This deployment guide explains how to use NGINX and NGINX Plus to load balance HTTP and HTTPS traffic across a pool of Oracle® WebLogic Server application servers. The detailed instructions in this guide apply to both cloud‑based and on‑premises deployments of Oracle WebLogic Server.

About NGINX and NGINX Plus

NGINX is an open source web server and reverse proxy that has grown in popularity in recent years due to its scalability. NGINX was first created to solve the C10K problem (serving 10,000 simultaneous connections on a single web server). NGINX’s features and performance have made it a staple of high performance sites – now powering the majority of the 100,000 busiest websites in the world.

NGINX Plus is the commercially supported version of the open source NGINX software. NGINX Plus is a complete application delivery platform, extending the power of NGINX with a host of enterprise‑ready capabilities that enhance an Oracle WebLogic Server deployment and are instrumental to building web applications at scale:

About Oracle WebLogic Server and Oracle Java Cloud Service

Oracle WebLogic Server is one of the industry’s leading application servers for building and deploying Java Platform, Enterprise Edition (Java EE) applications, with features for lowering cost of operations, improving performance, enhancing scalability, and supporting the Oracle Applications portfolio.

We tested the procedures in this guide against Oracle WebLogic Server Standard Edition 12cR2 (12.2.1), but the instructions also apply to WebLogic Server Enterprise Edition and WebLogic Suite. For a complete list of Oracle WebLogic server products and a feature matrix, see the Oracle website.

Oracle WebLogic Server is also available on Oracle Cloud as a service called Oracle Java Cloud Service, with a variety of general‑purpose and high‑memory shapes and with full administrative control.

You can use the WebLogic Server Administration Control graphical user interface to deploy and undeploy an application to an Oracle Java Cloud Service instance, just as you would deploy and undeploy the application to an on‑premises service instance.

For more information about deploying a Java application on Oracle Java Cloud Service, see Using Oracle Java Cloud Service.

Prerequisites and System Requirements

  • An Oracle WebLogic Server application server installed and configured on a physical or virtual system.
  • A Linux system to host NGINX or NGINX Plus. To avoid potential conflicts with other applications, we recommend you install NGINX Plus on a fresh physical or virtual system. For the list of Linux distributions supported by NGINX Plus, see NGINX Plus Technical Specifications.
  • NGINX 1.9.5 and later, or NGINX Plus R7 and later.

The instructions assume you have basic Linux system administration skills, including the following. Full instructions are not provided for these tasks.

  • Deploying and configuring a WebLogic Server application
  • Installing Linux software from vendor‑supplied packages
  • Editing configuration files
  • Copying files between a central administrative system and Linux servers
  • Running basic commands to start and stop services
  • Reading log files

About Sample Values and Copying of Text

  • example.com is used as a sample domain name (in key names and configuration blocks). Replace it with your organization’s name.
  • Many NGINX and NGINX Plus configuration blocks in this guide list two sample WebLogic Server application servers with IP addresses 192.168.25.33 and 192.168.25.69. Replace these addresses with the IP addresses of your WebLogic Server servers. Include a line in the configuration block for each server if you have more or fewer than two.
  • For readability reasons, some commands appear on multiple lines. If you want to copy and paste them into a terminal window, we recommend that you first copy them into a text editor, where you can substitute the object names that are appropriate for your deployment and remove any extraneous formatting characters that your browser might insert.
  • Some of the examples in this guide are partial and require additional directives or parameters to be complete. You can download complete configuration files for basic and enhanced load balancing from the NGINX, Inc. website, as instructed in Creating and Modifying Configuration Files. For details about a specific directive or parameter, see the NGINX reference documentation.
  • The configuration examples in the step‑by‑step instructions include hyperlinks to the NGINX reference documentation, for easy access to more information about the directives. (If a directive appears multiple times in a section, only the first occurrence is hyperlinked.) We recommend that you do not copy hyperlinked text (or any other text) from this guide into your configuration files, because it might include unwanted link text and might not include whitespace and other formatting that makes the configuration easy to read. For more information, see Creating and Modifying Configuration Files.

Configuring a TLS/SSL Certificate for Client Traffic

If you plan to enable TLS/SSL encryption of traffic between NGINX or NGINX Plus and clients of your WebLogic Server application, you need to configure a server certificate for NGINX or NGINX Plus.

  • TLS/SSL support is enabled by default in all NGINX Plus packages and NGINX binaries provided by NGINX, Inc.
  • If you are compiling NGINX from source, include the --with-http_ssl_module parameter to enable TLS/SSL support for HTTP traffic (the corresponding parameter for TCP is --with-stream_ssl_module, and for email is --with-mail_ssl_module, but this guide does not cover either of those protocol types).
  • If using binaries from other providers, consult the provider documentation to determine if they support TLS/SSL.

