# Configuring the ntfy server The ntfy server can be configured in three ways: using a config file (typically at `/etc/ntfy/server.yml`, see [server.yml](https://github.com/binwiederhier/ntfy/blob/main/server/server.yml)), via command line arguments or using environment variables. ## Quick start By default, simply running `ntfy serve` will start the server at port 80. No configuration needed. Batteries included 😀. If everything works as it should, you'll see something like this: ``` $ ntfy serve 2021/11/30 19:59:08 Listening on :80 ``` You can immediately start [publishing messages](publish.md), or subscribe via the [Android app](subscribe/phone.md), [the web UI](subscribe/web.md), or simply via [curl or your favorite HTTP client](subscribe/api.md). To configure the server further, check out the [config options table](#config-options) or simply type `ntfy serve --help` to get a list of [command line options](#command-line-options). ## Example config !!! info Definitely check out the **[server.yml](https://github.com/binwiederhier/ntfy/blob/main/server/server.yml)** file. It contains examples and detailed descriptions of all the settings. The most basic settings are `base-url` (the external URL of the ntfy server), the HTTP/HTTPS listen address (`listen-http` and `listen-https`), and socket path (`listen-unix`). All the other things are additional features. Here are a few working sample configs: === "server.yml (HTTP-only, with cache + attachments)" ``` yaml base-url: "http://ntfy.example.com" cache-file: "/var/cache/ntfy/cache.db" attachment-cache-dir: "/var/cache/ntfy/attachments" ``` === "server.yml (HTTP+HTTPS, with cache + attachments)" ``` yaml base-url: "http://ntfy.example.com" listen-http: ":80" listen-https: ":443" key-file: "/etc/letsencrypt/live/ntfy.example.com.key" cert-file: "/etc/letsencrypt/live/ntfy.example.com.crt" cache-file: "/var/cache/ntfy/cache.db" attachment-cache-dir: "/var/cache/ntfy/attachments" ``` === "server.yml (ntfy.sh config)" ``` yaml # All the things: Behind a proxy, Firebase, cache, attachments, # SMTP publishing & receiving base-url: "https://ntfy.sh" listen-http: "127.0.0.1:2586" firebase-key-file: "/etc/ntfy/firebase.json" cache-file: "/var/cache/ntfy/cache.db" behind-proxy: true attachment-cache-dir: "/var/cache/ntfy/attachments" smtp-sender-addr: "email-smtp.us-east-2.amazonaws.com:587" smtp-sender-user: "AKIDEADBEEFAFFE12345" smtp-sender-pass: "Abd13Kf+sfAk2DzifjafldkThisIsNotARealKeyOMG." smtp-sender-from: "ntfy@ntfy.sh" smtp-server-listen: ":25" smtp-server-domain: "ntfy.sh" smtp-server-addr-prefix: "ntfy-" keepalive-interval: "45s" ``` ## Message cache If desired, ntfy can temporarily keep notifications in an in-memory or an on-disk cache. Caching messages for a short period of time is important to allow [phones](subscribe/phone.md) and other devices with brittle Internet connections to be able to retrieve notifications that they may have missed. By default, ntfy keeps messages **in-memory for 12 hours**, which means that **cached messages do not survive an application restart**. You can override this behavior using the following config settings: * `cache-file`: if set, ntfy will store messages in a SQLite based cache (default is empty, which means in-memory cache). **This is required if you'd like messages to be retained across restarts**. * `cache-duration`: defines the duration for which messages are stored in the cache (default is `12h`). You can also entirely disable the cache by setting `cache-duration` to `0`. When the cache is disabled, messages are only passed on to the connected subscribers, but never stored on disk or even kept in memory longer than is needed to forward the message to the subscribers. Subscribers can retrieve cached messaging using the [`poll=1` parameter](subscribe/api.md#poll-for-messages), as well as the [`since=` parameter](subscribe/api.md#fetch-cached-messages). ## Attachments If desired, you may allow users to upload and [attach files to notifications](publish.md#attachments). To enable this feature, you have to simply configure an attachment cache directory and a base URL (`attachment-cache-dir`, `base-url`). Once these options are set and the directory is writable by the server user, you can upload attachments via PUT. By default, attachments are stored in the disk-cache **for only 3 hours**. The main reason for this is to avoid legal issues and such when hosting user controlled content. Typically, this is more than enough time for the user (or the auto download feature) to download the file. The following config options are relevant to attachments: * `base-url` is the root URL for the ntfy server; this is needed for the generated attachment URLs * `attachment-cache-dir` is the cache directory for attached files * `attachment-total-size-limit` is the size limit of the on-disk attachment cache (default: 5G) * `attachment-file-size-limit` is the per-file attachment size limit (e.g. 300k, 2M, 100M, default: 15M) * `attachment-expiry-duration` is the duration after which uploaded attachments will be deleted (e.g. 3h, 20h, default: 3h) Here's an example config using mostly the defaults (except for the cache directory, which is empty by default): === "/etc/ntfy/server.yml (minimal)" ``` yaml base-url: "https://ntfy.sh" attachment-cache-dir: "/var/cache/ntfy/attachments" ``` === "/etc/ntfy/server.yml (all options)" ``` yaml base-url: "https://ntfy.sh" attachment-cache-dir: "/var/cache/ntfy/attachments" attachment-total-size-limit: "5G" attachment-file-size-limit: "15M" attachment-expiry-duration: "3h" visitor-attachment-total-size-limit: "100M" visitor-attachment-daily-bandwidth-limit: "500M" ``` Please also refer to the [rate limiting](#rate-limiting) settings below, specifically `visitor-attachment-total-size-limit` and `visitor-attachment-daily-bandwidth-limit`. Setting these conservatively is necessary to avoid abuse. ## Access control By default, the ntfy server is open for everyone, meaning **everyone can read and write to any topic** (this is how ntfy.sh is configured). To restrict access to your own server, you can optionally configure authentication and authorization. ntfy's auth is implemented with a simple [SQLite](https://www.sqlite.org/)-based backend. It implements two roles (`user` and `admin`) and per-topic `read` and `write` permissions using an [access control list (ACL)](https://en.wikipedia.org/wiki/Access-control_list). Access control entries can be applied to users as well as the special everyone user (`*`), which represents anonymous API access. To set up auth, simply **configure the following two options**: * `auth-file` is the user/access database; it is created automatically if it doesn't already exist; suggested location `/var/lib/ntfy/user.db` (easiest if deb/rpm package is used) * `auth-default-access` defines the default/fallback access if no access control entry is found; it can be set to `read-write` (default), `read-only`, `write-only` or `deny-all`. Once configured, you can use the `ntfy user` command to [add or modify users](#users-and-roles), and the `ntfy access` command lets you [modify the access control list](#access-control-list-acl) for specific users and topic patterns. Both of these commands **directly edit the auth database** (as defined in `auth-file`), so they only work on the server, and only if the user accessing them has the right permissions. ### Users and roles The `ntfy user` command allows you to add/remove/change users in the ntfy user database, as well as change passwords or roles (`user` or `admin`). In practice, you'll often just create one admin user with `ntfy user add --role=admin ...