Contents
- Reporting Security Vulnerabilities
- Disclosure and Security Update Policy
- Known Gaps and Issues
- Security Related Configuration
If a security related issue is identified in the open source version MBEE, please email mbee-software.fc-space@lmco.com. This will notify the Lockheed Martin MBEE Software Engineering team of the issue. Your email will be acknowledged within 1 business day and a more detailed follow-up will be provided within 5 business days.
When disclosing a vulnerability, please provide the following information:
- Server information: any environment details that can be provided about the instance of MBEE on which the vulnerability was identified on.
- The MBEE version (can be retrieved from the MBEE
/about
page) - Whether or not the original source code has been modified. Details about any modifications can be helpful, if that information can be provided.
- A detailed description of the issue (the more detail, the better) so our team can quickly reproduce the issue.
- Organization(s) impacted/affected.
If your disclosure is of a sensitive nature, you may choose to encrypt your report using the following GPG public key:
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To encrypt a message, save this file as mbee-software.key.pub
and import the
key into GPG by running:
gpg --import mbee-software.key.pub
Then encrypt your message by running:
gpg -e -r mbee-software file_to_encrypt.txt
If and when security-related updates are made to MBEE, refer to CHANGELOG.md
for instructions on how to mitigate the issue.
The MBEE tests should not be run in production because the tests will create an arbitrary admin user in the database.
It's important to ensure that all test users are deleted from the database.
Additionally, when using custom id validators in the config, the testing script will attempt to generate new ids for test data that match the custom validators. However, if an invalid RegEx is supplied for a custom validator, or a RegEx that otherwise conflicts with the maximum or minimum id length, a critical error will be logged and the process will exit due to not being able to generate test data.
A known issue exists in the advanced element search in the UI. If the same field
is selected more than once for the advanced search, only the first value is
searched. For example, if searching by type class
and by the type block
,
only the class
results would be found.
Internet Explorer does not currently have great support for React applications. Because MBEE is written primarily in React, users who attempt to use MBEE on Internet Explorer will not be able to use any of the UI features past the login screen. Seeing that Mircosoft Edge is now the supported Windows browser, it is not in the plans to officially support MBEE for Internet Explorer.
Due to the nature of how plugins are loaded, the API and UI are not accessible until a plugin has been succesfully loaded. This can cause issues if plugins hang while loading, and can prevent the UI and API from being accessible.
Hovering over edit/delete/add buttons within tables causes a flicker in reactstrap 8.0.1. This issue has been reported as of 12/9/2019. Per discussion on the issue, there is a suggestion to downgrade to reactstrap 7.1.0. That version introduces 'Component Lifecycle Deprecation Warnings' for the Modal Component.
Specifying "reactstrap": "7.1.0" within the package.json devDependencies or
running npm i reactstrap@7.1.0 -D
within the project directory will
downgrade this package.
Upon testing reactstrap 8.4.0, no cursor flickering was observed regarding the aforementioned buttons. Additionally, this upgrade resolved the 'Component Lifecycle Deprecation Warnings' for the Modal Component.
There are a few ways of writing applications that interact with MBEE. Client applications and service-based integrations interact with MBEE via its API and don't require much discussion here. However, understanding plugins is critical to maintaining the security posture of an MBEE instance.
A plugin is a type of integration for MBEE that runs on the same server. In fact, it is part of the same running process. It is a module or collection of modules written in JavaScript as an Express application that is included by MBEE and used under namespaced routes. These plugins offer the ability to extend the functionality of MBEE. On one hand they allow for high-performance integrations with direct access to the underlying MBEE modules and database connections. On the other hand, they extend MBEE functionality in a monolithic approach rather than a distributed microservice architecture that is created by API-based integrations.
The most important thing to realize here is that a plugin, once-installed, is part of MBEE. It is part of the same running process, has access to the running configuration (which can include DB and/or LDAP credentials), and can execute code on the server with the same privileges as the MBEE application.
This makes plugins critical to the running application's security posture. It is the responsibility of the MBEE administrator to fully vet and understand any plugins being installed on an MBEE instance.