There are several ways to obtain a server certificate, including the following. For your convenience, step‑by‑step instructions are provided for the second and third options.

  • If you already have an SSL certificate for NGINX or NGINX Plus installed on another UNIX or Linux system (including systems running Apache HTTP Server), copy it to the /etc/nginx/ssl directory on the NGINX or NGINX Plus server.
  • Generate a self‑signed certificate as described in Generating a Self‑Signed Certificate below. This is sufficient for testing scenarios, but clients of production deployments generally require a certificate signed by a certificate authority (CA).
  • Request a new certificate from a CA or your organization’s security group, as described in Generating a Certificate Request below.

For more details on TLS/SSL termination, see the NGINX Plus Admin Guide.

Generating a Self‑Signed Certificate

Generate a public‑private key pair and a self‑signed server certificate in PEM format that is based on them.

  1. Log in as the root user on a machine that has the openssl software installed.
  2. Generate the key pair in PEM format (the default). To encrypt the private key, include the -des3 parameter. (Other encryption algorithms are available, listed on the man page for the genrsa command.) You are prompted for the passphrase used as the basis for encryption.

    root# openssl genrsa -des3 -out ~/private-key.pem 2048
    Generating RSA private key ...
    Enter pass phrase for private-key.pem:
  3. Create a backup of the key file in a secure location. If you lose the key, the certificate becomes unusable.

    root# cp ~/private-key.pem secure-dir/private-key.pem.backup
  4. Generate the certificate. Include the -new and -x509 parameters to make a new self‑signed certificate. Optionally include the -days parameter to change the key’s validity lifetime from the default of 30 days (10950 days is about 30 years). Respond to the prompts with values appropriate for your testing deployment.

    root# openssl req -new -x509 -key ~/private-key.pem -out ~/self-cert.pem \
    -days 10950
  5. Copy or move the certificate file and associated key files to the /etc/nginx/ssl directory on the NGINX or NGINX Plus server.

Generating a Certificate Request

  1. Log in as the root user on a machine that has the openssl software installed.

  2. Create a private key to be packaged in the certificate.

    root# openssl genrsa -out ~/example.com.key 2048
  3. Create a backup of the key file in a secure location. If you lose the key, the certificate becomes unusable.

    root# cp ~/example.com.key secure-dir/example.com.key.backup
  4. Create a Certificate Signing Request (CSR) file.

    root# openssl req -new -sha256 -key ~/example.com.key -out ~/example.com.csr
  5. Request a certificate from a CA or your internal security group, providing the CSR file (example.com.csr). As a reminder, never share private keys (.key files) directly with third parties.

    The certificate needs to be PEM format rather than in the Windows‑compatible PFX format. If you request the certificate from a CA website yourself, choose NGINX or Apache (if available) when asked to select the server platform for which to generate the certificate.

  6. Copy or move the certificate file and associated key files to the /etc/nginx/ssl directory on the NGINX Plus server.

Creating and Modifying Configuration Files

To reduce errors, this guide has you copy directives from files provided by NGINX, Inc. into your configuration files, instead of using a text editor to type in the directives yourself. Then you go through the sections in this guide (starting with Configuring Virtual Servers for HTTP and HTTPS Traffic) to learn how to modify the directives as required for your deployment.

As provided, there is one file for basic load balancing (with NGINX or NGINX Plus) and one file for enhanced load balancing (with NGINX Plus). If you are installing and configuring NGINX or NGINX Plus on a fresh Linux system and using it only to load balance WebLogic Server traffic, you can use the provided file as your main configuration file, which by convention is called /etc/nginx/nginx.conf.

We recommend, however, that instead of a single configuration file you use the scheme that is set up automatically when you install an NGINX Plus package, especially if you already have an existing NGINX or NGINX Plus deployment or plan to expand your use of NGINX or NGINX Plus to other purposes in future. In the conventional scheme, the main configuration file is still called /etc/nginx/nginx.conf, but instead of including all directives in it, you create separate configuration files for different functions and store the files in the /etc/nginx/conf.d directory. You then use the include directive in the appropriate contexts of the main file to read in the contents of the function‑specific files.

To download the complete configuration file for basic load balancing:

root# cd /etc/nginx/conf.d
root# curl https://www.nginx.com/resource/conf/weblogic-basic.conf > weblogic-basic.conf

To download the complete configuration file for enhanced load balancing:

root# cd /etc/nginx/conf.d
root# curl https://www.nginx.com/resource/conf/weblogic-enhanced.conf > \
weblogic-enhanced.conf

(You can also access the URL in a browser and download the file that way.)