` and be done with all this (see [example below](#example-private-instance)). **Roles:** * Role `user` (default): Users with this role have no special permissions. Manage access using `ntfy access` (see [below](#access-control-list-acl)). * Role `admin`: Users with this role can read/write to all topics. Granular access control is not necessary. **Example commands** (type `ntfy user --help` or `ntfy user COMMAND --help` for more details): ``` ntfy user list # Shows list of users (alias: 'ntfy access') ntfy user add phil # Add regular user phil ntfy user add --role=admin phil # Add admin user phil ntfy user del phil # Delete user phil ntfy user change-pass phil # Change password for user phil ntfy user change-role phil admin # Make user phil an admin ntfy user change-tier phil pro # Change phil's tier to "pro" ``` ### Access control list (ACL) The access control list (ACL) **manages access to topics for non-admin users, and for anonymous access (`everyone`/`*`)**. Each entry represents the access permissions for a user to a specific topic or topic pattern. The ACL can be displayed or modified with the `ntfy access` command: ``` ntfy access # Shows access control list (alias: 'ntfy user list') ntfy access USERNAME # Shows access control entries for USERNAME ntfy access USERNAME TOPIC PERMISSION # Allow/deny access for USERNAME to TOPIC ``` A `USERNAME` is an existing user, as created with `ntfy user add` (see [users and roles](#users-and-roles)), or the anonymous user `everyone` or `*`, which represents clients that access the API without username/password. A `TOPIC` is either a specific topic name (e.g. `mytopic`, or `phil_alerts`), or a wildcard pattern that matches any number of topics (e.g. `alerts_*` or `ben-*`). Only the wildcard character `*` is supported. It stands for zero to any number of characters. A `PERMISSION` is any of the following supported permissions: * `read-write` (alias: `rw`): Allows [publishing messages](publish.md) to the given topic, as well as [subscribing](subscribe/api.md) and reading messages * `read-only` (aliases: `read`, `ro`): Allows only subscribing and reading messages, but not publishing to the topic * `write-only` (aliases: `write`, `wo`): Allows only publishing to the topic, but not subscribing to it * `deny` (alias: `none`): Allows neither publishing nor subscribing to a topic **Example commands** (type `ntfy access --help` for more details): ``` ntfy access # Shows entire access control list ntfy access phil # Shows access for user phil ntfy access phil mytopic rw # Allow read-write access to mytopic for user phil ntfy access everyone mytopic rw # Allow anonymous read-write access to mytopic ntfy access everyone "up*" write # Allow anonymous write-only access to topics "up..." ntfy access --reset # Reset entire access control list ntfy access --reset phil # Reset all access for user phil ntfy access --reset phil mytopic # Reset access for user phil and topic mytopic ``` **Example ACL:** ``` $ ntfy access user phil (admin) - read-write access to all topics (admin role) user ben (user) - read-write access to topic garagedoor - read-write access to topic alerts* - read-only access to topic furnace user * (anonymous) - read-only access to topic announcements - read-only access to topic server-stats - no access to any (other) topics (server config) ``` In this example, `phil` has the role `admin`, so he has read-write access to all topics (no ACL entries are necessary). User `ben` has three topic-specific entries. He can read, but not write to topic `furnace`, and has read-write access to topic `garagedoor` and all topics starting with the word `alerts` (wildcards). Clients that are not authenticated (called `*`/`everyone`) only have read access to the `announcements` and `server-stats` topics. ### Access tokens In addition to username/password auth, ntfy also provides authentication via access tokens. Access tokens are useful to avoid having to configure your password across multiple publishing/subscribing applications. For instance, you may want to use a dedicated token to publish from your backup host, and one from your home automation system. !!! info As of today, access tokens grant users **full access to the user account**. Aside from changing the password, and deleting the account, every action can be performed with a token. Granular access tokens are on the roadmap, but not yet implemented. The `ntfy token` command can be used to manage access tokens for users. Tokens can have labels, and they can expire automatically (or never expire). Each user can have up to 20 tokens (hardcoded). **Example commands** (type `ntfy token --help` or `ntfy token COMMAND --help` for more details): ``` ntfy token list # Shows list of tokens for all users ntfy token list phil # Shows list of tokens for user phil ntfy token add phil # Create token for user phil which never expires ntfy token add --expires=2d phil # Create token for user phil which expires in 2 days ntfy token remove phil tk_th2sxr... # Delete token ``` **Creating an access token:** ``` $ ntfy token add --expires=30d --label="backups" phil $ ntfy token list user phil - tk_AgQdq7mVBoFD37zQVN29RhuMzNIz2 (backups), expires 15 Mar 23 14:33 EDT, accessed from 0.0.0.0 at 13 Feb 23 13:33 EST ``` Once an access token is created, you can **use it to authenticate against the ntfy server, e.g. when you publish or subscribe to topics**. To learn how, check out [authenticate via access tokens](publish.md#access-tokens). ### Example: Private instance The easiest way to configure a private instance is to set `auth-default-access` to `deny-all` in the `server.yml`: === "/etc/ntfy/server.yml" ``` yaml auth-file: "/var/lib/ntfy/user.db" auth-default-access: "deny-all" ``` After that, simply create an `admin` user: ``` $ ntfy user add --role=admin phil password: mypass confirm: mypass user phil added with role admin ``` Once you've done that, you can publish and subscribe using [Basic Auth](https://en.wikipedia.org/wiki/Basic_access_authentication) with the given username/password. Be sure to use HTTPS to avoid eavesdropping and exposing your password. Here's a simple example: === "Command line (curl)" ``` curl \ -u phil:mypass \ -d "Look ma, with auth" \ https://ntfy.example.com/mysecrets ``` === "ntfy CLI" ``` ntfy publish \ -u phil:mypass \ ntfy.example.com/mysecrets \ "Look ma, with auth" ``` === "HTTP" ``` http POST /mysecrets HTTP/1.1 Host: ntfy.example.com Authorization: Basic cGhpbDpteXBhc3M= Look ma, with auth ``` === "JavaScript" ``` javascript fetch('https://ntfy.example.com/mysecrets', { method: 'POST', // PUT works too body: 'Look ma, with auth', headers: { 'Authorization': 'Basic cGhpbDpteXBhc3M=' } }) ``` === "Go" ``` go req, _ := http.NewRequest("POST", "https://ntfy.example.com/mysecrets", strings.NewReader("Look ma, with auth")) req.Header.Set("Authorization", "Basic cGhpbDpteXBhc3M=") http.DefaultClient.Do(req) ``` === "Python" ``` python requests.post("https://ntfy.example.com/mysecrets", data="Look ma, with auth", headers={ "Authorization": "Basic cGhpbDpteXBhc3M=" }) ``` === "PHP" ``` php-inline file_get_contents('https://ntfy.example.com/mysecrets', false, stream_context_create([ 'http' => [ 'method' => 'POST', // PUT also works 'header' => 'Content-Type: text/plain\r\n' . 'Authorization: Basic cGhpbDpteXBhc3M=', 'content' => 'Look ma, with auth' ] ])); ``` ### Example: UnifiedPush [UnifiedPush](https://unifiedpush.org) requires that the [application server](https://unifiedpush.org/spec/definitions/#application-server) (e.g. Synapse, Fediverse Server, …) has anonymous write access to the [topic](https://unifiedpush.org/spec/definitions/#endpoint) used for push messages. The topic names used by UnifiedPush all start with the `up*` prefix. Please refer to the **[UnifiedPush documentation](https://unifiedpush.org/users/distributors/ntfy/#limit-access-to-some-users)** for more details. To enable support for UnifiedPush for private servers (i.e. `auth-default-access: "deny-all"`), you should either allow anonymous write access for the entire prefix or explicitly per topic: === "Prefix" ``` $ ntfy access '*' 'up*' write-only ``` === "Explicitly" ``` $ ntfy access '*' upYzMtZGZiYTY5 write-only ``` ## E-mail notifications To allow forwarding messages via e-mail, you can configure an **SMTP server for outgoing messages**. Once configured, you can set the `X-Email` header to [send messages via e-mail](publish.md#e-mail-notifications) (e.g. `curl -d "hi there" -H "X-Email: phil@example.com" ntfy.sh/mytopic`). As of today, only SMTP servers with PLAIN auth and STARTLS are supported. To enable e-mail sending, you must set the following settings: * `base-url` is the root URL for the ntfy server; this is needed for e-mail footer * `smtp-sender-addr` is the hostname:port of the SMTP server * `smtp-sender-user` and `smtp-sender-pass` are the username and password of the SMTP user * `smtp-sender-from` is the e-mail address of the sender Here's an example config using [Amazon SES](https://aws.amazon.com/ses/) for outgoing mail (this is how it is configured for `ntfy.sh`): === "/etc/ntfy/server.yml" ``` yaml base-url: "https://ntfy.sh" smtp-sender-addr: "email-smtp.us-east-2.amazonaws.com:587" smtp-sender-user: "AKIDEADBEEFAFFE12345" smtp-sender-pass: "Abd13Kf+sfAk2DzifjafldkThisIsNotARealKeyOMG." smtp-sender-from: "ntfy@ntfy.sh" ``` Please also refer to the [rate limiting](#rate-limiting) settings below, specifically `visitor-email-limit-burst` and `visitor-email-limit-burst`. Setting these conservatively is necessary to avoid abuse. ## E-mail publishing To allow publishing messages via e-mail, ntfy can run a lightweight **SMTP server for incoming messages**. Once configured, users can [send emails to a topic e-mail address](publish.md#e-mail-publishing) (e.g. `mytopic@ntfy.sh` or `myprefix-mytopic@ntfy.sh`) to publish messages to a topic. This is useful for e-mail based integrations such as for statuspage.io (though these days most services also support webhooks and HTTP calls). To configure the SMTP server, you must at least set `smtp-server-listen` and `smtp-server-domain`: * `smtp-server-listen` defines the IP address and port the SMTP server will listen on, e.g. `:25` or `1.2.3.4:25` * `smtp-server-domain` is the e-mail domain, e.g. `ntfy.sh` (must be identical to MX record, see below) * `smtp-server-addr-prefix` is an optional prefix for the e-mail addresses to prevent spam. If set to `ntfy-`, for instance, only e-mails to `ntfy-$topic@ntfy.sh` will be accepted. If this is not set, all emails to `$topic@ntfy.sh` will be accepted (which may obviously be a spam problem). Here's an example config (this is how it is configured for `ntfy.sh`): === "/etc/ntfy/server.yml" ``` yaml smtp-server-listen: ":25" smtp-server-domain: "ntfy.sh" smtp-server-addr-prefix: "ntfy-" ``` In addition to configuring the ntfy server, you have to create two DNS records (an [MX record](https://en.wikipedia.org/wiki/MX_record) and a corresponding A record), so incoming mail will find its way to your server. Here's an example of how `ntfy.sh` is configured (in [Amazon Route 53](https://aws.amazon.com/route53/)):
![DNS records for incoming mail](static/img/screenshot-email-publishing-dns.png){ width=600 }