Below are the default ports necessary for running an MBEE instance and what those ports are used for. The HTTP and HTTPS ports are adjustable in the configuration file, and the database port can be adjusted on deployment and in the configuration file.
Port | Purpose |
---|---|
9080 | MBEE HTTP port |
9443 | MBEE HTTPS port |
27017 | Database |
MBEE retrieves its configuration information from the JSON files in
config/*.json
. Which JSON file is used depends on the value of the NODE_ENV
environment variable. MBEE looks for a file called config/<NODE_ENV>.json
,
where <NODE_ENV>
is the value stored in the NODE_ENV
environment variable.
For example, if NODE_ENV
is set to production
MBEE will use the file
config/production.json
for its configuration.
This configuration file contains security-related information such as database credentials, authentication information, SSL certificate info, and more. This configuration should not be checked into version control.
Password validation was designed to be configurable through each authentication
module. When a user is created, the configured auth module is checked for an
exported validator function called validatePassword()
. This function should
accept up to two parameters, the password (required) and the provider
(optional), and should return a boolean of whether the password is valid or not.
When creating a user, this function is ran and if the value false is returned, the creation of that user is rejected. The default password requirements provided in the local-strategy expect each password to contain at least 8 characters and at least one number, uppercase letter, lowercase letter and at least one special character. If desired, one implementing this function can allow for stricter requirements, but we do not suggest lessening the requirements for security reasons.
If using an auth module that does not need to store passwords in the database
(such as LDAP), the validatePassword()
function still needs to be provided and
exported, but only needs to return true for any case.
To run MBEE with SSL enabled, you need a valid SSL certificate for the server.
Once you have this you can simply define the name of that certificate (which MBEE
expects to find in the certs
directory of the project) in the server.https
section of the configuration JSON file. For example, consider the following
section of the configuration file:
{
"server": {
"http": {
"enabled": true,
"port": 9080
},
"https": {
"enabled": true,
"port": 9443,
"sslCertName": "path/to/your/ssl/cert.crt"
}
}
}
HTTP and HTTPS can be enabled or disabled individually by setting their
respective enabled
fields to either true or false. To run MBEE with only
HTTPS, simply disable HTTP by changing the server.http.enabled
field to
false
. Also, note that the ports used for HTTP and HTTPS can be configured.
The server
section of the config also contains a secret
field which is used
as the secret key for symmetric encryption operations related to token-based
authentication. This secret key can be set manually, however, MBEE supports the
special case of a random key. When the server.secret
field is set to RANDOM
,
MBEE will use a randomly generated string as the secret key. This key is
generated on server startup and will change with each restart of the server.
This means that a restart of the server will invalidate session tokens.
MBEE operates on a concept of modular authentication. This means that one or
more authentication modules are defined in the MBEE code. These authentication
modules are located in the app/auth
directory.
MBEE was built to be an open source product and was therefore designed with varying organizations in mind. To accommodate this, we implemented these authentication modules which allow each organization to write a few small functions to define their own authentication strategies that meet their organization's needs. As such, the module to be used is defined in the configuration JSON file. Consider the JSON configuration example below:
{
"auth": {
"strategy": "ldap-strategy",
"ldap": {
// LDAP information
},
"token": {
"expires": 10,
"units": "MINUTES"
},
"session": {
"expires": 30,
"units": "MINUTES"
}
}
}
The auth.strategy
section tells MBEE which authentication module or strategy
to use. The auth.ldap
section is required for the LDAP strategy and is used
to pass LDAP-specific information into MBEE.
Also important to note are the auth.token
and auth.session
configuration
options. Both allow the definition of an expiration time, but there are
differences between the two that should be explained.
A token is generated within MBEE. It stores basic information about the user
(such as username and token expiration time), which is encrypted using the server's
secret key (see the section on Server Secret Key above). This
token is used to authenticate the user during session token authentication as
well as API token authentication. The auth.token
section defines when this
token expires.
When interacting with MBEE via the UI, a user's token is stored in their session
object. The auth.session
section defines when a session expires.
For API interactions with MBEE, only the auth.token
expiration matters since
sessions are not used. However, for UI interaction with MBEE, both the token
and session definitions matter. Whichever expires first will cause the user's
authentication to expire.