To set up the conventional configuration scheme, add an http configuration block in the main nginx.conf file, if it does not already exist. (The standard placement is below any global directives.) Add this include directive with the appropriate filename:

http {
include conf.d/weblogic-(basic|enhanced).conf;
}

You can also use wildcard notation to reference all files that pertain to a certain function or traffic type in the appropriate context block. For example, if you name all HTTP configuration files function-http.conf, this is an appropriate include directive:

http {
include conf.d/*-http.conf;
}

For reference purposes, the full configuration files are also provided in this document:

We recommend, however, that you do not copy text directly from this document. It does not necessarily use the same mechanisms for positioning text (such as line breaks and white space) as text editors do. In text copied into an editor, lines might run together and indenting of child statements in configuration blocks might be missing or inconsistent. The absence of formatting does not present a problem for NGINX or NGINX Plus, because (like many compilers) they ignore white space during parsing, relying solely on semicolons and curly braces as delimiters. The absence of white space does, however, make it more difficult for humans to interpret the configuration and modify it without making mistakes.

About Reloading Updated Configuration

We recommend that each time you complete a set of updates to the configuration, you run the nginx ‑t command to test the configuration file for syntactic validity.

root# nginx -t
nginx: the configuration file /etc/nginx/nginx.conf syntax is ok
nginx: configuration file /etc/nginx/nginx.conf test is successful

To tell NGINX or NGINX Plus to start using the new configuration, run one of the following commands:

root# nginx -s reload

or

root# service nginx reload

Configuring Basic Load Balancing with NGINX or NGINX Plus

This section explains how to set up NGINX or NGINX Plus as a load balancer in front of two WebLogic Server servers. The instructions in the first two sections are mandatory:

The instructions in the remaining sections are optional, depending on the requirements of your application:

The complete configuration file appears in Full Configuration for Basic Load Balancing.

If you are using NGINX Plus, you can configure additional enhanced features after you complete the configuration of basic load balancing. See Configuring Enhanced Load Balancing with NGINX Plus.

Configuring Virtual Servers for HTTP and HTTPS Traffic

These directives define virtual servers for HTTP and HTTPS traffic in separate server blocks in the top‑level http configuration block. All HTTP requests are redirected to the HTTPS server.

  1. Configure a server block that listens for requests for https://example.com received on port 443.

    The ssl_certificate and ssl_certificate_key directives are required; substitute the names of the certificate and private key you chose in Configuring a TLS/SSL Certificate for Client Traffic.

    The other directives are optional but recommended.

    # in the 'http' block
    server {
    listen 443 ssl;
    server_name example.com;

    ssl_certificate /etc/nginx/ssl/certificate-name;
    ssl_certificate_key /etc/nginx/ssl/private-key;

    ssl_session_cache shared:SSL:1m;
    ssl_prefer_server_ciphers on;
    }

  2. Configure a server block that permanently redirects requests for http://example.com that are received on port 80 to the HTTPS server, which is defined in the previous step.

    If you’re not using SSL for client connections, omit the return directive. When instructed in the remainder of this guide to add directives to the server block for HTTPS traffic, add them to this block instead.

    # in the 'http' block
    server {
    listen 80;
    server_name example.com;

    # Redirect all HTTP requests to HTTPS
    location / {
    return 301 https://$server_name$request_uri;
    }
    }

For more information on configuring SSL, see the NGINX Plus Admin Guide and the reference documentation for the HTTP SSL module.

Configuring Basic Load Balancing

To configure load balancing, you first create a named “upstream group,” which lists the backend servers. You then set up NGINX or NGINX Plus as a reverse proxy and load balancer by referring to the upstream group in one or more proxy_pass directives.

By putting NGINX or NGINX Plus in front of WebLogic Server servers, you gain a number of benefits in concurrency, resiliency, and scalability, and can take advantage of NGINX’s Layer 7 routing, SSL offloading, content caching, and other features. You can read more about those functions and features in Reverse Proxy using NGINX Plus.

  1. Configure an upstream group called weblogic with two WebLogic Server application servers listening on port 7001, one on IP address 192.168.25.33 and the other on 192.168.25.69. It applies to only HTTP and HTTPS traffic, because we’re placing it in the http block. For information about load balancing WebSocket traffic, see Configuring Proxy of WebSocket Traffic.