DNS records for incoming mail
You can check if everything is working correctly by sending an email as raw SMTP via `nc`. Create a text file, e.g. `email.txt` ``` EHLO example.com MAIL FROM: phil@example.com RCPT TO: ntfy-mytopic@ntfy.sh DATA Subject: Email for you Content-Type: text/plain; charset="UTF-8" Hello from 🇩🇪 . ``` And then send the mail via `nc` like this. If you see any lines starting with `451`, those are errors from the ntfy server. Read them carefully. ``` $ cat email.txt | nc -N ntfy.sh 25 220 ntfy.sh ESMTP Service Ready 250-Hello example.com ... 250 2.0.0 Roger, accepting mail from 250 2.0.0 I'll make sure gets this ``` As for the DNS setup, be sure to verify that `dig MX` and `dig A` are returning results similar to this: ``` $ dig MX ntfy.sh +short 10 mx1.ntfy.sh. $ dig A mx1.ntfy.sh +short 3.139.215.220 ``` ## Behind a proxy (TLS, etc.) !!! warning If you are running ntfy behind a proxy, you must set the `behind-proxy` flag. Otherwise, all visitors are [rate limited](#rate-limiting) as if they are one. It may be desirable to run ntfy behind a proxy (e.g. nginx, HAproxy or Apache), so you can provide TLS certificates using Let's Encrypt using certbot, or simply because you'd like to share the ports (80/443) with other services. Whatever your reasons may be, there are a few things to consider. If you are running ntfy behind a proxy, you should set the `behind-proxy` flag. This will instruct the [rate limiting](#rate-limiting) logic to use the `X-Forwarded-For` header as the primary identifier for a visitor, as opposed to the remote IP address. If the `behind-proxy` flag is not set, all visitors will be counted as one, because from the perspective of the ntfy server, they all share the proxy's IP address. === "/etc/ntfy/server.yml" ``` yaml # Tell ntfy to use "X-Forwarded-For" to identify visitors behind-proxy: true ``` ### TLS/SSL ntfy supports HTTPS/TLS by setting the `listen-https` [config option](#config-options). However, if you are behind a proxy, it is recommended that TLS/SSL termination is done by the proxy itself (see below). I highly recommend using [certbot](https://certbot.eff.org/). I use it with the [dns-route53 plugin](https://certbot-dns-route53.readthedocs.io/en/stable/), which lets you use [AWS Route 53](https://aws.amazon.com/route53/) as the challenge. That's much easier than using the HTTP challenge. I've found [this guide](https://nandovieira.com/using-lets-encrypt-in-development-with-nginx-and-aws-route53) to be incredibly helpful. ### nginx/Apache2/caddy For your convenience, here's a working config that'll help configure things behind a proxy. Be sure to **enable WebSockets** by forwarding the `Connection` and `Upgrade` headers accordingly. In this example, ntfy runs on `:2586` and we proxy traffic to it. We also redirect HTTP to HTTPS for GET requests against a topic or the root domain: === "nginx (convenient)" ``` # /etc/nginx/sites-*/ntfy # # This config allows insecure HTTP POST/PUT requests against topics to allow a short curl syntax (without -L # and "https://" prefix). It also disables output buffering, which has worked well for the ntfy.sh server. # # This is pretty much how ntfy.sh is configured. To see the exact configuration, # see https://github.com/binwiederhier/ntfy-ansible/ server { listen 80; server_name ntfy.sh; location / { # Redirect HTTP to HTTPS, but only for GET topic addresses, since we want # it to work with curl without the annoying https:// prefix set $redirect_https ""; if ($request_method = GET) { set $redirect_https "yes"; } if ($request_uri ~* "^/([-_a-z0-9]{0,64}$|docs/|static/)") { set $redirect_https "${redirect_https}yes"; } if ($redirect_https = "yesyes") { return 302 https://$http_host$request_uri$is_args$query_string; } proxy_pass http://127.0.0.1:2586; proxy_http_version 1.1; proxy_buffering off; proxy_request_buffering off; proxy_redirect off; proxy_set_header Host $http_host; proxy_set_header Upgrade $http_upgrade; proxy_set_header Connection "upgrade"; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_connect_timeout 3m; proxy_send_timeout 3m; proxy_read_timeout 3m; client_max_body_size 0; # Stream request body to backend } } server { listen 443 ssl http2; server_name ntfy.sh; # See https://ssl-config.mozilla.org/#server=nginx&version=1.18.0&config=intermediate&openssl=1.1.1k&hsts=false&ocsp=false&guideline=5.6see https://ssl-config.mozilla.org/#server=nginx&version=1.18.0&config=intermediate&openssl=1.1.1k&hsts=false&ocsp=false&guideline=5.6 ssl_session_timeout 1d; ssl_session_cache shared:MozSSL:10m; # about 40000 sessions ssl_session_tickets off; ssl_protocols TLSv1.2 TLSv1.3; ssl_ciphers ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES256-GCM-SHA384:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-CHACHA20-POLY1305:ECDHE-RSA-CHACHA20-POLY1305:DHE-RSA-AES128-GCM-SHA256:DHE-RSA-AES256-GCM-SHA384; ssl_prefer_server_ciphers off; ssl_certificate /etc/letsencrypt/live/ntfy.sh/fullchain.pem; ssl_certificate_key /etc/letsencrypt/live/ntfy.sh/privkey.pem; location / { proxy_pass http://127.0.0.1:2586; proxy_http_version 1.1; proxy_buffering off; proxy_request_buffering off; proxy_redirect off; proxy_set_header Host $http_host; proxy_set_header Upgrade $http_upgrade; proxy_set_header Connection "upgrade"; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_connect_timeout 3m; proxy_send_timeout 3m; proxy_read_timeout 3m; client_max_body_size 0; # Stream request body to backend } } ``` === "nginx (more secure)" ``` # /etc/nginx/sites-*/ntfy # # This config requires the use of the -L flag in curl to redirect to HTTPS, and it keeps nginx output buffering # enabled. While recommended, I have had issues with that in the past. server { listen 80; server_name ntfy.sh; location / { return 302 https://$http_host$request_uri$is_args$query_string; proxy_pass http://127.0.0.1:2586; proxy_http_version 1.1; proxy_set_header Host $http_host; proxy_set_header Upgrade $http_upgrade; proxy_set_header Connection "upgrade"; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_connect_timeout 3m; proxy_send_timeout 3m; proxy_read_timeout 3m; client_max_body_size 0; # Stream request body to backend } } server { listen 443 ssl http2; server_name ntfy.sh; # See https://ssl-config.mozilla.org/#server=nginx&version=1.18.0&config=intermediate&openssl=1.1.1k&hsts=false&ocsp=false&guideline=5.6see https://ssl-config.mozilla.org/#server=nginx&version=1.18.0&config=intermediate&openssl=1.1.1k&hsts=false&ocsp=false&guideline=5.6 ssl_session_timeout 1d; ssl_session_cache shared:MozSSL:10m; # about 40000 sessions ssl_session_tickets off; ssl_protocols TLSv1.2 TLSv1.3; ssl_ciphers ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES256-GCM-SHA384:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-CHACHA20-POLY1305:ECDHE-RSA-CHACHA20-POLY1305:DHE-RSA-AES128-GCM-SHA256:DHE-RSA-AES256-GCM-SHA384; ssl_prefer_server_ciphers off; ssl_certificate /etc/letsencrypt/live/ntfy.sh/fullchain.pem; ssl_certificate_key /etc/letsencrypt/live/ntfy.sh/privkey.pem; location / { proxy_pass http://127.0.0.1:2586; proxy_http_version 1.1; proxy_set_header Host $http_host; proxy_set_header Upgrade $http_upgrade; proxy_set_header Connection "upgrade"; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_connect_timeout 3m; proxy_send_timeout 3m; proxy_read_timeout 3m; client_max_body_size 0; # Stream request body to backend } } ``` === "Apache2" ``` # /etc/apache2/sites-*/ntfy.conf ServerName ntfy.sh # Proxy connections to ntfy (requires "a2enmod proxy") ProxyPass / http://127.0.0.1:2586/ ProxyPassReverse / http://127.0.0.1:2586/ SetEnv proxy-nokeepalive 1 SetEnv proxy-sendchunked 1 # Higher than the max message size of 4096 bytes LimitRequestBody 102400 # Enable mod_rewrite (requires "a2enmod rewrite") RewriteEngine on # WebSockets support (requires "a2enmod rewrite proxy_wstunnel") RewriteCond %{HTTP:Upgrade} websocket [NC] RewriteCond %{HTTP:Connection} upgrade [NC] RewriteRule ^/?