HTTP(s) (im_http)
This module can be configured to accept HTTP or HTTPS connections.
It listens on the address and port defined by the ListenAddr directive and accepts HTTP POST requests.
The event message must be included in the request body as raw data and will be available in the $raw_event
field.
The POST request must include the Content-Length header indicating the size of the event message and the module will read the number of bytes specified by this header.
Connections are not closed by the module while valid requests are still being received in order to operate in Keep-Alive mode.
It sends an HTTP/1.1 201 Created response to each valid POST request.
This acknowledgment ensures reliable message delivery.
im_http contains a partial HTTP/1.1 implementation and is designed to work with the om_http module. It has received limited interoperability testing and thus using it with other third-party clients may not have the expected results. |
To examine the supported platforms, see the list of installer packages in the Available Modules chapter. |
Configuration
The im_http module accepts the following directives in addition to the common module directives.
- ListenAddr
-
The module accepts connections on the IP address or hostname and port defined by this directive. The default address is
localhost
and the default port is 80. The port number is defined by appending it to the hostname or IP address using a colon as a separator in the format (host:port
). The port section of this directive and the Port directive are mutually exclusive. In case both are defined, the port number defined here takes precedence over the port defined in the Port directive.To listen on multiple addresses or ports in a single module instance, this directive can be repeated multiple times. Both IPv4 and IPv6 addresses are supported. If a DNS name is used, the number of addresses or cnames should be kept below 16 to avoid potential issues caused by DNS response size limits.
When the |
- Port
-
The module listens for incoming connections on the port defined by this directive. The default is port 80.
The Port directive is deprecated and will be removed from NXLog Enterprise Edition 6.0. After that, the port can only be defined in the ListenAddr directive. |
- AllowIP
-
This optional directive may be used to specify a whitelist of IP addresses and/or networks that are allowed to connect. The directive can be specified more than once to add different IPs or networks to the whitelist. This directive is only active when the Listen or ListenAddr directives are present. In the absence of this directive, there is no restriction on the hosts which may connect to a listening module. The following formats may be used:
-
0.0.0.0
(IPv4 address) -
0.0.0.0/32
(IPv4 network with subnet bits) -
0.0.0.0/0.0.0.0
(IPv4 network with subnet address) -
aa::1
(IPv6 address) -
aa::12/64
(IPv6 network with subnet bits)
-
- HTTPSAllowExpired
-
This boolean directive specifies whether the connection should be allowed with an expired certificate. If set to
TRUE
, the remote client will be able to connect with an expired certificate. The default isFALSE
: the certificate must not be expired. This directive is only valid if HTTPSRequireCert is set toTRUE
.
- HTTPSAllowUntrusted
-
This boolean directive specifies that the connection should be allowed without certificate verification. If set to
TRUE
, the connection will be allowed even if the remote client presents an unknown or self-signed certificate. The default value isFALSE
: the remote client must present a trusted certificate.
- HTTPSCADir
-
This directive specifies a path to a directory containing certificate authority (CA) certificates. These certificates will be used to verify the certificate presented by the remote client. The certificate files must be named using the OpenSSL hashed format, i.e. the hash of the certificate followed by .0, .1 etc. To find the hash of a certificate using OpenSSL:
$ openssl x509 -hash -noout -in ca.crt
For example if the certificate hash is
e2f14e4a
, then the certificate filename should bee2f14e4a.0
. If there is another certificate with the same hash then it should be namede2f14e4a.1
and so on.A remote client’s self-signed certificate (which is not signed by a CA) can also be trusted by including a copy of the certificate in this directory.
- HTTPSCAFile
-
This specifies the path of the certificate authority (CA) certificate that will be used to verify the certificate presented by the remote client. A remote client’s self-signed certificate (which is not signed by a CA) can be trusted by specifying the remote client certificate itself. In case of certificates signed by an intermediate CA, the certificate specified must contain the complete certificate chain (certificate bundle).
