Module ngx_stream_ssl_module
The ngx_stream_ssl_module
module (1.9.0)
provides the necessary support for a stream proxy server to work with
the SSL/TLS protocol.
This module is not built by default, it should be enabled with the
--with-stream_ssl_module
configuration parameter.
Example Configuration
To reduce the processor load, it is recommended to
- set the number of worker processes equal to the number of processors,
- enable the shared session cache,
- disable the built-in session cache,
- and possibly increase the session lifetime (by default, 5 minutes):
worker_processes auto; stream { ... server { listen 12345 ssl; ssl_protocols TLSv1 TLSv1.1 TLSv1.2 TLSv1.3; ssl_ciphers AES128-SHA:AES256-SHA:RC4-SHA:DES-CBC3-SHA:RC4-MD5; ssl_certificate /usr/local/nginx/conf/cert.pem; ssl_certificate_key /usr/local/nginx/conf/cert.key; ssl_session_cache shared:SSL:10m; ssl_session_timeout 10m; ... }
Directives
Syntax: |
ssl_alpn |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.21.4.
Specifies the list of supported ALPN protocols. One of the protocols must be negotiated if the client uses ALPN:
map $ssl_alpn_protocol $proxy { h2 127.0.0.1:8001; http/1.1 127.0.0.1:8002; } server { listen 12346; proxy_pass $proxy; ssl_alpn h2 http/1.1; }
Syntax: |
ssl_certificate |
---|---|
Default: | — |
Context: |
stream , server |
Specifies a file
with the certificate in the PEM format
for the given server.
If intermediate certificates should be specified in addition to a primary
certificate, they should be specified in the same file in the following
order: the primary certificate comes first, then the intermediate certificates.
A secret key in the PEM format may be placed in the same file.
Since version 1.11.0, this directive can be specified multiple times to load certificates of different types, for example, RSA and ECDSA:
server { listen 12345 ssl; ssl_certificate example.com.rsa.crt; ssl_certificate_key example.com.rsa.key; ssl_certificate example.com.ecdsa.crt; ssl_certificate_key example.com.ecdsa.key; ... }
Only OpenSSL 1.0.2 or higher supports separate certificate chains for different certificates. With older versions, only one certificate chain can be used.
Since version 1.15.9, variables can be used in the file
name
when using OpenSSL 1.0.2 or higher:
ssl_certificate $ssl_server_name.crt; ssl_certificate_key $ssl_server_name.key;
Note that using variables implies that a certificate will be loaded for each SSL handshake, and this may have a negative impact on performance.
The value
data
:$variable
can be specified instead of the file
(1.15.10),
which loads a certificate from a variable without using intermediate files.
Note that inappropriate use of this syntax may have its security implications,
such as writing secret key data to
error log.
Syntax: |
ssl_certificate_key |
---|---|
Default: | — |
Context: |
stream , server |
Specifies a file
with the secret key in the PEM format
for the given server.
The value
engine
:name
:id
can be specified instead of the file
,
which loads a secret key with a specified id
from the OpenSSL engine name
.
The value
data
:$variable
can be specified instead of the file
(1.15.10),
which loads a secret key from a variable without using intermediate files.
Note that inappropriate use of this syntax may have its security implications,
such as writing secret key data to
error log.
Since version 1.15.9, variables can be used in the file
name
when using OpenSSL 1.0.2 or higher.
Syntax: |
ssl_ciphers |
---|---|
Default: |
ssl_ciphers HIGH:!aNULL:!MD5; |
Context: |
stream , server |
Specifies the enabled ciphers. The ciphers are specified in the format understood by the OpenSSL library, for example:
ssl_ciphers ALL:!aNULL:!EXPORT56:RC4+RSA:+HIGH:+MEDIUM:+LOW:+SSLv2:+EXP;
The full list can be viewed using the
“openssl ciphers
” command.
Syntax: |
ssl_client_certificate |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.11.8.
Specifies a file
with trusted CA certificates in the PEM format
used to verify client certificates and
OCSP responses if ssl_stapling is enabled.
The list of certificates will be sent to clients. If this is not desired, the ssl_trusted_certificate directive can be used.
Syntax: |
ssl_conf_command |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.19.4.
Sets arbitrary OpenSSL configuration commands.