(.*) "ws://127.0.0.1:2586/$1" [P,L] # Redirect HTTP to HTTPS, but only for GET topic addresses, since we want # it to work with curl without the annoying https:// prefix RewriteCond %{REQUEST_METHOD} GET RewriteRule ^/([-_A-Za-z0-9]{0,64})$ https://%{SERVER_NAME}/$1 [R,L] ServerName ntfy.sh SSLEngine on SSLCertificateFile /etc/letsencrypt/live/ntfy.sh/fullchain.pem SSLCertificateKeyFile /etc/letsencrypt/live/ntfy.sh/privkey.pem Include /etc/letsencrypt/options-ssl-apache.conf # Proxy connections to ntfy (requires "a2enmod proxy") ProxyPass / http://127.0.0.1:2586/ ProxyPassReverse / http://127.0.0.1:2586/ SetEnv proxy-nokeepalive 1 SetEnv proxy-sendchunked 1 # Higher than the max message size of 4096 bytes LimitRequestBody 102400 # Enable mod_rewrite (requires "a2enmod rewrite") RewriteEngine on # WebSockets support (requires "a2enmod rewrite proxy_wstunnel") RewriteCond %{HTTP:Upgrade} websocket [NC] RewriteCond %{HTTP:Connection} upgrade [NC] RewriteRule ^/?(.*) "ws://127.0.0.1:2586/$1" [P,L] ``` === "caddy" ``` # Note that this config is most certainly incomplete. Please help out and let me know what's missing # via Discord/Matrix or in a GitHub issue. ntfy.sh, http://nfty.sh { reverse_proxy 127.0.0.1:2586 # Redirect HTTP to HTTPS, but only for GET topic addresses, since we want # it to work with curl without the annoying https:// prefix @httpget { protocol http method GET path_regexp ^/([-_a-z0-9]{0,64}$|docs/|static/) } redir @httpget https://{host}{uri} } ``` ## Firebase (FCM) !!! info Using Firebase is **optional** and only works if you modify and [build your own Android .apk](develop.md#android-app). For a self-hosted instance, it's easier to just not bother with FCM. [Firebase Cloud Messaging (FCM)](https://firebase.google.com/docs/cloud-messaging) is the Google approved way to send push messages to Android devices. FCM is the only method that an Android app can receive messages without having to run a [foreground service](https://developer.android.com/guide/components/foreground-services). For the main host [ntfy.sh](https://ntfy.sh), the [ntfy Android app](subscribe/phone.md) uses Firebase to send messages to the device. For other hosts, instant delivery is used and FCM is not involved. To configure FCM for your self-hosted instance of the ntfy server, follow these steps: 1. Sign up for a [Firebase account](https://console.firebase.google.com/) 2. Create a Firebase app and download the key file (e.g. `myapp-firebase-adminsdk-...json`) 3. Place the key file in `/etc/ntfy`, set the `firebase-key-file` in `server.yml` accordingly and restart the ntfy server 4. Build your own Android .apk following [these instructions](develop.md#android-app) Example: ``` # If set, also publish messages to a Firebase Cloud Messaging (FCM) topic for your app. # This is optional and only required to support Android apps (which don't allow background services anymore). # firebase-key-file: "/etc/ntfy/ntfy-sh-firebase-adminsdk-ahnce-9f4d6f14b5.json" ``` ## iOS instant notifications Unlike Android, iOS heavily restricts background processing, which sadly makes it impossible to implement instant push notifications without a central server. To still support instant notifications on iOS through your self-hosted ntfy server, you have to forward so called `poll_request` messages to the main ntfy.sh server (or any upstream server that's APNS/Firebase connected, if you build your own iOS app), which will then forward it to Firebase/APNS. To configure it, simply set `upstream-base-url` like so: ``` yaml upstream-base-url: "https://ntfy.sh" ``` If set, all incoming messages will publish a poll request to the configured upstream server, containing the message ID of the original message, instructing the iOS app to poll this server for the actual message contents. If `upstream-base-url` is not set, notifications will still eventually get to your device, but delivery can take hours, depending on the state of the phone. If you are using your phone, it shouldn't take more than 20-30 minutes though. In case you're curious, here's an example of the entire flow: - In the iOS app, you subscribe to `https://ntfy.example.com/mytopic` - The app subscribes to the Firebase topic `6de73be8dfb7d69e...` (the SHA256 of the topic URL) - When you publish a message to `https://ntfy.example.com/mytopic`, your ntfy server will publish a poll request to `https://ntfy.sh/6de73be8dfb7d69e...`. The request from your server to the upstream server contains only the message ID (in the `X-Poll-ID` header), and the SHA256 checksum of the topic URL (as upstream topic). - The ntfy.sh server publishes the poll request message to Firebase, which forwards it to APNS, which forwards it to your iOS device - Your iOS device receives the poll request, and fetches the actual message from your server, and then displays it Here's an example of what the self-hosted server forwards to the upstream server. The request is equivalent to this curl: ``` curl -X POST -H "X-Poll-ID: s4PdJozxM8na" https://ntfy.sh/6de73be8dfb7d69e32fb2c00c23fe7adbd8b5504406e3068c273aa24cef4055b {"id":"4HsClFEuCIcs","time":1654087955,"event":"poll_request","topic":"6de73be8dfb7d69e32fb2c00c23fe7adbd8b5504406e3068c273aa24cef4055b","message":"New message","poll_id":"s4PdJozxM8na"} ``` Note that the self-hosted server literally sends the message `New message` for every message, even if your message may be `Some other message`. This is so that if iOS cannot talk to the self-hosted server (in time, or at all), it'll show `New message` as a popup. ## Tiers ntfy supports associating users to pre-defined tiers. Tiers can be used to grant users higher limits, such as daily message limits, attachment size, or make it possible for users to reserve topics. If [payments are enabled](#payments), tiers can be paid or unpaid, and users can upgrade/downgrade between them. If payments are disabled, then the only way to switch between tiers is with the `ntfy user change-tier` command (see [users and roles](#users-and-roles)). By default, **newly created users have no tier**, and all usage limits are read from the `server.yml` config file. Once a user is associated with a tier, some limits are overridden based on the tier. The `ntfy tier` command can be used to manage all available tiers. By default, there are no pre-defined tiers. **Example commands** (type `ntfy token --help` or `ntfy token COMMAND --help` for more details): ``` ntfy tier add pro # Add tier with code "pro", using the defaults ntfy tier change --name="Pro" pro # Update the name of an existing tier ntfy tier del starter # Delete an existing tier ntfy user change-tier phil pro # Switch user "phil" to tier "pro" ``` **Creating a tier (full example):** ``` ntfy tier add \ --name="Pro" \ --message-limit=10000 \ --message-expiry-duration=24h \ --email-limit=50 \ --call-limit=10 \ --reservation-limit=10 \ --attachment-file-size-limit=100M \ --attachment-total-size-limit=1G \ --attachment-expiry-duration=12h \ --attachment-bandwidth-limit=5G \ --stripe-price-id=price_123456 \ pro ``` ## Payments ntfy supports paid [tiers](#tiers) via [Stripe](https://stripe.com/) as a payment provider. If payments are enabled, users can register, login and switch plans in the web app. The web app will behave slightly differently if payments are enabled (e.g. showing an upgrade banner, or "ntfy Pro" tags). !!! info The ntfy payments integration is very tailored to ntfy.sh and Stripe. I do not intend to support arbitrary use cases. To enable payments, sign up with [Stripe](https://stripe.com/), set the `stripe-secret-key` and `stripe-webhook-key` config options: * `stripe-secret-key` is the key used for the Stripe API communication. Setting this values enables payments in the ntfy web app (e.g. Upgrade dialog). See [API keys](https://dashboard.stripe.com/apikeys). * `stripe-webhook-key` is the key required to validate the authenticity of incoming webhooks from Stripe. Webhooks are essential to keep the local database in sync with the payment provider. See [Webhooks](https://dashboard.stripe.com/webhooks). * `billing-contact` is an email address or website displayed in the "Upgrade tier" dialog to let people reach out with billing questions. If unset, nothing will be displayed. In addition to setting these two options, you also need to define a [Stripe webhook](https://dashboard.stripe.com/webhooks) for the `customer.subscription.updated` and `customer.subscription.deleted` event, which points to `https://ntfy.example.com/v1/account/billing/webhook`. Here's an example: ``` yaml stripe-secret-key: "sk_test_ZmhzZGtmbGhkc2tqZmhzYcO2a2hmbGtnaHNkbGtnaGRsc2hnbG" stripe-webhook-key: "whsec_ZnNkZnNIRExBSFNES0hBRFNmaHNka2ZsaGR" billing-contact: "phil@example.com" ``` ## Phone calls ntfy supports phone calls via [Twilio](https://www.twilio.com/) as a call provider. If phone calls are enabled, users can verify and add a phone number, and then receive phone calls when publishing a message using the `X-Call` header. See [publishing page](publish.md#phone-calls) for more details. To enable Twilio integration, sign up with [Twilio](https://www.twilio.com/), purchase a phone number (Toll free numbers are the easiest), and then configure the following options: * `twilio-account` is the Twilio account SID, e.g. AC12345beefbeef67890beefbeef122586 * `twilio-auth-token` is the Twilio auth token, e.g. affebeef258625862586258625862586 * `twilio-from-number` is the outgoing phone number you purchased, e.g. +18775132586 * `twilio-verify-service` is the Twilio Verify service SID, e.g. VA12345beefbeef67890beefbeef122586 After you have configured phone calls, create a [tier](#tiers) with a call limit (e.g. `ntfy tier create --call-limit=10 ...