- HTTPSCAThumbprint
-
This optional directive specifies the thumbprint of the certificate authority (CA) certificate that will be used to verify the certificate presented by the remote client. The hexadecimal fingerprint string can be copied from Windows Certificate Manager (certmgr.msc). Whitespaces are automatically removed. The certificate must be added to a Windows certificate store that is accessible by NXLog. This directive is only supported on Windows and is mutually exclusive with the HTTPSCADir and HTTPSCAFile directives.
- HTTPSSearchAllCertStores
-
This optional boolean directive, when set to
TRUE
, enables the loading of all available Windows certificates into NXLog, for use during remote certificate verification. Any required certificates must be added to a Windows certificate store that NXLog can access. This directive is mutually exclusive with the HTTPSCAThumbprint, HTTPSCADir and HTTPSCAFile directives.
- HTTPSCertFile
-
This specifies the path of the certificate file that will be presented to the remote client during the HTTPS handshake.
- HTTPSCertKeyFile
-
This specifies the path of the private key file that was used to generate the certificate specified by the HTTPSCertFile directive. This is used for the HTTPS handshake.
- HTTPSCertThumbprint
-
This optional directive specifies the thumbprint of the certificate that will be presented to the remote client during the HTTPS handshake. The hexadecimal fingerprint string can be copied from Windows Certificate Manager (certmgr.msc). Whitespaces are automatically removed. The certificate must be imported to the
Local Computer\Personal
certificate store in PFX format for NXLog to find it. To create a PFX file from the certificate and private key using OpenSSL:$ openssl pkcs12 -export -out server.pfx -inkey server.key -in server.pem
This directive is only supported on Windows and is mutually exclusive with the HTTPSCertFile and HTTPSCertKeyFile directives.
- HTTPSCRLDir
-
This directive specifies a path to a directory containing certificate revocation list (CRL) files. These CRL files will be used to check for certificates that were revoked and should no longer be accepted. The files must be named using the OpenSSL hashed format, i.e. the hash of the issuer followed by .r0, .r1 etc. To find the hash of the issuer of a CRL file using OpenSSL:
$ openssl crl -hash -noout -in crl.pem
For example if the hash is
e2f14e4a
, then the filename should bee2f14e4a.r0
. If there is another file with the same hash then it should be namede2f14e4a.r1
and so on.
- HTTPSCRLFile
-
This specifies the path of the certificate revocation list (CRL) which will be used to check for certificates that have been revoked and should no longer be accepted. Example to generate a CRL file using OpenSSL:
$ openssl ca -gencrl -out crl.pem
- HTTPSDHFile
-
This optional directive specifies file with dh-parameters for Diffie-Hellman key exchange. These parameters can be generated with dhparam(1ssl). If no directive is specified, default parameters will be used. See OpenSSL Wiki for further details.
- HTTPSKeyPass
-
This directive specifies the passphrase of the private key specified by the HTTPSCertKeyFile directive. A passphrase is required when the private key is encrypted. Example to generate a private key with Triple DES encryption using OpenSSL:
$ openssl genrsa -des3 -out server.key 2048
This directive is not needed for passwordless private keys.
- HTTPSRequireCert
-
This boolean directive specifies that the remote HTTPS client must present a certificate. If set to
TRUE
and there is no certificate presented during the connection handshake, the connection will be refused. The default value isTRUE
: each connection must use a certificate.
- HTTPSSSLCipher
-
This optional directive can be used to set the permitted SSL cipher list, overriding the default. Use the format described in the ciphers(1ssl) man page. For example specify
RSA:!COMPLEMENTOFALL
to include all ciphers with RSA authentication but leave out ciphers without encryption.
