Agate is a server for the Gemini network protocol, built with the Rust programming language. Agate has very few features, and can only serve static files. It uses async I/O, and should be quite efficient even when running on low-end hardware and serving many concurrent requests.
Download and unpack the pre-compiled binary.
Using the nix package manager run nix-env -i agate
Deploy agate with GNU Guix System by adding the agate-service-type to your system services.
Install the package agate-bin
AUR for pre-compiled binary. Otherwise install the agate
AUR package to get agate compiled from source.
If you have the Rust toolchain installed, run cargo install agate
to install agate from crates.io.
Download the source code and run cargo build --release
inside the source repository, then find the binary at target/release/agate
.
You can use the install script in the tools
directory for the remaining steps if there is one for your system.
If there is none, please consider contributing one to make it easier for less tech-savvy users!
example.com
with the address of your Gemini server.)
If you have not done it yourself, Agate will generate a private key and certificate for you on the first run, using the specified hostname(s). See the section Certificates below for more.agate --content path/to/content/ \
--addr [::]:1965 \
--addr 0.0.0.0:1965 \
--hostname example.com \
--lang en-US
All of the command-line arguments are optional. Run agate --help
to see the default values used when arguments are omitted.
When a client requests the URL gemini://example.com/foo/bar
, Agate will respond with the file at path/to/content/foo/bar
. If any segment of the requested path starts with a dot, agate will respond with a status code 52, whether the file exists or not. This behaviour can be disabled with --serve-secret
or by an entry for the specific file in the .meta
configuration file (see Meta-Presets). If there is a directory at that path, Agate will look for a file named index.gmi
inside that directory.
If the --hostname
argument is used, Agate will generate keys and self signed certificates for each hostname specified. For Gemini it is recommended by the specification to use self signed certificates because Gemini uses the TOFU (Trust on first use) principle for certificates. Because of this, the generated certificates will also have a long expiration time of 4096-01-01
.
For manual configuration of keys and certificates see the section on certificates below.
Agate by default supports TLSv1.2 and TLSv1.3. You can disable support for TLSv1.2 by using the flag --only-tls13
(or its short version -3
). This is NOT RECOMMENDED as it may break compatibility with some clients. The Gemini specification requires compatibility with TLSv1.2 "for now" because not all platforms have good support for TLSv1.3 (cf. §4.1 of the specification).
You can enable a basic directory listing for a directory by putting a file called .directory-listing-ok
in that directory. This does not have an effect on sub-directories.
This file must be UTF-8 encoded text; it may be empty. Any text in the file will be prepended to the directory listing.
The directory listing will hide files and directories whose name starts with a dot (e.g. the .directory-listing-ok
file itself, the .meta
configuration file, or the ..
directory).
A file called index.gmi
will always take precedence over a directory listing.
You can put a file called .meta
in any content directory. This file stores some metadata about the adjacent files which Agate will use when serving these files. The .meta
file must be UTF-8 encoded.
You can also enable a central configuration file with the -C
flag (or the long version --central-conf
). In this case Agate will always look for the .meta
configuration file in the content root directory and will ignore .meta
files in other directories.
The .meta
file has the following format (*1):
#
on the same line is a comment and will be ignored.<path>:<metadata>
, i.e. start with a file path, followed by a colon and then the metadata.<path>
is a case sensitive file path, which may or may not exist on disk. If ../index.gmi
would be undefined behaviour).
You can use Unix style patterns in existing paths. For example content/*
will match any file within content
, and content/**
will additionally match any files in subdirectories of content
.
However, the *
and **
globs on their own will by default not match files or directories that start with a dot because of their special meaning.
This behaviour can be disabled with --serve-secret
or by explicitly matching files starting with a dot with e.g. content/.*
or content/**/.*
respectively.
For more information on the patterns you can use, please see the documentation of glob::Pattern
.
Rules can overwrite other rules, so if a file is matched by multiple rules, the last one applies.
<metadata>
can take one of four possible forms:
If a line violates the format or looks like case 3, but is incorrect, it might be ignored. You should check your logs. Please know that this configuration file is first read when a file from the respective directory is accessed. So no log messages after startup does not mean the .meta
file is okay.
Such a configuration file might look like this:
# This line will be ignored.
**/*.de.gmi: ;lang=de
nl/**/*.gmi: ;lang=nl
index.gmi: ;lang=en-GB
LICENSE: text/plain;charset=UTF-8
gone.gmi: 52 This file is no longer here, sorry.
If this is the .meta
file in the content root directory and the -C
flag is used, this will result in the following response headers:
/
or /index.gmi
-> 20 text/gemini;lang=en-GB
/LICENSE
-> 20 text/plain;charset=UTF-8
/gone.gmi
-> 52 This file is no longer here, sorry.