    # in the 'http' block
    upstream weblogic {
    server 192.168.25.33:7001;
    server 192.168.25.69:7001;
    }
  2. In the server block for HTTPS traffic that we created in Configuring Virtual Servers for HTTP and HTTPS Traffic, include these two location blocks:

    • The first one matches HTTPS requests in which the path starts with /weblogic-app/, and proxies them to the weblogic upstream group we created in the previous step.

    • The second one funnels all traffic to the first location block, by doing a temporary redirect of all requests for http://example.com/.

    # in the 'server' block for HTTPS traffic
    location /weblogic-app/ {
    proxy_pass http://weblogic;
    }

    location = / {
    return 302 /weblogic-app/;
    }

By default, NGINX and NGINX Plus use the Round Robin algorithm for load balancing among servers. The load balancer runs through the list of servers in the upstream group in order, forwarding each new request to the next server. In our example, the first request goes to 192.168.25.33, the second to 192.168.25.69, the third to 192.168.25.33, and so on. For information about the other available load‑balancing algorithms, see Application Load Balancing with NGINX Plus.

In NGINX Plus, you can also set up dynamic reconfiguration of an upstream group when the set of backend servers changes, using DNS or an API; see Enabling On‑the‑Fly Reconfiguration of Upstream Groups.

For more information about proxying and load balancing, see Reverse Proxy and Load Balancing in the NGINX Plus Admin Guide, and the documentation for the Proxy and Upstream modules.

Configuring Basic Session Persistence

If your application requires basic session persistence (also known as sticky sessions), you can implement it in NGINX by using the IP Hash load‑balancing algorithm. (NGINX Plus offers a more sophisticated form of session persistence, as described in Configuring Advanced Session Persistence.)

With the IP Hash algorithm, for each request NGINX calculates a hash based on the client’s IP address, and associates the hash with one of the upstream servers. It sends all requests with that hash to that server, thus establishing session persistence.

If the client has an IPv6 address, the hash is based on the entire address. If it has an IPv4 address, the hash is based on just the first three octets of the address. This is designed to optimize for ISP clients that are assigned IP addresses dynamically from a subnetwork (/24) range. However, it is not effective in these cases:

  • The majority of the traffic to your site is coming from one forward proxy or from clients on the same /24 network, because in that case IP Hash maps all clients to the same server.

  • A client’s IP address can change during the session, for example when a mobile client switches from a WiFi network to a cellular one.

To configure session persistence in NGINX, add the ip_hash directive to the upstream block created in Configuring Basic Load Balancing:

# in the 'http' block
upstream weblogic {
ip_hash;
server 192.168.25.33:7001;
server 192.168.25.69:7001;
}

You can also use the Hash load balancing method for session persistence, with the hash based on any combination of text and NGINX variables you specify. For example, you can hash on full (four‑octet) client IP addresses with the following configuration.

# in the 'http' block
upstream weblogic {
hash $remote_addr;
server 192.168.25.33:7001;
server 192.168.25.69:7001;
}

Configuring Proxy of WebSocket Traffic

WebLogic Server supports the WebSocket protocol (RFC 6455), which provides simultaneous two‑way communication over a single TCP connection between clients and servers, where each side can send data independently from the other. To initiate the WebSocket connection, the client sends a handshake request to the server, upgrading the request from standard HTTP to WebSocket. The connection is established if the handshake request passes validation, and the server accepts the request. When a WebSocket connection is created, a browser client can send data to a WebLogic Server instance while simultaneously receiving data from that instance.

To learn more about how WebLogic Server handles WebSocket traffic, see Using WebSockets in WebLogic Server.

NGINX and NGINX Plus by default use HTTP/1.0 for upstream connections. To be proxied correctly, WebSocket connections require HTTP/1.1 along with some other configuration directives that set HTTP headers:

#in the 'http' block
map $http_upgrade $connection_upgrade {
default upgrade;
'' close;
}

# in the 'server' block for HTTPS traffic
location /wstunnel/ {
proxy_pass http://weblogic;
proxy_http_version 1.1;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection $connection_upgrade;
}

The first proxy_set_header directive is needed because the Upgrade request header is hop‑by‑hop; that is, the HTTP specification explicitly forbids proxies from forwarding it. This directive overrides the prohibition.

The second proxy_set_header directive sets the Connection header to a value that depends on the test in the map block: if the request has an Upgrade header, the Connection header is set to upgrade; otherwise, it is set to close.

For more information about proxying WebSocket traffic, see WebSocket proxying and NGINX as a WebSocket Proxy.

Configuring Content Caching

Caching assets at the edge of your infrastructure can have many benefits. Even caching a small percent of the requests to your clients for a short period of time can drastically improve the performance of your web applications.