If RSA or DSA ciphers with Diffie-Hellman key exchange are used, DHFile can be set for specifying custom dh-parameters. |
- HTTPSSSLCiphersuites
-
This optional directive can be used to set the permitted cipher list for TLSv1.3. Use the same format as in the HTTPSSSLCipher directive. Refer to the OpenSSL documentation for a list of valid TLS v1.3 cipher suites. The default value is:
TLS_AES_256_GCM_SHA384:TLS_CHACHA20_POLY1305_SHA256:TLS_AES_128_GCM_SHA256
- HTTPSSSLCompression
-
This boolean directive allows you to enable data compression when sending data over the network. The compression mechanism is based on the zlib compression library. If the directive is not specified, it defaults to
FALSE
: compression is disabled.Some Linux packages, for example Debian, use the OpenSSL library provided by the OS and may not support the zlib compression mechanism. The module will emit a warning on startup if the compression support is missing. The generic deb/rpm packages are bundled with a zlib-enabled libssl library.
- HTTPSSSLProtocol
-
This directive can be used to set the allowed SSL/TLS protocol(s). It takes a comma-separated list of values which can be any of the following:
SSLv2
,SSLv3
,TLSv1
,TLSv1.1
,TLSv1.2
andTLSv1.3
. By default, theTLSv1.2
andTLSv1.3
protocols are allowed. Note that the OpenSSL library shipped by Linux distributions may not supportSSLv2
andSSLv3
, and these will not work even if enabled with this directive.
Procedures
The following procedures are exported by im_http.
parse_url_params();
-
Generates fields from URL query parameters.
Examples
Pre-v5 syntax examples are included, they will become invalid with NXLog Enterprise Edition 6.0.
This configuration listens for HTTPS connections from localhost. Received log messages are written to file.
<Input http>
Module im_http
ListenAddr 0.0.0.0:8888
HTTPSCertFile %CERTDIR%/server-cert.pem
HTTPSCertKeyFile %CERTDIR%/server-key.pem
HTTPSCAFile %CERTDIR%/ca.pem
HTTPSRequireCert TRUE
HTTPSAllowUntrusted FALSE
</Input>
# Using the syntax prior to NXLog EE 5,
# where the port is defined in a separate directive.
#<Input http>
# Module im_http
# ListenAddr 0.0.0.0
# Port 8888
# HTTPSCertFile %CERTDIR%/server-cert.pem
# HTTPSCertKeyFile %CERTDIR%/server-key.pem
# HTTPSCAFile %CERTDIR%/ca.pem
#</Input>
This configuration uses the HTTPSCAThumbprint and HTTPSCertThumbprint directives for the verification of the Certificate Authority and the SSL handshake respectively.
<Input in_https>
Module im_http
ListenAddr 0.0.0.0:443
HTTPSCAThumbprint c2c902f736d39d37fd65c458afe0180ea799e443
HTTPSCertThumbprint 7c2cc5a5fb59d4f46082a510e74df17da95e2152
HTTPSSSLProtocol TLSv1.2
</Input>
# Using the syntax prior to NXLog EE 5,
# where the port is defined in a separate directive.
#<Input in_https>
# Module im_http
# ListenAddr 0.0.0.0
# Port 443
# HTTPSCAThumbprint c2c902f736d39d37fd65c458afe0180ea799e443
# HTTPSCertThumbprint 7c2cc5a5fb59d4f46082a510e74df17da95e2152
# HTTPSSSLProtocol TLSv1.2
#</Input>
This script uses the curl utility to send data to an im_http instance. The log data is passed as an argument when executing the script.
The URL
value needs to be replaced with a valid hostname according to the value specified by the ListenAddr directive.
The PORT
value needs to be replaced with the actual port that im_http has been configured to listen on.
The USESSL
value needs to be updated with the path to the client certificate, client certificate key, and certification authority files respectively.
In this example the files are located in a folder named keys located in the same path as the script.
URL=https://<hostname>
PORT=<port>
USESSL="--cert keys/client-cert.pem --key keys/client-key.pem --cacert keys/ca.pem"
BYTELEN=`printf "%s" "$1" | wc -c`
curl -v $USESSL -H "Content-Type:plain/text" -H "Content-Length:${BYTELEN}" -d "$1" $URL:$PORT
The script is executed by running the following command, passing the log data to it as an argument:
# path/to/im-http-curl-request.sh "My log line"
This bash script and other examples can be found in the NXLog public repository on GitLab.