`), and then assign it to a user. Users may then use the `X-Call` header to receive a phone call when publishing a message. ## Rate limiting !!! info Be aware that if you are running ntfy behind a proxy, you must set the `behind-proxy` flag. Otherwise, all visitors are rate limited as if they are one. By default, ntfy runs without authentication, so it is vitally important that we protect the server from abuse or overload. There are various limits and rate limits in place that you can use to configure the server: * **Global limit**: A global limit applies across all visitors (IPs, clients, users) * **Visitor limit**: A visitor limit only applies to a certain visitor. A **visitor** is identified by its IP address (or the `X-Forwarded-For` header if `behind-proxy` is set). All config options that start with the word `visitor` apply only on a per-visitor basis. During normal usage, you shouldn't encounter these limits at all, and even if you burst a few requests or emails (e.g. when you reconnect after a connection drop), it shouldn't have any effect. ### General limits Let's do the easy limits first: * `global-topic-limit` defines the total number of topics before the server rejects new topics. It defaults to 15,000. * `visitor-subscription-limit` is the number of subscriptions (open connections) per visitor. This value defaults to 30. ### Request limits In addition to the limits above, there is a requests/second limit per visitor for all sensitive GET/PUT/POST requests. This limit uses a [token bucket](https://en.wikipedia.org/wiki/Token_bucket) (using Go's [rate package](https://pkg.go.dev/golang.org/x/time/rate)): Each visitor has a bucket of 60 requests they can fire against the server (defined by `visitor-request-limit-burst`). After the 60, new requests will encounter a `429 Too Many Requests` response. The visitor request bucket is refilled at a rate of one request every 5s (defined by `visitor-request-limit-replenish`) * `visitor-request-limit-burst` is the initial bucket of requests each visitor has. This defaults to 60. * `visitor-request-limit-replenish` is the rate at which the bucket is refilled (one request per x). Defaults to 5s. * `visitor-request-limit-exempt-hosts` is a comma-separated list of hostnames and IPs to be exempt from request rate limiting; hostnames are resolved at the time the server is started. Defaults to an empty list. ### Message limits By default, the number of messages a visitor can send is governed entirely by the [request limit](#request-limits). For instance, if the request limit allows for 15,000 requests per day, and all of those requests are POST/PUT requests to publish messages, then that is the daily message limit. To limit the number of daily messages per visitor, you can set `visitor-message-daily-limit`. This defines the number of messages a visitor can send in a day. This counter is reset every day at midnight (UTC). ### Attachment limits Aside from the global file size and total attachment cache limits (see [above](#attachments)), there are two relevant per-visitor limits: * `visitor-attachment-total-size-limit` is the total storage limit used for attachments per visitor. It defaults to 100M. The per-visitor storage is automatically decreased as attachments expire. External attachments (attached via `X-Attach`, see [publishing docs](publish.md#attachments)) do not count here. * `visitor-attachment-daily-bandwidth-limit` is the total daily attachment download/upload bandwidth limit per visitor, including PUT and GET requests. This is to protect your precious bandwidth from abuse, since egress costs money in most cloud providers. This defaults to 500M. ### E-mail limits Similarly to the request limit, there is also an e-mail limit (only relevant if [e-mail notifications](#e-mail-notifications) are enabled): * `visitor-email-limit-burst` is the initial bucket of emails each visitor has. This defaults to 16. * `visitor-email-limit-replenish` is the rate at which the bucket is refilled (one email per x). Defaults to 1h. ### Firebase limits If [Firebase is configured](#firebase-fcm), all messages are also published to a Firebase topic (unless `Firebase: no` is set). Firebase enforces [its own limits](https://firebase.google.com/docs/cloud-messaging/concept-options#topics_throttling) on how many messages can be published. Unfortunately these limits are a little vague and can change depending on the time of day. In practice, I have only ever observed `429 Quota exceeded` responses from Firebase if **too many messages are published to the same topic**. In ntfy, if Firebase responds with a 429 after publishing to a topic, the visitor (= IP address) who published the message is **banned from publishing to Firebase for 10 minutes** (not configurable). Because publishing to Firebase happens asynchronously, there is no indication of the user that this has happened. Non-Firebase subscribers (WebSocket or HTTP stream) are not affected. After the 10 minutes are up, messages forwarding to Firebase is resumed for this visitor. If this ever happens, there will be a log message that looks something like this: ``` WARN Firebase quota exceeded (likely for topic), temporarily denying Firebase access to visitor ``` ### Subscriber-based rate limiting By default, ntfy puts almost all rate limits on the message publisher, e.g. number of messages, requests, and attachment size are all based on the visitor who publishes a message. **Subscriber-based rate limiting is a way to use the rate limits of a topic's subscriber, instead of the limits of the publisher.** If enabled, subscribers may opt to have published messages counted against their own rate limits, as opposed to the publisher's rate limits. This is especially useful to increase the amount of messages that high-volume publishers (e.g. Matrix/Mastodon servers) are allowed to send. Once enabled, a client may send a `Rate-Topics: ,,...` header when subscribing to topics via HTTP stream, or websockets, thereby registering itself as the "rate visitor", i.e. the visitor whose rate limits to use when publishing on this topic. Note that setting the rate visitor requires **read-write permission** on the topic. UnifiedPush only: If this setting is enabled, publishing to UnifiedPush topics will lead to an `HTTP 507 Insufficient Storage` response if no "rate visitor" has been previously registered. This is to avoid burning the publisher's `visitor-message-daily-limit`. To enable subscriber-based rate limiting, set `visitor-subscriber-rate-limiting: true`. ## Tuning for scale If you're running ntfy for your home server, you probably don't need to worry about scale at all. In its default config, if it's not behind a proxy, the ntfy server can keep about **as many connections as the open file limit allows**. This limit is typically called `nofile`. Other than that, RAM and CPU are obviously relevant. You may also want to check out [this discussion on Reddit](https://www.reddit.com/r/golang/comments/r9u4ee/how_many_actively_connected_http_clients_can_a_go/). Depending on *how you run it*, here are a few limits that are relevant: ### Message cache By default, the [message cache](#message-cache) (defined by `cache-file`) uses the SQLite default settings, which means it syncs to disk on every write. For personal servers, this is perfectly adequate. For larger installations, such as ntfy.sh, the [write-ahead log (WAL)](https://sqlite.org/wal.html) should be enabled, and the sync mode should be adjusted. See [this article](https://phiresky.github.io/blog/2020/sqlite-performance-tuning/) for details. In addition to that, for very high load servers (such as ntfy.sh), it may be beneficial to write messages to the cache in batches, and asynchronously. This can be enabled with the `cache-batch-size` and `cache-batch-timeout`. If you start seeing `database locked` messages in the logs, you should probably enable that. Here's how ntfy.sh has been tuned in the `server.yml` file: ``` yaml cache-batch-size: 25 