One choice for caching is Oracle Web Cache, a reverse proxy cache and compression engine that can be deployed between the client and server.

Another alternative is the scalable disk‑based cache in NGINX and NGINX Plus, which integrates with their reverse proxy capability. There are a variety of useful directives that can be used to finetune caching behavior; for a detailed discussion, see A Guide to Caching with NGINX.

To create a very simple caching configuration:

  1. Include the proxy_cache_path directive to create the local disk directory /tmp/NGINX_cache/ for use as a cache. The keys_zone parameter allocates 10 megabytes (MB) of shared memory for a zone called backcache, which is used to store cache keys and metadata such as usage timers. A 1‑MB zone can store data for about 8,000 keys.

    # in the 'http' block
    proxy_cache_path /tmp/NGINX_cache/ keys_zone=backcache:10m;
  2. In the location block that matches HTTPS requests in which the path starts with /weblogic-app/, include the proxy_cache directive to reference the cache created in the previous step.

    # in the 'server' block for HTTPS traffic
    location /weblogic-app/ {
    proxy_pass http://weblogic;
    proxy_cache backcache;
    }

By default, the cache key is similar to this string of NGINX variables: $scheme$proxy_host$request_uri. To change the list of variables, specify them with the proxy_cache_key directive. One effective use of this directive is to create a cache key for each user based on the JSESSIONID cookie. This is useful when the cache is private, for example containing shopping cart data or other user‑specific resources. Include the JSESSIONID cookie in the cache key with this directive:

proxy_cache_key $proxy_host$request_uri$cookie_jessionid;

For more complete information on caching, refer to the documentation for the Proxy module and the NGINX Plus Admin Guide.

Configuring HTTP/2 Support

HTTP/2 is fully supported in both NGINX 1.9.5 and later, and NGINX Plus R7 and later. As always, we recommend you run the latest version of software to take advantage of improvements and bug fixes.

  • If using NGINX, note that in NGINX 1.9.5 and later the SPDY module is completely removed from the NGINX codebase and replaced with the HTTP/2 module. After upgrading to version 1.9.5 or later, you can no longer configure NGINX to use SPDY. If you want to keep using SPDY, you need to compile NGINX from the sources in the NGINX 1.8.x branch.

  • In NGINX Plus R8 and later, NGINX Plus supports HTTP/2 by default, and does not support SPDY.

    In NGINX Plus R11 and later, the nginx-plus package continues to support HTTP/2 by default, but the nginx‑plus‑extras package available in previous releases is deprecated by dynamic modules.

    For NGINX Plus R8 through R10, the nginx-plus and nginx-plus-extras packages support HTTP/2 by default.

    If using NGINX Plus R7, you must install the nginx-plus-http2 package instead of the nginx-plus or nginx-plus-extras package.

To enable HTTP/2 support, add the http2 parameter to the listen directive in the server block for HTTPS traffic that we created in Configuring Virtual Servers for HTTP and HTTPS Traffic, so that it looks like this:

 

# in the 'server' block for HTTPS traffic
listen 443 ssl http2;
To verify that HTTP/2 translation is working, you can use the “HTTP/2 and SPDY indicator” plug‑in available for Google Chrome and Firefox.

Full Configuration for Basic Load Balancing

The full configuration for basic load balancing appears here for your convenience. It goes in the http context. The complete file is available for download from the NGINX, Inc. website.

We recommend that you do not copy text directly from this document, but instead use the method described in Creating and Modifying Configuration Files to include these directives in your configuration – add an include directive to the http context of the main nginx.conf file to read in the contents of /etc/nginx/conf.d/weblogic-basic.conf.

proxy_cache_path /tmp/NGINX_cache/ keys_zone=backcache:10m;

# WebSocket configuration
map $http_upgrade $connection_upgrade {
default upgrade;
'' close;
}

upstream weblogic {
# Use IP Hash for session persistence
ip_hash;

# List of WebLogic application servers
server 192.168.25.33:7001;
server 192.168.25.69:7001;
}

server {
listen 80;
server_name example.com;

# Redirect all HTTP requests to HTTPS
location / {
return 301 https://$server_name$request_uri;
}
}

server {
listen 443 ssl http2;
server_name example.com;

ssl_certificate /etc/nginx/ssl/certificate-name;
ssl_certificate_key /etc/nginx/ssl/private-key;

ssl_session_cache shared:SSL:1m;
ssl_prefer_server_ciphers on;

# Load balance requests for /weblogic-app/ across WebLogic application servers
location /weblogic-app/ {
proxy_pass http://weblogic;
proxy_cache backcache;
}

# Return a temporary redirect to the /weblogic-app/ directory
# when user requests '/'
location = / {
return 302 /weblogic-app/;
}

# WebSocket configuration
location /wstunnel/ {
proxy_pass https://weblogic;
proxy_http_version 1.1;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection $connection_upgrade;
}
}

Configuring Enhanced Load Balancing with NGINX Plus

This section explains how to configure enhanced load balancing with some of the extended features in NGINX Plus.