The directive is supported when using OpenSSL 1.0.2 or higher.
Several ssl_conf_command
directives
can be specified on the same level:
ssl_conf_command Options PrioritizeChaCha; ssl_conf_command Ciphersuites TLS_CHACHA20_POLY1305_SHA256;
These directives are inherited from the previous configuration level
if and only if there are no ssl_conf_command
directives
defined on the current level.
Note that configuring OpenSSL directly might result in unexpected behavior.
Syntax: |
ssl_crl |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.11.8.
Specifies a file
with revoked certificates (CRL)
in the PEM format used to verify
client certificates.
Syntax: |
ssl_dhparam |
---|---|
Default: | — |
Context: |
stream , server |
Specifies a file
with DH parameters for DHE ciphers.
By default no parameters are set, and therefore DHE ciphers will not be used.
Prior to version 1.11.0, builtin parameters were used by default.
Syntax: |
ssl_ecdh_curve |
---|---|
Default: |
ssl_ecdh_curve auto; |
Context: |
stream , server |
Specifies a curve
for ECDHE ciphers.
When using OpenSSL 1.0.2 or higher, it is possible to specify multiple curves (1.11.0), for example:
ssl_ecdh_curve prime256v1:secp384r1;
The special value auto
(1.11.0) instructs nginx to use
a list built into the OpenSSL library when using OpenSSL 1.0.2 or higher,
or prime256v1
with older versions.
Prior to version 1.11.0,
the prime256v1
curve was used by default.
When using OpenSSL 1.0.2 or higher, this directive sets the list of curves supported by the server. Thus, in order for ECDSA certificates to work, it is important to include the curves used in the certificates.
Syntax: |
ssl_handshake_timeout |
---|---|
Default: |
ssl_handshake_timeout 60s; |
Context: |
stream , server |
Specifies a timeout for the SSL handshake to complete.
Syntax: |
ssl_key_log path; |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Enables logging of client connection SSL keys and specifies the path to the key log file. Keys are logged in the SSLKEYLOGFILE format compatible with Wireshark.
This directive is available as part of our commercial subscription.
Syntax: |
ssl_ocsp |
---|---|
Default: |
ssl_ocsp off; |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Enables OCSP validation of the client certificate chain.
The leaf
parameter
enables validation of the client certificate only.
For the OCSP validation to work,
the ssl_verify_client directive should be set to
on
or optional
.
To resolve the OCSP responder hostname, the resolver directive should also be specified.
Example:
ssl_verify_client on; ssl_ocsp on; resolver 192.0.2.1;
Syntax: |
ssl_ocsp_cache
|
---|---|
Default: |
ssl_ocsp_cache off; |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Sets name
and size
of the cache
that stores client certificates status for OCSP validation.
The cache is shared between all worker processes.
A cache with the same name can be used in several virtual servers.
The off
parameter prohibits the use of the cache.
Syntax: |
ssl_ocsp_responder |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Overrides the URL of the OCSP responder specified in the “Authority Information Access” certificate extension for validation of client certificates.
Only “http://
” OCSP responders are supported:
ssl_ocsp_responder http://ocsp.example.com/;
Syntax: |
ssl_password_file |
---|---|
Default: | — |
Context: |
stream , server |
Specifies a file
with passphrases for
secret keys
where each passphrase is specified on a separate line.
Passphrases are tried in turn when loading the key.
Example:
stream { ssl_password_file /etc/keys/global.pass; ... server { listen 127.0.0.1:12345; ssl_certificate_key /etc/keys/first.key; } server { listen 127.0.0.1:12346; # named pipe can also be used instead of a file ssl_password_file /etc/keys/fifo; ssl_certificate_key /etc/keys/second.key; } }
Syntax: |
ssl_prefer_server_ciphers |
---|---|
Default: |
ssl_prefer_server_ciphers off; |
Context: |
stream , server |
Specifies that server ciphers should be preferred over client ciphers when the SSLv3 and TLS protocols are used.
Syntax: |
ssl_protocols
[ |
---|---|
Default: |
ssl_protocols TLSv1 TLSv1.1 TLSv1.2 TLSv1.3; |
Context: |
stream , server |
Enables the specified protocols.