cache-batch-timeout: "1s" cache-startup-queries: | pragma journal_mode = WAL; pragma synchronous = normal; pragma temp_store = memory; pragma busy_timeout = 15000; vacuum; ``` ### For systemd services If you're running ntfy in a systemd service (e.g. for .deb/.rpm packages), the main limiting factor is the `LimitNOFILE` setting in the systemd unit. The default open files limit for `ntfy.service` is 10,000. You can override it by creating a `/etc/systemd/system/ntfy.service.d/override.conf` file. As far as I can tell, `/etc/security/limits.conf` is not relevant. === "/etc/systemd/system/ntfy.service.d/override.conf" ``` # Allow 20,000 ntfy connections (and give room for other file handles) [Service] LimitNOFILE=20500 ``` ### Outside of systemd If you're running outside systemd, you may want to adjust your `/etc/security/limits.conf` file to increase the `nofile` setting. Here's an example that increases the limit to 5,000. You can find out the current setting by running `ulimit -n`, or manually override it temporarily by running `ulimit -n 50000`. === "/etc/security/limits.conf" ``` # Increase open files limit globally * hard nofile 20500 ``` ### Proxy limits (nginx, Apache2) If you are running [behind a proxy](#behind-a-proxy-tls-etc) (e.g. nginx, Apache), the open files limit of the proxy is also relevant. So if your proxy runs inside of systemd, increase the limits in systemd for the proxy. Typically, the proxy open files limit has to be **double the number of how many connections you'd like to support**, because the proxy has to maintain the client connection and the connection to ntfy. === "/etc/nginx/nginx.conf" ``` events { # Allow 40,000 proxy connections (2x of the desired ntfy connection count; # and give room for other file handles) worker_connections 40500; } ``` === "/etc/systemd/system/nginx.service.d/override.conf" ``` # Allow 40,000 proxy connections (2x of the desired ntfy connection count; # and give room for other file handles) [Service] LimitNOFILE=40500 ``` ### Banning bad actors (fail2ban) If you put stuff on the Internet, bad actors will try to break them or break in. [fail2ban](https://www.fail2ban.org/) and nginx's [ngx_http_limit_req_module module](http://nginx.org/en/docs/http/ngx_http_limit_req_module.html) can be used to ban client IPs if they misbehave. This is on top of the [rate limiting](#rate-limiting) inside the ntfy server. Here's an example for how ntfy.sh is configured, following the instructions from two tutorials ([here](https://easyengine.io/tutorials/nginx/fail2ban/) and [here](https://easyengine.io/tutorials/nginx/block-wp-login-php-bruteforce-attack/)): === "/etc/nginx/nginx.conf" ``` # Rate limit all IP addresses http { limit_req_zone $binary_remote_addr zone=one:10m rate=45r/m; } # Alternatively, whitelist certain IP addresses http { geo $limited { default 1; 116.203.112.46/32 0; 132.226.42.65/32 0; ... } map $limited $limitkey { 1 $binary_remote_addr; 0 ""; } limit_req_zone $limitkey zone=one:10m rate=45r/m; } ``` === "/etc/nginx/sites-enabled/ntfy.sh" ``` # For each server/location block server { location / { limit_req zone=one burst=1000 nodelay; } } ``` === "/etc/fail2ban/filter.d/nginx-req-limit.conf" ``` [Definition] failregex = limiting requests, excess:.* by zone.*client: ignoreregex = ``` === "/etc/fail2ban/jail.local" ``` [nginx-req-limit] enabled = true filter = nginx-req-limit action = iptables-multiport[name=ReqLimit, port="http,https", protocol=tcp] logpath = /var/log/nginx/error.log findtime = 600 bantime = 14400 maxretry = 10 ``` ## Health checks A preliminary health check API endpoint is exposed at `/v1/health`. The endpoint returns a `json` response in the format shown below. If a non-200 HTTP status code is returned or if the returned `health` field is `false` the ntfy service should be considered as unhealthy. ```json {"health":true} ``` See [Installation for Docker](install.md#docker) for an example of how this could be used in a `docker-compose` environment. ## Monitoring If configured, ntfy can expose a `/metrics` endpoint for [Prometheus](https://prometheus.io/), which can then be used to create dashboards and alerts (e.g. via [Grafana](https://grafana.com/)). To configure the metrics endpoint, either set `enable-metrics` and/or set the `listen-metrics-http` option to a dedicated listen address. Metrics may be considered sensitive information, so before you enable them, be sure you know what you are doing, and/or secure access to the endpoint in your reverse proxy. - `enable-metrics` enables the /metrics endpoint for the default ntfy server (i.e. HTTP, HTTPS and/or Unix socket) - `metrics-listen-http` exposes the metrics endpoint via a dedicated `[IP]:port`. If set, this option implicitly enables metrics as well, e.g. "10.0.1.1:9090" or ":9090" === "server.yml (Using default port)" ```yaml enable-metrics: true ``` === "server.yml (Using dedicated IP/port)" ```yaml metrics-listen-http: "10.0.1.1:9090" ``` In Prometheus, an example scrape config would look like this: === "prometheus.yml" ```yaml scrape_configs: - job_name: "ntfy" static_configs: - targets: ["10.0.1.1:9090"] ``` Here's an example Grafana dashboard built from the metrics (see [Grafana JSON on GitHub](https://raw.githubusercontent.com/binwiederhier/ntfy/main/examples/grafana-dashboard/ntfy-grafana.json)):
ntfy Grafana dashboard
## Profiling ntfy can expose Go's [net/http/pprof](https://pkg.go.dev/net/http/pprof) endpoints to support profiling of the ntfy server. If enabled, ntfy will listen on a dedicated listen IP/port, which can be accessed via the web browser on `http://:/debug/pprof/`. This can be helpful to expose bottlenecks, and visualize call flows. To enable, simply set the `profile-listen-http` config option. ## Logging & debugging By default, ntfy logs to the console (stderr), with an `info` log level, and in a human-readable text format. ntfy supports five different log levels, can also write to a file, log as JSON, and even supports granular log level overrides for easier debugging. Some options (`log-level` and `log-level-overrides`) can be hot reloaded by calling `kill -HUP $pid` or `systemctl reload ntfy`. The following config options define the logging behavior: * `log-format` defines the output format, can be `text` (default) or `json` * `log-file` is a filename to write logs to. If this is not set, ntfy logs to stderr. * `log-level` defines the default log level, can be one of `trace`, `debug`, `info` (default), `warn` or `error`. Be aware that `debug` (and particularly `trace`) can be **very verbose**. Only turn them on briefly for debugging purposes. * `log-level-overrides` lets you override the log level if certain fields match. This is incredibly powerful for debugging certain parts of the system (e.g. only the account management, or only a certain visitor). This is an array of strings in the format: - `field=value -> level` to match a value exactly, e.g. `tag=manager -> trace` - `field -> level` to match any value, e.g. `time_taken_ms -> debug` **Logging config (good for production use):** ``` yaml log-level: info log-format: json log-file: /var/log/ntfy.log ``` **Temporary debugging:** If something's not working right, you can debug/trace through what the ntfy server is doing by setting the `log-level` to `debug` or `trace`. The `debug` setting will output information about each published message, but not the message contents. The `trace` setting will also print the message contents. Alternatively, you can set `log-level-overrides` for only certain fields, such as a visitor's IP address (`visitor_ip`), a username (`user_name`), or a tag (`tag`). There are dozens of fields you can use to override log levels. To learn what they are, either turn the log-level to `trace` and observe, or reference the [source code](https://github.com/binwiederhier/ntfy). Here's an example that will output only `info` log events, except when they match either of the defined overrides: ``` yaml log-level: info log-level-overrides: - "tag=manager -> trace" - "visitor_ip=1.2.3.4 -> debug" - "time_taken_ms -> debug" ``` !!! warning The `debug` and `trace` log levels are very verbose, and using `log-level-overrides` has a performance penalty. Only use it for temporary debugging. You can also hot-reload the `log-level` and `log-level-overrides` by sending the `SIGHUP` signal to the process after editing the `server.yml` file. You can do so by calling `systemctl reload ntfy` (if ntfy is running inside systemd), or by calling `kill -HUP $(pidof ntfy)`. If successful, you'll see something like this: ``` $ ntfy serve 2022/06/02 10:29:28 INFO Listening on :2586[http] :1025[smtp], log level is INFO 2022/06/02 10:29:34 INFO Partially hot reloading configuration ... 