Note: Before setting up the enhanced features described in this section, you must complete the instructions for basic load balancing in Configuring Virtual Servers for HTTP and HTTPS Traffic and Configuring Basic Load Balancing. Except as noted, all optional basic features (described in the other subsections of Configuring Basic Load Balancing in NGINX and NGINX Plus) can be combined with the enhanced features described here.

The features described in the following sections are all optional.

The complete configuration file appears in Full Configuration for Enhanced Load Balancing.

Configuring Advanced Session Persistence

NGINX Plus has more sophisticated session persistence methods available than open source NGINX, implemented in three variants of the sticky directive. In the following example, we add the sticky learn directive to the upstream group we created in Configuring Basic Load Balancing.

  1. Remove or comment out the ip_hash directive, leaving only the server directives:

    # in the 'http' block
    upstream weblogic {
    #ip_hash;
    server 192.168.25.33:7001;
    server 192.168.25.69:7001;
    }
  2. Configure session persistence that for the session identifier uses the JSESSIONID cookie created by your WebLogic Server application:

    # in the 'http' block
    upstream weblogic {
    server 192.168.25.33:7001;
    server 192.168.25.69:7001;
    sticky learn create=$upstream_cookie_JSESSIONID
    lookup=$cookie_JSESSIONID
    zone=client_sessions:1m;
    }
    • The create and lookup parameters specify how new sessions are created and existing sessions are searched for, respectively. For new sessions, NGINX Plus sets the session identifier to the value of the $upstream_cookie_JSESSIONID variable, which captures the JSESSIONID cookie sent by the WebLogic application server. When checking for existing sessions, it uses the JSESSIONID cookie sent by the client (the $cookie_JSESSIONID variable) as the session identifier.

      Both parameters can be specified more than once (each time with a different variable), in which case NGINX Plus uses the first non‑empty variable for each one.

    • The zone argument creates a shared memory zone for storing information about sessions. The amount of memory allocated – here, 1 MB – determines how many sessions can be stored at a time (the number varies by platform). The name assigned to the zone – here, client_sessions –must be unique for each sticky directive.

For more information on session persistence, see the NGINX Plus Admin Guide.

Configuring Application Health Checks

Health checks are out‑of‑band HTTP requests sent to a server at fixed intervals. They are used to determine whether a server is responsive and functioning correctly, without requiring an actual request from a client.

Because the health_check directive is placed in the location block, we can enable different health checks for each application.

  1. In the location block that matches HTTPS requests in which the path starts with /weblogic-app/ (created in Configuring Basic Load Balancing), add the health_check directive.

    Here we configure NGINX Plus to send an out‑of‑band request for the URI /benefits to each of the servers in the weblogic upstream group every 5 seconds (the default frequency). If a server does not respond correctly, it is marked down and NGINX Plus stops sending requests to it until it passes a subsequent health check. We include the match parameter to the health_check directive to define a nondefault set of health‑check tests.

    # in the 'server' block for HTTPS traffic
    location /weblogic-app/ {
    proxy_pass http://weblogic;
    proxy_cache backcache;
    health_check uri=/benefits match=health_check;
    }
  2. In the http context, include a match directive to define the tests that a server must pass to be considered functional. In this example, it must return status code 200, the Content-Type response header must be text/html, and the response body must match the indicated regular expression.

    # in the 'http' block
    match health_check {
    status 200;
    header Content-Type = text/html;
    body ~ "Welcome To Dizzyworld";
    }
  3. In the weblogic upstream group, include the zone directive to define a shared memory zone that stores the group’s configuration and run‑time state, which are shared among worker processes.

    # in the 'http' block
    upstream weblogic {
    zone weblogic 64k;
    server 192.168.25.33:7001;
    server 192.168.25.69:7001;
    # ...
    }

NGINX Plus also has a slow‑start feature that is a useful auxiliary to health checks. When a failed server recovers, or a new server is added to the upstream group, NGINX Plus slowly ramps up the traffic to it over a defined period of time. This gives the server time to “warm up” without being overwhelmed by more connections than it can handle as it starts up. For more information, see the NGINX Plus Admin Guide.