If the directive is specified on the server level, the value from the default server can be used.
TheTLSv1.1
andTLSv1.2
parameters work only when OpenSSL 1.0.1 or higher is used.
The TLSv1.3
parameter (1.13.0) works only when
OpenSSL 1.1.1 or higher is used.
The TLSv1.3
parameter is used by default
since 1.23.4.
Syntax: |
ssl_reject_handshake |
---|---|
Default: |
ssl_reject_handshake off; |
Context: |
stream , server |
This directive appeared in version 1.25.5.
If enabled, SSL handshakes in the server block will be rejected.
For example, in the following configuration, SSL handshakes with
server names other than example.com
are rejected:
server { listen 443 ssl default_server; ssl_reject_handshake on; } server { listen 443 ssl; server_name example.com; ssl_certificate example.com.crt; ssl_certificate_key example.com.key; }
Syntax: |
ssl_session_cache
|
---|---|
Default: |
ssl_session_cache none; |
Context: |
stream , server |
Sets the types and sizes of caches that store session parameters. A cache can be of any of the following types:
off
- the use of a session cache is strictly prohibited: nginx explicitly tells a client that sessions may not be reused.
none
- the use of a session cache is gently disallowed: nginx tells a client that sessions may be reused, but does not actually store session parameters in the cache.
builtin
- a cache built in OpenSSL; used by one worker process only. The cache size is specified in sessions. If size is not given, it is equal to 20480 sessions. Use of the built-in cache can cause memory fragmentation.
- a cache shared between all worker processes. The cache size is specified in bytes; one megabyte can store about 4000 sessions. Each shared cache should have an arbitrary name. A cache with the same name can be used in several servers. It is also used to automatically generate, store, and periodically rotate TLS session ticket keys (1.23.2) unless configured explicitly using the ssl_session_ticket_key directive.
Both cache types can be used simultaneously, for example:
ssl_session_cache builtin:1000 shared:SSL:10m;
but using only shared cache without the built-in cache should be more efficient.
Syntax: |
ssl_session_ticket_key |
---|---|
Default: | — |
Context: |
stream , server |
Sets a file
with the secret key used to encrypt
and decrypt TLS session tickets.
The directive is necessary if the same key has to be shared between
multiple servers.
By default, a randomly generated key is used.
If several keys are specified, only the first key is used to encrypt TLS session tickets. This allows configuring key rotation, for example:
ssl_session_ticket_key current.key; ssl_session_ticket_key previous.key;
The file
must contain 80 or 48 bytes
of random data and can be created using the following command:
openssl rand 80 > ticket.key
Depending on the file size either AES256 (for 80-byte keys, 1.11.8) or AES128 (for 48-byte keys) is used for encryption.
Syntax: |
ssl_session_tickets |
---|---|
Default: |
ssl_session_tickets on; |
Context: |
stream , server |
Enables or disables session resumption through TLS session tickets.
Syntax: |
ssl_session_timeout |
---|---|
Default: |
ssl_session_timeout 5m; |
Context: |
stream , server |
Specifies a time during which a client may reuse the session parameters.
Syntax: |
ssl_stapling |
---|---|
Default: |
ssl_stapling off; |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Enables or disables stapling of OCSP responses by the server. Example:
ssl_stapling on; resolver 192.0.2.1;
For the OCSP stapling to work, the certificate of the server certificate issuer should be known. If the ssl_certificate file does not contain intermediate certificates, the certificate of the server certificate issuer should be present in the ssl_trusted_certificate file.
For a resolution of the OCSP responder hostname, the resolver directive should also be specified.
Syntax: |
ssl_stapling_file |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.27.2.
When set, the stapled OCSP response will be taken from the
specified file
instead of querying
the OCSP responder specified in the server certificate.
The file should be in the DER format as produced by the
“openssl ocsp
” command.
Syntax: |
ssl_stapling_responder |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Overrides the URL of the OCSP responder specified in the “Authority Information Access” certificate extension.
Only “http://
” OCSP responders are supported:
ssl_stapling_responder http://ocsp.example.com/;
Syntax: |
ssl_stapling_verify |
---|---|
Default: |
ssl_stapling_verify off; |
Context: |
stream , server |
This directive appeared in version 1.27.2.