.de.gmi
(including in non-hidden subdirectories)
-> 20 text/gemini;lang=de
nl
directory ending in .gmi
(including in non-hidden subdirectories)
-> 20 text/gemini;lang=nl
(*1) In theory the syntax is that of a typical INI-like file and also allows for sections with [section]
(the default section is set to mime
in the parser), since all other sections are disregarded, this does not make a difference. This also means that you can in theory also use =
instead of :
. For even more information, you can visit the documentation of configparser
.
Agate uses the env_logger
crate and allows you to set the logging verbosity by setting the RUST_LOG
environment variable. To turn off all logging use RUST_LOG=off
. For more information, please see the documentation of env_logger
.
Agate has basic support for virtual hosts. If you specify multiple --hostname
s, Agate will look in a directory with the respective hostname within the content root directory.
For example if one of the hostnames is example.com
, and the content root directory is set to the default ./content
, and gemini://example.com/file.gmi
is requested, then Agate will look for ./content/example.com/file.gmi
. This behaviour is only enabled if multiple --hostname
s are specified.
Agate also supports different certificates for different hostnames, see the section on certificates below.
If you want to serve the same content for multiple domains, you can instead disable the hostname check by not specifying --hostname
. In this case Agate will disregard a request's hostname apart from checking that there is one.
When one or more --hostname
s are specified, Agate will check that the hostnames and port in request URLs match the specified hostnames and the listening ports. If Agate is behind a proxy on another port and receives a request with an URL specifying the proxy port, this port may not match one of Agate's listening ports and the request will be rejected: it is possible to disable the port check with --skip-port-check
.
Agate has support for using multiple certificates with the --certs
option. Agate will thus always require that a client uses SNI, which should not be a problem since the Gemini specification also requires SNI to be used.
Certificates are by default stored in the .certificates
directory. This is a hidden directory for the purpose that uncautious people may set the content root directory to the current directory which may also contain the certificates directory. In this case, the certificates and private keys would still be hidden. The certificates are only loaded when Agate is started and are not reloaded while running. The certificates directory may directly contain a key and certificate pair, this is the default pair used if no other matching keys are present. The certificates directory may also contain subdirectories for specific domains, for example a folder for example.org
and portal.example.org
. Note that the subfolders for subdomains (like portal.example.org
) should not be inside other subfolders but directly in the certificates directory. Agate will select the certificate/key pair whose name matches most closely. For example take the following directory structure:
.certificates
|-- cert.der (1)
|-- key.der (1)
|-- example.org
| |-- cert.der (2)
| `-- key.der (2)
`-- portal.example.org
|-- cert.der (3)
`-- key.der (3)
This would be understood like this:
example.org
, so also including subdomains like secret.example.org
. It overrides the pair (1) for this subtree (exceptions below).portal.example.org
, so also inclduding subdomains like test.portal.example.org
. It overrides the pairs (1) and (2) for this subtree.Using a directory named just .
causes undefined behaviour as this would have the same meaning as the top level certificate/key pair (pair (1) in the example above).
The files for a certificate/key pair have to be named cert.der
and key.der
respectively. The certificate has to be a X.509 certificate in a DER format file and has to include a subject alt name of the domain name. The private key has to be in DER format and must be either an RSA, ECDSA or Ed25519 key.
All requests via TCP sockets will be logged using this format:
<local ip>:<local port> <remote ip or dash> "<request>" <response status> "<response meta>"[ error:<error>]
All requests via Unix sockets will be logged using this format:
unix:[<unix socket name>] - "<request>" <response status> "<response meta>"[ error:<error>]
Square brackets indicate optional parts.
The "error:" part will only be logged if an error occurred. This should only be used for informative purposes as the status code should provide the information that an error occurred. If the error consisted in the connection not being established (e.g. because of TLS errors), special status codes listed below may be used.
By default, Agate will not log the remote IP addresses because that might be an issue because IPs are considered private data under the EU's GDPR. To enable logging of IP addresses, you can use the --log-ip
option. Note that in this case some error conditions might still force Agate to log a dash instead of an IP address. IP addresses can also not be logged for connections via Unix sockets.
There are some lines apart from these that might occur in logs depending on the selected log level. For example the initial "Listening on..." line or information about listing a particular directory.
Agate uses some status codes that are not valid Gemini status codes when logging errors:
If you want to run agate on a multi-user system, you should be aware that all certificate and key data is loaded into memory and stored there until the server stops. Since the memory is also not explicitly overwritten or zeroed after use, the sensitive data might stay in memory after the server has terminated.