For example, to set a slow‑start period of 30 seconds for your WebLogic Server application servers, include the slow_start parameter to their server directives:

# in the 'upstream' block
server 192.168.25.33:7001 slow_start=30s;
server 192.168.25.69:7001 slow_start=30s;

For information about customizing health checks, see the NGINX Plus Admin Guide.

Configuring Content Cache Purging

NGINX Plus has an API for managing the cache. You can, for example, purge items with a particular key from the cache when you know they are stale, even if they’re not actually expired. This can be configured using the proxy_cache_purge directive. The following sample configuration combines the proxy_cache_purge and map directives to enable use of the HTTP PURGE method to delete cached content with a specified key:

# in the 'http' block
proxy_cache_path /tmp/NGINX_cache/ keys_zone=backcache:10m;

map $request_method $purge_method {
PURGE 1;
default 0;
}

# in the 'server' block for HTTPS traffic
location /weblogic-app/ {
proxy_cache backcache;
proxy_pass http://weblogic;
proxy_cache_purge $purge_method;
}

With this configuration in place, from any HTTP client you can clear the cache for a particular key. The following sample curl command shows how to use the API to send an HTTP PURGE request to the NGINX server that hosts www.example.com. The example further illustrates how you can purge an entire set of resources that have a common URL stem, by appending the asterisk (*) wildcard to the URL.

$ curl -X PURGE -D – "http://www.example.com/*"
HTTP/1.1 204 No Content
Server: nginx/1.5.12
Date: Sat, 03 May 2014 16:33:04 GMT
Connection: keep-alive

For more complete information about NGINX and NGINX Plus’ caching capabilities, see the NGINX Plus Admin Guide.

Enabling Live Activity Monitoring

NGINX Plus includes a Status module for live activity monitoring that tracks key load and performance metrics in real time. The module includes a built‑in dashboard that graphically displays the statistics, along with a RESTful JSON API that makes it very easy to feed the data to a custom or third‑party monitoring tool. These instructions show how to configure NGINX to enable the Status module and display the dashboard.

For more information about live activity monitoring, see the NGINX Plus Admin Guide.

The quickest way to configure the module and the built‑in NGINX Plus dashboard is to download the sample configuration file from the NGINX, Inc. website and modify it as necessary. For more complete instructions, see Live Activity Monitoring of NGINX Plus in 3 Simple Steps.

  1. Download the status.conf file to the NGINX Plus server:

    # cd /etc/nginx/conf.d
    # curl https://www.nginx.com/resource/conf/status.conf > status.conf
  2. Customize the file for your deployment as specified by comments in the file. In particular, the default settings in the file allow anyone on any network to access the dashboard. We strongly recommend that you restrict access to the dashboard with one or more of the following methods:

    • IP address‑based access control lists (ACLs). In the sample configuration file, uncomment the allow and deny directives, and substitute the address of your administrative network for 10.0.0.0/8. Only users on the specified network can access the dashboard.

      allow 10.0.0.0/8;
      deny all;
    • HTTP basic authentication. In the sample configuration file, uncomment the auth_basic and auth_basic_user_file directives and add user entries to the /etc/nginx/users file (for example, by using an htpasswd generator). If you have an Apache installation, another option is to reuse an existing htpasswd file.

      auth_basic on;
      auth_basic_user_file /etc/nginx/users;
    • Client certificates, which are part of a complete configuration of SSL or TLS. For more information, see the NGINX Plus Admin Guide and the documentation for the HTTP SSL module.

    • Firewall. Configure your firewall to disallow outside access to the port for the dashboard (8080 in the sample configuration file).

  3. In each upstream group that you want to monitor, include the zone directive to define a shared memory zone that stores the group’s configuration and run‑time state, which are shared among worker processes.

    For example, to monitor your WebLogic Server application servers, add the zone directive to the weblogic upstream group (if you followed the instructions in Configuring Application Health Checks, you already made this change).

    # in the 'http' block
    upstream weblogic {
    zone weblogic 64k;
    server 192.168.25.33:7001;
    server 192.168.25.69:7001;
    # ...
    }
  4. In the server block for HTTPS traffic (created in Configuring Virtual Servers for HTTP and HTTPS Traffic), add the status_zone directive:

    # in the 'server' block for HTTPS traffic
    status_zone weblogic-ssl;

When you reload the NGINX Plus configuration file, for example by running the nginx –s reload command, the NGINX Plus dashboard is available immediately at http://nginx-server-address:8080.