Enables or disables verification of OCSP responses by the server.
For verification to work, the certificate of the server certificate issuer, the root certificate, and all intermediate certificates should be configured as trusted using the ssl_trusted_certificate directive.
Syntax: |
ssl_trusted_certificate |
---|---|
Default: | — |
Context: |
stream , server |
This directive appeared in version 1.11.8.
Specifies a file
with trusted CA certificates in the PEM format
used to verify client certificates and
OCSP responses if ssl_stapling is enabled.
In contrast to the certificate set by ssl_client_certificate, the list of these certificates will not be sent to clients.
Syntax: |
ssl_verify_client
|
---|---|
Default: |
ssl_verify_client off; |
Context: |
stream , server |
This directive appeared in version 1.11.8.
Enables verification of client certificates. The verification result is stored in the $ssl_client_verify variable. If an error has occurred during the client certificate verification or a client has not presented the required certificate, the connection is closed.
The optional
parameter requests the client
certificate and verifies it if the certificate is present.
The optional_no_ca
parameter
requests the client
certificate but does not require it to be signed by a trusted CA certificate.
This is intended for the use in cases when a service that is external to nginx
performs the actual certificate verification.
The contents of the certificate is accessible through the
$ssl_client_cert variable.
Syntax: |
ssl_verify_depth |
---|---|
Default: |
ssl_verify_depth 1; |
Context: |
stream , server |
This directive appeared in version 1.11.8.
Sets the verification depth in the client certificates chain.
Embedded Variables
The ngx_stream_ssl_module
module supports variables
since 1.11.2.
$ssl_alpn_protocol
- returns the protocol selected by ALPN during the SSL handshake, or an empty string otherwise (1.21.4);
$ssl_cipher
- returns the name of the cipher used for an established SSL connection;
$ssl_ciphers
-
returns the list of ciphers supported by the client (1.11.7).
Known ciphers are listed by names, unknown are shown in hexadecimal,
for example:
AES128-SHA:AES256-SHA:0x00ff
The variable is fully supported only when using OpenSSL version 1.0.2 or higher. With older versions, the variable is available only for new sessions and lists only known ciphers.
$ssl_client_cert
- returns the client certificate in the PEM format for an established SSL connection, with each line except the first prepended with the tab character (1.11.8);
$ssl_client_fingerprint
- returns the SHA1 fingerprint of the client certificate for an established SSL connection (1.11.8);
$ssl_client_i_dn
- returns the “issuer DN” string of the client certificate for an established SSL connection according to RFC 2253 (1.11.8);
$ssl_client_raw_cert
- returns the client certificate in the PEM format for an established SSL connection (1.11.8);
$ssl_client_s_dn
- returns the “subject DN” string of the client certificate for an established SSL connection according to RFC 2253 (1.11.8);
$ssl_client_serial
- returns the serial number of the client certificate for an established SSL connection (1.11.8);
$ssl_client_v_end
- returns the end date of the client certificate (1.11.8);
$ssl_client_v_remain
- returns the number of days until the client certificate expires (1.11.8);
$ssl_client_v_start
- returns the start date of the client certificate (1.11.8);
$ssl_client_verify
-
returns the result of client certificate verification (1.11.8):
“
SUCCESS
”, “FAILED:
reason
”, and “NONE
” if a certificate was not present; $ssl_curve
-
returns the negotiated curve used for
SSL handshake key exchange process (1.21.5).
Known curves are listed by names, unknown are shown in hexadecimal,
for example:
prime256v1
The variable is supported only when using OpenSSL version 3.0 or higher. With older versions, the variable value will be an empty string.
$ssl_curves
-
returns the list of curves supported by the client (1.11.7).
Known curves are listed by names, unknown are shown in hexadecimal,
for example:
0x001d:prime256v1:secp521r1:secp384r1
The variable is supported only when using OpenSSL version 1.0.2 or higher. With older versions, the variable value will be an empty string.
The variable is available only for new sessions.
$ssl_protocol
- returns the protocol of an established SSL connection;
$ssl_server_name
- returns the server name requested through SNI;
$ssl_session_id
- returns the session identifier of an established SSL connection;
$ssl_session_reused
-
returns “
r
” if an SSL session was reused, or “.
” otherwise.