You're viewing version 2.6 of the OpenSearch documentation. This version is no longer maintained. For the latest version, see the current documentation. For information about OpenSearch version maintenance, see Release Schedule and Maintenance Policy.
TLS troubleshooting
This page includes troubleshooting steps for configuring TLS certificates with the Security plugin.
Table of contents
- Validate YAML
- View contents of PEM certificates
- View contents of your keystore and truststore
- Check SAN hostnames and IP addresses
- Check OID for node certificates
- Check EKU field for node certificates
- TLS versions
- Supported ciphers
Validate YAML
opensearch.yml
and the files in config/opensearch-security/
are in the YAML format. A linter like YAML Validator can help verify that you don’t have any formatting errors.
View contents of PEM certificates
You can use OpenSSL to display the content of each PEM certificate:
openssl x509 -subject -nameopt RFC2253 -noout -in node1.pem
Then ensure that the value matches the one in opensearch.yml
.
For more complete information on a certificate:
openssl x509 -in node1.pem -text -noout
Check for special characters and whitespace in DNs
The Security plugin uses the string representation of Distinguished Names (RFC1779) when validating node certificates.
If parts of your DN contain special characters (e.g. a comma), make sure you escape it in your configuration:
plugins.security.nodes_dn:
- 'CN=node-0.example.com,OU=SSL,O=My\, Test,L=Test,C=DE'
You can have whitespace within a field, but not between fields.
Bad configuration
plugins.security.nodes_dn:
- 'CN=node-0.example.com, OU=SSL,O=My\, Test, L=Test, C=DE'
Good configuration
plugins.security.nodes_dn:
- 'CN=node-0.example.com,OU=SSL,O=My\, Test,L=Test,C=DE'
Check certificate IP addresses
Sometimes the IP address in your certificate is not the one communicating with the cluster. This problem can occur if your node has multiple interfaces or is running on a dual stack network (IPv6 and IPv4).
If this problem occurs, you might see the following in the node’s OpenSearch log:
SSL Problem Received fatal alert: certificate_unknown javax.net.ssl.SSLException: Received fatal alert: certificate_unknown
You might also see the following message in your cluster’s master log when the new node tries to join the cluster:
Caused by: java.security.cert.CertificateException: No subject alternative names matching IP address 10.0.0.42 found
Check the IP address in the certificate:
IPAddress: 2001:db8:0:1:1.2.3.4
In this example, the node tries to join the cluster with the IPv4 address of 10.0.0.42
, but the certificate contains the IPv6 address of 2001:db8:0:1:1.2.3.4
.
Validate certificate chain
TLS certificates are organized in a certificate chain. You can check with keytool
that the certificate chain is correct by inspecting the owner and the issuer of each certificate. If you used the demo installation script that ships with the Security plugin, the chain looks like:
Node certificate
Owner: CN=node-0.example.com, OU=SSL, O=Test, L=Test, C=DE
Issuer: CN=Example Com Inc. Signing CA, OU=Example Com Inc. Signing CA, O=Example Com Inc., DC=example, DC=com
Signing certificate
Owner: CN=Example Com Inc. Signing CA, OU=Example Com Inc. Signing CA, O=Example Com Inc., DC=example, DC=com
Issuer: CN=Example Com Inc. Root CA, OU=Example Com Inc. Root CA, O=Example Com Inc., DC=example, DC=com
Root certificate
Owner: CN=Example Com Inc. Root CA, OU=Example Com Inc. Root CA, O=Example Com Inc., DC=example, DC=com
Issuer: CN=Example Com Inc. Root CA, OU=Example Com Inc. Root CA, O=Example Com Inc., DC=example, DC=com
From the entries, you can see that the root certificate signed the intermediate certificate, which signed the node certificate. The root certificate signed itself, hence the name “self-signed certificate.” If you’re using separate keystore and truststore files, your root CA can most likely in the truststore.
Generally, the keystore contains client or node certificate and all intermediate certificates, and the truststore contains the root certificate.
Check the configured alias
If you have multiple entries in the keystore and you are using aliases to refer to them, make sure that the configured alias in opensearch.yml
matches the one in the keystore. If there is only one entry in the keystore, you do not need to configure an alias.
View contents of your keystore and truststore
In order to view information about the certificates stored in your keystore or truststore, use the keytool
command like:
keytool -list -v -keystore keystore.jks
keytool
prompts for the password of the keystore and lists all entries. For example, you can use this output to check for the correctness of the SAN and EKU settings.
Check SAN hostnames and IP addresses
The valid hostnames and IP addresses of a TLS certificates are stored as SAN
entries. Check that the hostname and IP entries in the SAN
section are correct, especially when you use hostname verification:
Certificate[1]:
Owner: CN=node-0.example.com, OU=SSL, O=Test, L=Test, C=DE
...
Extensions:
...
#5: ObjectId: 2.5.29.17 Criticality=false
SubjectAlternativeName [
DNSName: node-0.example.com
DNSName: localhost
IPAddress: 127.0.0.1
...
]
Check OID for node certificates
If you are using OIDs to denote valid node certificates, check that the SAN
extension for your node certificate contains the correct OIDName
:
Certificate[1]:
Owner: CN=node-0.example.com, OU=SSL, O=Test, L=Test, C=DE
...
Extensions:
...
#5: ObjectId: 2.5.29.17 Criticality=false
SubjectAlternativeName [
...
OIDName: 1.2.3.4.5.5
]
Check EKU field for node certificates
Node certificates need to have both serverAuth
and clientAuth
set in the extended key usage field:
#3: ObjectId: 2.5.29.37 Criticality=false
ExtendedKeyUsages [
serverAuth
clientAuth
]
TLS versions
The Security plugin disables TLS version 1.0 by default; it is outdated, insecure, and vulnerable. If you need to use TLSv1
and accept the risks, you can enable it in opensearch.yml
:
plugins.security.ssl.http.enabled_protocols:
- "TLSv1"
- "TLSv1.1"
- "TLSv1.2"
Supported ciphers
TLS relies on the server and client negotiating a common cipher suite. Depending on your system, the available ciphers will vary. They depend on the JDK or OpenSSL version you’re using, and whether or not the JCE Unlimited Strength Jurisdiction Policy Files
are installed.
For legal reasons, the JDK does not include strong ciphers like AES256. In order to use strong ciphers you need to download and install the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files. If you don’t have them installed, you might see an error message on startup:
[INFO ] AES-256 not supported, max key length for AES is 128 bit.
That is not an issue, it just limits possible encryption strength.
To enable AES 256 install 'Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files'
The Security plugin still works and falls back to weaker cipher suites. The plugin also prints out all available cipher suites during startup:
[INFO ] sslTransportClientProvider:
JDK with ciphers [TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_DHE_RSA_WITH_AES_128_CBC_SHA256,
TLS_DHE_DSS_WITH_AES_128_CBC_SHA256, ...]