2022/06/02 10:29:34 INFO Log level is TRACE ``` ## Config options Each config option can be set in the config file `/etc/ntfy/server.yml` (e.g. `listen-http: :80`) or as a CLI option (e.g. `--listen-http :80`. Here's a list of all available options. Alternatively, you can set an environment variable before running the `ntfy` command (e.g. `export NTFY_LISTEN_HTTP=:80`). !!! info All config options can also be defined in the `server.yml` file using underscores instead of dashes, e.g. `cache_duration` and `cache-duration` are both supported. This is to support stricter YAML parsers that do not support dashes. | Config option | Env variable | Format | Default | Description | |--------------------------------------------|-------------------------------------------------|-----------------------------------------------------|-------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | `base-url` | `NTFY_BASE_URL` | *URL* | - | Public facing base URL of the service (e.g. `https://ntfy.sh`) | | `listen-http` | `NTFY_LISTEN_HTTP` | `[host]:port` | `:80` | Listen address for the HTTP web server | | `listen-https` | `NTFY_LISTEN_HTTPS` | `[host]:port` | - | Listen address for the HTTPS web server. If set, you also need to set `key-file` and `cert-file`. | | `listen-unix` | `NTFY_LISTEN_UNIX` | *filename* | - | Path to a Unix socket to listen on | | `listen-unix-mode` | `NTFY_LISTEN_UNIX_MODE` | *file mode* | *system default* | File mode of the Unix socket, e.g. 0700 or 0777 | | `key-file` | `NTFY_KEY_FILE` | *filename* | - | HTTPS/TLS private key file, only used if `listen-https` is set. | | `cert-file` | `NTFY_CERT_FILE` | *filename* | - | HTTPS/TLS certificate file, only used if `listen-https` is set. | | `firebase-key-file` | `NTFY_FIREBASE_KEY_FILE` | *filename* | - | If set, also publish messages to a Firebase Cloud Messaging (FCM) topic for your app. This is optional and only required to save battery when using the Android app. See [Firebase (FCM](#firebase-fcm). | | `cache-file` | `NTFY_CACHE_FILE` | *filename* | - | If set, messages are cached in a local SQLite database instead of only in-memory. This allows for service restarts without losing messages in support of the since= parameter. See [message cache](#message-cache). | | `cache-duration` | `NTFY_CACHE_DURATION` | *duration* | 12h | Duration for which messages will be buffered before they are deleted. This is required to support the `since=...` and `poll=1` parameter. Set this to `0` to disable the cache entirely. | | `cache-startup-queries` | `NTFY_CACHE_STARTUP_QUERIES` | *string (SQL queries)* | - | SQL queries to run during database startup; this is useful for tuning and [enabling WAL mode](#wal-for-message-cache) | | `cache-batch-size` | `NTFY_CACHE_BATCH_SIZE` | *int* | 0 | Max size of messages to batch together when writing to message cache (if zero, writes are synchronous) | | `cache-batch-timeout` | `NTFY_CACHE_BATCH_TIMEOUT` | *duration* | 0s | Timeout for batched async writes to the message cache (if zero, writes are synchronous) | | `auth-file` | `NTFY_AUTH_FILE` | *filename* | - | Auth database file used for access control. If set, enables authentication and access control. See [access control](#access-control). | | `auth-default-access` | `NTFY_AUTH_DEFAULT_ACCESS` | `read-write`, `read-only`, `write-only`, `deny-all` | `read-write` | Default permissions if no matching entries in the auth database are found. Default is `read-write`. | | `behind-proxy` | `NTFY_BEHIND_PROXY` | *bool* | false | If set, the X-Forwarded-For header is used to determine the visitor IP address instead of the remote address of the connection. | | `attachment-cache-dir` | `NTFY_ATTACHMENT_CACHE_DIR` | *directory* | - | Cache directory for attached files. To enable attachments, this has to be set. | | `attachment-total-size-limit` | `NTFY_ATTACHMENT_TOTAL_SIZE_LIMIT` | *size* | 5G | Limit of the on-disk attachment cache directory. If the limits is exceeded, new attachments will be rejected. | | `attachment-file-size-limit` | `NTFY_ATTACHMENT_FILE_SIZE_LIMIT` | *size* | 15M | Per-file attachment size limit (e.g. 300k, 2M, 100M). Larger attachment will be rejected. | | `attachment-expiry-duration` | `NTFY_ATTACHMENT_EXPIRY_DURATION` | *duration* | 3h | Duration after which uploaded attachments will be deleted (e.g. 3h, 20h). Strongly affects `visitor-attachment-total-size-limit`. | | `smtp-sender-addr` | `NTFY_SMTP_SENDER_ADDR` | `host:port` | - | SMTP server address to allow email sending | | `smtp-sender-user` | `NTFY_SMTP_SENDER_USER` | *string* | - | SMTP user; only used if e-mail sending is enabled | | `smtp-sender-pass` | `NTFY_SMTP_SENDER_PASS` | *string* | - | SMTP password; only used if e-mail sending is enabled | | `smtp-sender-from` | `NTFY_SMTP_SENDER_FROM` | *e-mail address* | - | SMTP sender e-mail address; only used if e-mail sending is enabled | | `smtp-server-listen` | `NTFY_SMTP_SERVER_LISTEN` | `[ip]:port` | - | Defines the IP address and port the SMTP server will listen on, e.g. `:25` or `1.2.3.4:25` | | `smtp-server-domain` | `NTFY_SMTP_SERVER_DOMAIN` | *domain name* | - | SMTP server e-mail domain, e.g. `ntfy.sh` | | `smtp-server-addr-prefix` | `NTFY_SMTP_SERVER_ADDR_PREFIX` | *string* | - | Optional prefix for the e-mail addresses to prevent spam, e.g. `ntfy-` | | `keepalive-interval` | `NTFY_KEEPALIVE_INTERVAL` | *duration* | 45s | Interval in which keepalive messages are sent to the client. This is to prevent intermediaries closing the connection for inactivity. Note that the Android app has a hardcoded timeout at 77s, so it should be less than that. | | `manager-interval` | `NTFY_MANAGER_INTERVAL` | *duration* | 1m | Interval in which the manager prunes old messages, deletes topics and prints the stats. | | `global-topic-limit` | `NTFY_GLOBAL_TOPIC_LIMIT` | *number* | 15,000 | Rate limiting: Total number of topics before the server rejects new topics. | | `upstream-base-url` | `NTFY_UPSTREAM_BASE_URL` | *URL* | `https://ntfy.sh` | Forward poll request to an upstream server, this is needed for iOS push notifications for self-hosted servers | | `visitor-attachment-total-size-limit` | `NTFY_VISITOR_ATTACHMENT_TOTAL_SIZE_LIMIT` | *size* | 100M | Rate limiting: Total storage limit used for attachments per visitor, for all attachments combined. Storage is freed after attachments expire. See `attachment-expiry-duration`. | | `visitor-attachment-daily-bandwidth-limit` | `NTFY_VISITOR_ATTACHMENT_DAILY_BANDWIDTH_LIMIT` | *size* | 500M | Rate limiting: Total daily attachment download/upload traffic limit per visitor. This is to protect your bandwidth costs from exploding. | | `visitor-email-limit-burst` | `NTFY_VISITOR_EMAIL_LIMIT_BURST` | *number* | 16 | Rate limiting:Initial limit of e-mails per visitor | | `visitor-email-limit-replenish` | `NTFY_VISITOR_EMAIL_LIMIT_REPLENISH` | *duration* | 1h | Rate limiting: Strongly related to `visitor-email-limit-burst`: The rate at which the bucket is refilled | | `visitor-message-daily-limit` | `NTFY_VISITOR_MESSAGE_DAILY_LIMIT` | *number* | - | Rate limiting: Allowed number of messages per day per visitor, reset every day at midnight (UTC). By default, this value is unset. | | `visitor-request-limit-burst` | `NTFY_VISITOR_REQUEST_LIMIT_BURST` | *number* | 60 | Rate limiting: Allowed GET/PUT/POST requests per second, per visitor. This setting is the initial bucket of requests each visitor has | | `visitor-request-limit-replenish` | `NTFY_VISITOR_REQUEST_LIMIT_REPLENISH` | *duration* | 5s | Rate limiting: Strongly related to `visitor-request-limit-burst`: The rate at which the bucket is refilled | | `visitor-request-limit-exempt-hosts` | `NTFY_VISITOR_REQUEST_LIMIT_EXEMPT_HOSTS` | *comma-separated host/IP list* | - | Rate limiting: List of hostnames and IPs to be exempt from request rate limiting | | `visitor-subscription-limit` | `NTFY_VISITOR_SUBSCRIPTION_LIMIT` | *number* | 30 | Rate limiting: Number of subscriptions per visitor (IP address) | | `visitor-subscriber-rate-limiting` | `NTFY_VISITOR_SUBSCRIBER_RATE_LIMITING` | *bool* | `false` | Rate limiting: Enables subscriber-based rate limiting | | `web-root` | `NTFY_WEB_ROOT` | *path*, e.g. `/` or `/app`, or `disable` | `/` | Sets root of the web app (e.g. /, or /app), or disables it entirely (disable) | | `enable-signup` | `NTFY_ENABLE_SIGNUP` | *boolean* (`true` or `false`) | `false` | Allows users to sign up via the web app, or API | | `enable-login` | `NTFY_ENABLE_LOGIN` | *boolean* (`true` or `false`) | `false` | Allows users to log in via the web app, or API | | `enable-reservations` | `NTFY_ENABLE_RESERVATIONS` | *boolean* (`true` or `false`) | `false` | Allows users to reserve topics (if their tier allows it) | | `stripe-secret-key` | `NTFY_STRIPE_SECRET_KEY` | *string* | - | Payments: Key used for the Stripe API communication, this enables payments | | `stripe-webhook-key` | `NTFY_STRIPE_WEBHOOK_KEY` | *string* | - | Payments: Key required to validate the authenticity of incoming webhooks from Stripe | | `billing-contact` | `NTFY_BILLING_CONTACT` | *email address* or *website* | - | Payments: Email or website displayed in Upgrade dialog as a billing contact | The format for a *duration* is: `(smh)`, e.g. 30s, 20m or 1h. The format for a *size* is: `(GMK)`, e.g. 1G, 200M or 4000k. ## Command line options ``` $ ntfy serve --help NAME: ntfy serve - Run the ntfy server USAGE: ntfy serve [OPTIONS..] CATEGORY: Server commands DESCRIPTION: Run the ntfy server and listen for incoming requests The command will load the configuration from /etc/ntfy/server.yml. Config options can be overridden using the command line options. Examples: ntfy serve # Starts server in the foreground (on port 80) ntfy serve --listen-http :8080 # Starts server with alternate port OPTIONS: --debug, -d enable debug logging (default: false) [$NTFY_DEBUG] --trace enable tracing (very verbose, be careful) (default: false) [$NTFY_TRACE] --no-log-dates, --no_log_dates disable the date/time prefix (default: false) [$NTFY_NO_LOG_DATES] --log-level value, --log_level value set log level (default: "INFO") [$NTFY_LOG_LEVEL] --log-level-overrides value, --log_level_overrides value [ --log-level-overrides value, --log_level_overrides value ] set log level overrides [$NTFY_LOG_LEVEL_OVERRIDES] --log-format value, --log_format value set log format (default: "text") [$NTFY_LOG_FORMAT] --log-file value, --log_file value set log file, default is STDOUT [$NTFY_LOG_FILE] --config value, -c value config file (default: /etc/ntfy/server.yml) [$NTFY_CONFIG_FILE] --base-url value, --base_url value, -B value externally visible base URL for this host (e.g. https://ntfy.sh) [$NTFY_BASE_URL] --listen-http value, --listen_http value, -l value ip:port used to as HTTP listen address (default: ":80") [$NTFY_LISTEN_HTTP] --listen-https value, --listen_https value, -L value ip:port used to as HTTPS listen address [$NTFY_LISTEN_HTTPS] --listen-unix value, --listen_unix value, -U value listen on unix socket path [$NTFY_LISTEN_UNIX] --listen-unix-mode value, --listen_unix_mode value file permissions of unix socket, e.g. 0700 (default: system default) [$NTFY_LISTEN_UNIX_MODE] --key-file value, --key_file value, -K value private key file, if listen-https is set [$NTFY_KEY_FILE] --cert-file value, --cert_file value, -E value certificate file, if listen-https is set [$NTFY_CERT_FILE] --firebase-key-file value, --firebase_key_file value, -F value Firebase credentials file; if set additionally publish to FCM topic [$NTFY_FIREBASE_KEY_FILE] --cache-file value, --cache_file value, -C value cache file used for message caching [$NTFY_CACHE_FILE] --cache-duration since, --cache_duration since, -b since buffer messages for this time to allow since requests (default: 12h0m0s) [$NTFY_CACHE_DURATION] --cache-batch-size value, --cache_batch_size value max size of messages to batch together when writing to message cache (if zero, writes are synchronous) (default: 0) [$NTFY_BATCH_SIZE] --cache-batch-timeout value, --cache_batch_timeout value timeout for batched async writes to the message cache (if zero, writes are synchronous) (default: 0s) [$NTFY_CACHE_BATCH_TIMEOUT] --cache-startup-queries value, --cache_startup_queries value queries run when the cache database is initialized [$NTFY_CACHE_STARTUP_QUERIES] --auth-file value, --auth_file value, -H value auth database file used for access control [$NTFY_AUTH_FILE] --auth-startup-queries value, --auth_startup_queries value queries run when the auth database is initialized [$NTFY_AUTH_STARTUP_QUERIES] --auth-default-access value, --auth_default_access value, -p value default permissions if no matching entries in the auth database are found (default: "read-write") [$NTFY_AUTH_DEFAULT_ACCESS] --attachment-cache-dir value, --attachment_cache_dir value cache directory for attached files [$NTFY_ATTACHMENT_CACHE_DIR] --attachment-total-size-limit value, --attachment_total_size_limit value, -A value limit of the on-disk attachment cache (default: 5G) [$NTFY_ATTACHMENT_TOTAL_SIZE_LIMIT] --attachment-file-size-limit value, --attachment_file_size_limit value, -Y value per-file attachment size limit (e.g. 300k, 2M, 100M) (default: 15M) [$NTFY_ATTACHMENT_FILE_SIZE_LIMIT] --attachment-expiry-duration value, --attachment_expiry_duration value, -X value duration after which uploaded attachments will be deleted (e.g. 3h, 20h) (default: 3h) [$NTFY_ATTACHMENT_EXPIRY_DURATION] --keepalive-interval value, --keepalive_interval value, -k value interval of keepalive messages (default: 45s) [$NTFY_KEEPALIVE_INTERVAL] --manager-interval value, --manager_interval value, -m value interval of for message pruning and stats printing (default: 1m0s) [$NTFY_MANAGER_INTERVAL] --disallowed-topics value, --disallowed_topics value [ --disallowed-topics value, --disallowed_topics value ] topics that are not allowed to be used [$NTFY_DISALLOWED_TOPICS] --web-root value, --web_root value sets web root to landing page (home), web app (app) or disabled (disable) (default: "app") [$NTFY_WEB_ROOT] --enable-signup, --enable_signup allows users to sign up via the web app, or API (default: false) [$NTFY_ENABLE_SIGNUP] --enable-login, --enable_login allows users to log in via the web app, or API (default: false) [$NTFY_ENABLE_LOGIN] --enable-reservations, --enable_reservations allows users to reserve topics (if their tier allows it) (default: false) [$NTFY_ENABLE_RESERVATIONS] --upstream-base-url value, --upstream_base_url value forward poll request to an upstream server, this is needed for iOS push notifications for self-hosted servers [$NTFY_UPSTREAM_BASE_URL] --smtp-sender-addr value, --smtp_sender_addr value SMTP server address (host:port) for outgoing emails [$NTFY_SMTP_SENDER_ADDR] --smtp-sender-user value, --smtp_sender_user value SMTP user (if e-mail sending is enabled) [$NTFY_SMTP_SENDER_USER] --smtp-sender-pass value, --smtp_sender_pass value SMTP password (if e-mail sending is enabled) [$NTFY_SMTP_SENDER_PASS] --smtp-sender-from value, --smtp_sender_from value SMTP sender address (if e-mail sending is enabled) [$NTFY_SMTP_SENDER_FROM] --smtp-server-listen value, --smtp_server_listen value SMTP server address (ip:port) for incoming emails, e.g. :25 [$NTFY_SMTP_SERVER_LISTEN] --smtp-server-domain value, --smtp_server_domain value SMTP domain for incoming e-mail, e.g. ntfy.sh [$NTFY_SMTP_SERVER_DOMAIN] --smtp-server-addr-prefix value, --smtp_server_addr_prefix value SMTP email address prefix for topics to prevent spam (e.g. 'ntfy-') [$NTFY_SMTP_SERVER_ADDR_PREFIX] --global-topic-limit value, --global_topic_limit value, -T value total number of topics allowed (default: 15000) [$NTFY_GLOBAL_TOPIC_LIMIT] --visitor-subscription-limit value, --visitor_subscription_limit value number of subscriptions per visitor (default: 30) [$NTFY_VISITOR_SUBSCRIPTION_LIMIT] --visitor-attachment-total-size-limit value, --visitor_attachment_total_size_limit value total storage limit used for attachments per visitor (default: "100M") [$NTFY_VISITOR_ATTACHMENT_TOTAL_SIZE_LIMIT] --visitor-attachment-daily-bandwidth-limit value, --visitor_attachment_daily_bandwidth_limit value total daily attachment download/upload bandwidth limit per visitor (default: "500M") [$NTFY_VISITOR_ATTACHMENT_DAILY_BANDWIDTH_LIMIT] --visitor-request-limit-burst value, --visitor_request_limit_burst value initial limit of requests per visitor (default: 60) [$NTFY_VISITOR_REQUEST_LIMIT_BURST] --visitor-request-limit-replenish value, --visitor_request_limit_replenish value interval at which burst limit is replenished (one per x) (default: 5s) [$NTFY_VISITOR_REQUEST_LIMIT_REPLENISH] --visitor-request-limit-exempt-hosts value, --visitor_request_limit_exempt_hosts value hostnames and/or IP addresses of hosts that will be exempt from the visitor request limit [$NTFY_VISITOR_REQUEST_LIMIT_EXEMPT_HOSTS] --visitor-message-daily-limit value, --visitor_message_daily_limit value max messages per visitor per day, derived from request limit if unset (default: 0) [$NTFY_VISITOR_MESSAGE_DAILY_LIMIT] --visitor-email-limit-burst value, --visitor_email_limit_burst value initial limit of e-mails per visitor (default: 16) [$NTFY_VISITOR_EMAIL_LIMIT_BURST] --visitor-email-limit-replenish value, --visitor_email_limit_replenish value interval at which burst limit is replenished (one per x) (default: 1h0m0s) [$NTFY_VISITOR_EMAIL_LIMIT_REPLENISH] --behind-proxy, --behind_proxy, -P if set, use X-Forwarded-For header to determine visitor IP address (for rate limiting) (default: false) [$NTFY_BEHIND_PROXY] --stripe-secret-key value, --stripe_secret_key value key used for the Stripe API communication, this enables payments [$NTFY_STRIPE_SECRET_KEY] --stripe-webhook-key value, --stripe_webhook_key value key required to validate the authenticity of incoming webhooks from Stripe [$NTFY_STRIPE_WEBHOOK_KEY] --billing-contact value, --billing_contact value e-mail or website to display in upgrade dialog (only if payments are enabled) [$NTFY_BILLING_CONTACT] --help, -h show help (default: false) ```