Enabling On‑the‑Fly Reconfiguration of Upstream Groups

With NGINX Plus, you can reconfigure load‑balanced server groups on‑the‑fly using the Domain Name System (DNS) or a simple HTTP API. For a detailed discussion, see the NGINX Plus Admin Guide and Dynamic Reconfiguration with NGINX Plus.

To enable on‑the‑fly reconfiguration of your upstream group of WebLogic Server app servers using the API:

  1. Include the zone directive in the weblogic upstream group to create a shared memory zone that stores the group’s configuration and run‑time state, which are shared among worker processes. (If you followed the instructions in Configuring Application Health Checks or Enabling Live Activity Monitoring, you already made this change.)

    # in the 'http' block
    upstream weblogic {
    zone weblogic 64k;
    server 192.168.25.33:7001;
    server 192.168.25.69:7001;
    # ...
    }
  2. In the server block for HTTPS traffic (created in Configuring Virtual Servers for HTTP and HTTPS Traffic), add a new location block for the on‑the‑fly reconfiguration API. It contains the upstream_conf directive (upstream_conf is also the conventional name for the location, as used here).

    We strongly recommend that you restrict access to the location so that only authorized administrators can access the reconfiguration API. The allow and deny directives in the following example permit access only from the localhost address (127.0.0.1).

    # in the 'server' block for HTTPS traffic
    location /upstream_conf {
    upstream_conf;

    allow 127.0.0.1;
    deny all;
    }

Full Configuration for Enhanced Load Balancing

The full configuration for enhanced load balancing appears here for your convenience. It goes in the http context. The complete file is available for download from the NGINX, Inc. website.

We recommend that you do not copy text directly from this document, but instead use the method described in Creating and Modifying Configuration Files to include these directives in your configuration – add an include directive to the http context of the main nginx.conf file to read in the contents of /etc/nginx/conf.d/weblogic-enhanced.conf.

proxy_cache_path /tmp/NGINX_cache/ keys_zone=backcache:10m;

# WebSocket configuration
map $http_upgrade $connection_upgrade {
default upgrade;
'' close;
}

# Map the PURGE method to the request method, for cache purging
map $request_method $purge_method {
PURGE 1;
default 0;
}

# Application health checks
match health_check {
status 200;
header Content-Type = text/html;
body ~ "Welcome To Dizzyworld";
}

upstream weblogic {
# Shared memory zone for application health checks, live activity monitoring,
# and on-the-fly reconfiguration
zone weblogic 64k;

# List of WebLogic application servers
server 192.168.25.33:7001 slow_start=30s;
server 192.168.25.69:7001 slow_start=30s;

# Session persistence based on JSESSIONID
sticky learn create=$upstream_cookie_JSESSIONID
lookup=$cookie_JSESSIONID
zone=client_sessions:1m;
}

server {
listen 80;
server_name example.com;

# Required for live activity monitoring of HTTP traffic
status_zone weblogic;

# Redirect all HTTP requests to HTTPS
location / {
return 301 https://$server_name$request_uri;
}
}

server {
listen 443 ssl http2;
server_name example.com;

# Required for live activity monitoring of HTTPS traffic
status_zone weblogic-ssl;

ssl_certificate /etc/nginx/ssl/certificate-name;
ssl_certificate_key /etc/nginx/ssl/private-key;

ssl_session_cache shared:SSL:1m;
ssl_prefer_server_ciphers on;

# Load balance requests to /weblogic-app/ among WebLogic Server application servers
location /weblogic-app/ {
proxy_pass http://weblogic;
proxy_cache backcache;

# Enable purging of the content cache
proxy_cache_purge $purge_method;

# Active health checks
health_check uri=/benefits match=health_check;
}

# Return a 302 redirect to the /weblogic-app/ directory when user requests '/'
location = / {
return 302 /weblogic-app/;
}

# WebSocket configuration
location /wstunnel/ {
proxy_pass http://weblogic;
proxy_http_version 1.1;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection $connection_upgrade;
}

# Secured access to the on-the-fly reconfiguration API
location /upstream_conf {
upstream_conf;

allow 127.0.0.1; # permit access from localhost
deny all; # deny access from everywhere else
}
}

Summary

NGINX and NGINX Plus can both be used to effectively load balance WebLogic Server application servers, and NGINX Plus provides enhanced features to help you better manage and monitor your WebLogic Server environment. For further information about NGINX and NGINX Plus, please see the following:

Revision History

  • Version 3 (April 2017) – Update about HTTP/2 support (NGINX Plus R11 and later)
  • Version 2 (January 2016) – Update about HTTP/2 support (NGINX Plus R8, NGINX 1.9.9)
  • Version 1 (December 2015) – Initial version (NGINX Plus R7, NGINX 1.9.5)