Encrypted JSON authentication
Guacamole supports delegating authentication to an arbitrary external service, relying on receipt of JSON data which has been signed using HMAC/SHA-256 and encrypted with 128-bit AES in CBC mode. This JSON contains all information describing the user being authenticated, as well as any connections they have access to, and is accepted only if the configured secret key was used to sign and encrypt the data.
Downloading the JSON authentication extension
The JSON authentication extension is available separately from the main
guacamole.war
. The link for this and all other officially-supported and
compatible extensions for a particular version of Guacamole are provided on the
release notes for that version. You can find the release notes for current
versions of Guacamole here: http://guacamole.apache.org/releases/.
The JSON authentication extension is packaged as a .tar.gz
file containing
only the extension itself, guacamole-auth-json-1.5.5.jar
, which must
ultimately be placed in GUACAMOLE_HOME/extensions
.
Installing JSON authentication
Guacamole extensions are self-contained .jar
files which are located within
the GUACAMOLE_HOME/extensions
directory. If you are unsure where
GUACAMOLE_HOME
is located on your system, please consult
Configuring Guacamole before proceeding.
To install the JSON authentication extension, you must:
Create the
GUACAMOLE_HOME/extensions
directory, if it does not already exist.Copy
guacamole-auth-json-1.5.5.jar
withinGUACAMOLE_HOME/extensions
.Configure Guacamole to use JSON authentication, as described below.
Configuring Guacamole to accept encrypted JSON
To verify and decrypt the received signed and encrypted JSON, a secret key must be generated which will be shared by both the Guacamole server and systems that will generate the JSON data. As guacamole-auth-json uses 128-bit AES, this key must be 128 bits.
An easy way of generating such a key is to echo a passphrase through the “md5sum” utility. This is the technique OpenSSL itself uses to generate 128-bit keys from passphrases. For example:
$ echo -n "ThisIsATest" | md5sum
4c0b569e4c96df157eee1b65dd0e4d41 -
The generated key must then be saved within guacamole.properties
as the full 32-digit hex value using the json-secret-key
property:
json-secret-key: 4c0b569e4c96df157eee1b65dd0e4d41
Completing the installation
Guacamole will only reread guacamole.properties
and load newly-installed
extensions during startup, so your servlet container will need to be restarted
before JSON authentication can be used. Doing this will disconnect all active
users, so be sure that it is safe to do so prior to attempting installation.
When ready, restart your servlet container and give the new authentication a
try.
JSON format
The general format of the JSON (prior to being encrypted, signed, and sent to Guacamole), is as follows:
{
"username" : "arbitraryUsername",
"expires" : TIMESTAMP,
"connections" : {
"Connection Name" : {
"protocol" : "PROTOCOL",
"parameters" : {
"name1" : "value1",
"name2" : "value2",
...
}
},
...
}
}
where TIMESTAMP
is a standard UNIX epoch timestamp with millisecond
resolution (the number of milliseconds since midnight of January 1, 1970 UTC)
and PROTOCOL
is the internal name of any of Guacamole’s supported protocols,
such as vnc
, rdp
, or ssh
.
The JSON will cease to be accepted as valid after the server time passes the timestamp. If no timestamp is specified, the data will not expire.
