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EasySSL is a small library to help create Spring Boot microservices that talk to each other over HTTPS with mutual authentication

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EasySSL

EasySSL is a small library to help create Spring Boot applications that talk to each other over HTTPS with mutual, or two-way authentication. There is a central Certificate Authority (CA). Each app has its own private key, and a certificate signed by the CA. The certificate is used to secure HTTP connections, both made by the app (to another app), and those served by the app.

This library was motivated by the need to move an existing constellation of HTTP services from the intranet to the Internet. Existing services were using a hodge-podge of authentication schemes, including service accounts IP whitelisting, and load-balancer rules. Mutual SSL authentication can be used to solve this problem.

Mutual authentication using client certificates provides:

  • confidentiality - prevents eavesdropping
  • integrity - prevents replay
  • authenticity - prevents impersonation

EasySSL relies on plain openssl tools and PEM encodings to make SSL easy for Dev and for Ops.

Differences From Spring Boot

  1. Uses PEM-encoded certificates and key files (rather than Java-specific JKS files)
  2. Supports Certificate Revocation Lists (Spring Boot currently does not - see SPRING-BOOT 6171)
  3. Creates an SSLContext bean to help write client code
  4. Supports updating server and client SSL settings without restarting
  5. Supports running an external command to fetch/generate certificates, keys, and CRLs

License

EasySSL is licensed under the terms of Apache 2.0.

Usage

1. Setting up a Certificate Authority

These steps should be done by your Ops people!

A note on the usage of ECDSA keys versus RSA keys

The handshake is almost 100% faster when using the ECDSA certificate! Again, you can run this command a few times to get a baseline but that's an incredible boost in performance by just switching out the certificate you use. The other really awesome thing here is that the ECDSA key is only 256bit compared to the RSA key which is 2048bit, but, the ECDSA key offers more security. At only 256bit the ECDSA key is almost as strong as a 3072bit RSA key, a considerable step up in security with your 50% reduction in overhead!

https://scotthelme.co.uk/ecdsa-certificates/

# This is a minimal working config file for demonstration purposes
cat > openssl.cnf
[ ca ]
default_ca = CA_default
[ CA_default ]
database = index.txt
default_md = default
default_crl_days = 30
^D

cat > ca-pass.txt
SomeSecurePassword
^D

# Create private key (make a note of the password)
openssl ecparam -genkey -name secp256r1 | openssl ec -out ca-key.pem -aes128 -passout file:ca-pass.txt

# Create CA certificate
openssl req -x509 -new -nodes -key ca-key.pem -passin file:ca-pass.txt -days 3650 -sha256 -out ca-cert.pem -subj '/CN=EasySSL CA'

# Create Certificate Revocation List (CRL)
openssl ca -gencrl -config openssl.cnf -cert ca-cert.pem -keyfile ca-key.pem -passin file:ca-pass.txt -out crl.pem
# It is recommended to publish crl.pem to a publically accessible URL

If you need to revoke access for an app, its certificate may be revoked. Here's how:

# This adds a line to index.txt with the serial number of the revoked cert
openssl ca -revoke app-cert.pem -config openssl.cnf -cert ca-cert.pem -keyfile ca-key.pem -passin file:ca-pass.txt

# Next, rerun the -gencrl command to update the CRL
openssl ca -gencrl -config openssl.cnf -cert ca-cert.pem -keyfile ca-key.pem -passin file:ca-pass.txt -out crl.pem

# Next, distribute the updated CRL to the interested parties (or publish it to the web)

2. Setting up an application

These steps should be done by the application owner.

cat > app-pass.txt
AnotherSecurePassword
^D

# Create private key
openssl ecparam -genkey -name secp256r1 | openssl ec -out app-key.pem -aes128 -passin file:app-pass.txt

# Create Certificate Signing Request (CSR)
# It's a good idea (although not required) to provide the app's correct DNS name
openssl req -new -key app-key.pem -passin file:app-pass.txt -out app-csr.pem -subj '/OU=App name/CN=<app.dns.name>'

# Sign the CSR
# This should be done by your Ops people - give them app-csr.pem from previous step, and ask them to sign it
# using the CA's private key
openssl x509 -req -in app-csr.pem -CA ca-cert.pem -CAkey ca-key.pem -passin file:ca-pass.txt -CAcreateserial -days 3650 -sha256 -out app-cert.pem

3. Using the library

First, you must add easyssl to your Spring Boot project.

