the web browsers accessing the Netdata installations (a random GUID generated by the registry the
+ first time it sees a new web browser; we call this **person_guid**)
+
+ For each person, the registry keeps track of the Netdata installations it has accessed and their URLs.
+
+3. **URLs** of Netdata installations (as seen by the web browsers)
+
+ For each URL, the registry keeps the URL and nothing more. Each URL is linked to _persons_ and _machines_. The only
+ way to find a URL is to know its **machine_guid** or have a **person_guid** it is linked to it.
+
+4. **accounts**: i.e. the information used to sign-in via one of the available sign-in methods. Depending on the
+ method, this may include an email, or an email and a profile picture or avatar.
+
+For _persons_/_accounts_ and _machines_, the registry keeps links to _URLs_, each link with 2 timestamps (first time
+seen, last time seen) and a counter (number of times it has been seen). *machines_, _persons_ and timestamps are stored
+in the Netdata registry regardless of whether you sign in or not.
+
+## Who talks to the registry?
+
+Your web browser **only**! If sending this information is against your policies, you can [run your own
+registry](#run-your-own-registry)
+
+Your Netdata servers do not talk to the registry. This is a UML diagram of its operation:
+
+![registry](https://cloud.githubusercontent.com/assets/2662304/19448565/11a70632-94ab-11e6-9d80-f410b4acb797.png)
+
+## Which is the default registry?
+
+`https://registry.my-netdata.io`, which is currently served by `https://london.my-netdata.io`. This registry listens to
+both HTTP and HTTPS requests but the default is HTTPS.
+
+### Can this registry handle the global load of Netdata installations?
+
+Yeap! The registry can handle 50.000 - 100.000 requests **per second per core** (depending on the type of CPU, the
+computer's memory bandwidth, etc). 50.000 is on J1900 (celeron 2Ghz).
+
+We believe, it can do it...
+
+## Run your own registry
+
+**Every Netdata can be a registry**. Just pick one and configure it.
+
+**To turn any Netdata into a registry**, edit `/etc/netdata/netdata.conf` and set:
+
+```conf
+[registry]
+ enabled = yes
+ registry to announce = http://your.registry:19999
+```
+
+Restart your Netdata to activate it.
+
+Then, you need to tell **all your other Netdata servers to advertise your registry**, instead of the default. To do
+this, on each of your Netdata servers, edit `/etc/netdata/netdata.conf` and set:
+
+```conf
+[registry]
+ enabled = no
+ registry to announce = http://your.registry:19999
+```
+
+Note that we have not enabled the registry on the other servers. Only one Netdata (the registry) needs
+`[registry].enabled = yes`.
+
+This is it. You have your registry now.
+
+You may also want to give your server different names under the node menu (i.e. to have them sorted / grouped). You can
+change its registry name, by setting on each Netdata server:
+
+```conf
+[registry]
+ registry hostname = Group1 - Master DB
+```
+
+So this server will appear in the node menu as `Group1 - Master DB`. The max name length is 50 characters.
+
+### Limiting access to the registry
+
+Netdata v1.9+ support limiting access to the registry from given IPs, like this:
+
+```conf
+[registry]
+ allow from = *
+```
+
+`allow from` settings are [Netdata simple patterns](/libnetdata/simple_pattern/README.md): string matches that use `*`
+as wildcard (any number of times) and a `!` prefix for a negative match. So: `allow from = !10.1.2.3 10.*` will allow
+all IPs in `10.*` except `10.1.2.3`. The order is important: left to right, the first positive or negative match is
+used.
+
+Keep in mind that connections to Netdata API ports are filtered by `[web].allow connections from`. So, IPs allowed by
+`[registry].allow from` should also be allowed by `[web].allow connection from`.
+
+The patterns can be matches over IP addresses or FQDN of the host. In order to check the FQDN of the connection without
+opening the Netdata agent to DNS-spoofing, a reverse-dns record must be setup for the connecting host. At connection
+time the reverse-dns of the peer IP address is resolved, and a forward DNS resolution is made to validate the IP address
+against the name-pattern.
+
+Please note that this process can be expensive on a machine that is serving many connections. The behaviour of the
+pattern matching can be controlled with the following setting:
+
+```conf
+[registry]
+ allow by dns = heuristic
+```
+
+The settings are:
+- `yes` allows the pattern to match DNS names.
+- `no` disables DNS matching for the patterns (they only match IP addresses).
+- `heuristic` will estimate if the patterns should match FQDNs by the presence or absence of `:`s or alpha-characters.
+
+### Where is the registry database stored?
+
+`/var/lib/netdata/registry/*.db`
+
+There can be up to 2 files:
+
+- `registry-log.db`, the transaction log
+
+ all incoming requests that affect the registry are saved in this file in real-time.
+
+- `registry.db`, the database
+
+ every `[registry].registry save db every new entries` entries in `registry-log.db`, Netdata will save its database
+ to `registry.db` and empty `registry-log.db`.
+
+Both files are machine readable text files.
+
+## The future
+
+The registry opens a whole world of new possibilities for Netdata. Check here what we think:
+<https://github.com/netdata/netdata/issues/416>
+
+## Troubleshooting the registry
+
+The registry URL should be set to the URL of a Netdata dashboard. This server has to have `[registry].enabled = yes`.
+So, accessing the registry URL directly with your web browser, should present the dashboard of the Netdata operating the
+registry.
+
+To use the registry, your web browser needs to support **third party cookies**, since the cookies are set by the
+registry while you are browsing the dashboard of another Netdata server. The registry, the first time it sees a new web
+browser it tries to figure if the web browser has cookies enabled or not. It does this by setting a cookie and
+redirecting the browser back to itself hoping that it will receive the cookie. If it does not receive the cookie, the
+registry will keep redirecting your web browser back to itself, which after a few redirects will fail with an error like
+this:
+
+```conf
+ERROR 409: Cannot ACCESS netdata registry: https://registry.my-netdata.io responded with: {"status":"redirect","registry":"https://registry.my-netdata.io"}
+```
+
+This error is printed on your web browser console (press F12 on your browser to see it).
+
+[![analytics](https://www.google-analytics.com/collect?v=1&aip=1&t=pageview&_s=1&ds=github&dr=https%3A%2F%2Fgithub.com%2Fnetdata%2Fnetdata&dl=https%3A%2F%2Fmy-netdata.io%2Fgithub%2Fregistry%2FREADME&_u=MAC~&cid=5792dfd7-8dc4-476b-af31-da2fdb9f93d2&tid=UA-64295674-3)](<>)