The top-level JSON object which must be submitted to Guacamole has the following properties:
Property name |
Type |
Description |
---|---|---|
|
|
The unique username of the user authenticated by the JSON. If the user is
anonymous, this should be the empty string ( |
|
|
The absolute time after which the JSON should no longer be accepted, even if the signature is valid, as a standard UNIX epoch timestamp with millisecond resolution (the number of milliseconds since midnight of January 1, 1970 UTC). |
|
|
The set of connections which should be exposed to the user by their
corresponding, unique names. If no connections will be exposed to the user,
this can simply be an empty object ( |
Each normal connection defined within each submitted JSON object has the following properties:
Property name |
Type |
Description |
---|---|---|
|
|
An optional opaque value which uniquely identifies this connection across all other connections which may be active at any given time. This property is only required if you wish to allow the connection to be shared or shadowed. |
|
|
The internal name of a supported protocol, such as |
|
|
An object representing the connection parameter name/value pairs to apply to the connection, as documented in Configuring connections. |
Connections which share or shadow other connections use a join
property
instead of a protocol
property, where join
contains the value of the id
property of the connection being joined:
Property name |
Type |
Description |
---|---|---|
|
|
An optional opaque value which uniquely identifies this connection across all other connections which may be active at any given time. This property is only required if you wish to allow the connection to be shared or shadowed. (Yes, a connection which shadows another connection may itself be shadowed.) |
|
|
The opaque ID given within the |
|
|
An object representing the connection parameter name/value pairs to apply to the connection, as documented in Configuring connections. Most of the connection configuration is inherited from the connection being
joined. In general, the only property relevant to joining connections is
|
If a connection is configured to join another connection, that connection will
only be usable if the connection being joined is currently active. If two
connections are established having the same id
value, only the last
connection will be joinable using the given id
.
Generating encrypted JSON
To authenticate a user with the above JSON format, the JSON must be both signed
and encrypted using the same 128-bit secret key specified with the
json-secret-key
within guacamole.properties
:
Generate JSON in the format described above
Sign the JSON using the secret key (the same 128-bit key stored within
guacamole.properties
with thejson-secret-key
property) with HMAC/SHA-256. Prepend the binary result of the signing process to the plaintext JSON that was signed.Encrypt the result of (2) above using AES in CBC mode, with the initial vector (IV) set to all zero bytes.
Encode the encrypted result using base64.
POST the encrypted result to the
/api/tokens
REST endpoint as the value of an HTTP parameter nameddata
(or include it in the URL of any Guacamole page as a query parameter nameddata
).For example, if Guacamole is running on localhost at
/guacamole
, andBASE64_RESULT
is the result of the above process, the equivalent run of the “curl” utility would be:$ curl --data-urlencode "data=BASE64_RESULT" http://localhost:8080/guacamole/api/tokens
NOTE: Be sure to URL-encode the base64-encoded result prior to POSTing it to
/api/tokens
or including it in the URL. Base64 can contain both “+” and “=” characters, which have special meaning within URLs.
If the data is invalid in any way, if the signature does not match, if decryption or signature verification fails, or if the submitted data has expired, the REST service will return an invalid credentials error and fail without user-visible explanation. Details describing the error that occurred will be in the Tomcat logs, however.
Reference implementation
The source includes a shell script, doc/encrypt-json.sh
,
which uses the OpenSSL command-line utility to encrypt and sign JSON in the
manner that guacamole-auth-json requires. It is thoroughly commented and should
work well as a reference implementation, for testing, and as a point of
comparison for development. The script is run as:
$ ./encrypt-json.sh HEX_ENCRYPTION_KEY file-to-sign-and-encrypt.json
For example, if you have a file called auth.json
containing the following:
{
"username" : "test",
"expires" : "1446323765000",
"connections" : {
"My Connection" : {
"protocol" : "rdp",
"parameters" : {
"hostname" : "10.10.209.63",
"port" : "3389",
"ignore-cert": "true",
"recording-path": "/recordings",
"recording-name": "My-Connection-${GUAC_USERNAME}-${GUAC_DATE}-${GUAC_TIME}"
}
},
"My OTHER Connection" : {
"protocol" : "rdp",
"parameters" : {
"hostname" : "10.10.209.64",
"port" : "3389",
"ignore-cert": "true",
"recording-path": "/recordings",
"recording-name": "My-OTHER-Connection-${GUAC_USERNAME}-${GUAC_DATE}-${GUAC_TIME}"
}
}
}
}
and you run:
$ ./encrypt-json.sh 4C0B569E4C96DF157EEE1B65DD0E4D41 auth.json
You will receive the following output: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The resulting base64 data above, if submitted using the data
parameter to
Guacamole, will authenticate a user and grant them access to the connections
described in the JSON (at least until the expires timestamp is reached, at
which point the JSON will no longer be accepted).