Maven:

<dependency>
  <groupId>com.github.dtreskunov<groupId>
  <artifactId>easyssl</artifactId>
  <version>2.3.1</version>
</dependency>

Gradle:

compile('com.github.dtreskunov:easyssl:2.3.1')

Next, add the following section to application.yml:

easyssl:
  # HTTP URL should work here, as well!
  caCertificate: file:/path/to/ca-cert.pem # also supports arrays
  certificate: file:/path/to/app-cert.pem
  key: file:/path/to/app-key.pem
  keyPassword: AnotherSecurePassword
  certificateExpirationWarningThreshold: 30d # logs a warning this far ahead of expiration (default: 30d, if set to empty: logs an error at expiration)
  certificateExpirationCheckInterval: 1d # interval between repeated warnings (default: 1d, if set to empty: only one warning will be logged)
  certificateRevocationList: file:/path/to/crl.pem
  refreshInterval: 1m # default is no refresh
  refreshTimeout: 1s # default is no timeout
  refreshCommand: ['sh', '-c', 'echo refresh'] # run this command before (re)loading resources (default: don't run any command)
  clientAuth: WANT # default is NEED

# There is no need to specify `server.ssl.` properties - they will be managed by EasySSL.
# However, for improved security, you may want to set the `enabledProtocols` and `ciphers` properties.
# See https://github.com/ssllabs/research/wiki/SSL-and-TLS-Deployment-Best-Practices
server.ssl:
  enabledProtocols: TLSv1.2
  ciphers:
  - TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256
  - TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384
  - TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA
  - TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA
  - TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256
  - TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384
  - TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256
  - TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384
  - TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA
  - TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA
  - TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256
  - TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384
  - TLS_DHE_RSA_WITH_AES_128_GCM_SHA256
  - TLS_DHE_RSA_WITH_AES_256_GCM_SHA384
  - TLS_DHE_RSA_WITH_AES_128_CBC_SHA
  - TLS_DHE_RSA_WITH_AES_256_CBC_SHA
  - TLS_DHE_RSA_WITH_AES_128_CBC_SHA256
  - TLS_DHE_RSA_WITH_AES_256_CBC_SHA256

# These settings (including keyPassword) may be specified via any of Boot's Externalized Configuration mechanisms.
# See https://docs.spring.io/spring-boot/docs/current/reference/html/boot-features-external-config.html

# Additionally, you can specify file-like resources to come from OS environment variables by using special
# URLs with the "env" protocol, for example, you can set easyssl.key instead of "file:/path/to/app-key.pem"
# to "env:PRIVATE_KEY".
#
# This is useful when secrets are provided as OS environment variables, as in the case of AWS ECS.
#
# Important:
# * Spring Boot version 1.5.11 or greater is required: https://github.com/spring-projects/spring-boot/commit/3db5c70b
# * Be careful not to use environment variables that would clash with Spring Boot's relaxed binding, e.g. don't set
#   easyssl.key to "env:EASYSSL_KEY". Properties coming from environment variables override those from application.yml.

Next, ensure that the com.github.dtreskunov.easyssl package is getting scanned by Spring. Take a look at the server code used by this project's integration tests.

This should be enough to configure Tomcat/Jetty/etc to use SSL with client auth, but you still need to implement business rules for securing access. Look at the Spring Security code in this project's integration tests and the links below.

An app doesn't have to be a server. If your app needs to securely call another app using its certificate to authenticate itself, you can use the SSLContext bean to set up the client (e.g. RestTemplate on top of Apache HttpClient). Look at the client code used by this project's integration tests.

Application code is able to use the local.server.protocol property to determine whether the servlet container was started with SSL enabled:

@Value("${local.server.protocol}")
private String protocol; // injected by EasySSL

Testing with cURL

# Assuming that you've set up client-cert.pem and client-key.pem as above
curl --cacert ca-cert.pem --cert client-cert.pem --key client-key.pem -i https://localhost:8443/

Handling certificate renewal

EasySSL will refresh file-like resources mentioned in application.yml periodically, as configured by refreshInterval, refreshTimeout, and refreshCommand settings. Calling a small script via the refreshCommand setting makes it possible to automate certificate renewal. Hashicorp Vault with PKI engine is a capable CA that is very well suited for the role of a private certificate authority. Of course, you still need to somehow authenticate yourself to the Vault server!

Custom resource protocols

One useful trick to keep in mind is Spring's Resource abstraction. This is what allows you to use file: and classpath: prefixes in application.yml. By default, EasySSL adds support for the env: protocol, which allows reading the contents of a Resource from an environment variable. It's possible to add a more suitable protocol depending on your infrastructure needs (for example, to access AWS Secrets Manager).

FIPS-140 compliance

By default, EasySSL will use the FIPS-compliant variant of the BouncyCastle library. If your project requires regular BouncyCastle, exclude the bcpkix-fips dependency and add bcpkix-jdk15on.

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EasySSL is a small library to help create Spring Boot microservices that talk to each other over HTTPS with mutual authentication

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