Intercepting Web Requests

This chapter contains the following sections:

Overview of Intercepting Web Requests

The Web Security appliance intercepts requests that are forwarded to it by clients or other devices over the network.

The appliance works in conjunction with other network devices to intercept traffic. These may be ordinary switches, transparent redirection devices network taps,and other proxy servers or Web Security appliances.

Tasks for Intercepting Web Requests

Steps

Task

Links to Related Topics and Procedures

Step 1

Review best practices.

Step 2

(Optional) Perform follow up networking tasks:

  • Connect and configure upstream proxies.
  • Configure network interface ports.
  • Configure transparent redirection devices.
  • Configure TCP/IP routes.
  • Configure VLANs.

Step 3

(Optional) Perform follow up Web Proxy tasks:

  • Configure the web proxy to operate in either Forward or Transparent mode.
  • Decide if additional services are needed for the protocol types you want to intercept
  • Configure IP spoofing.
  • Manage the web proxy cache.
  • Use custom web request headers.
  • Bypass the proxy for some requests.

Step 4

Perform client tasks:

  • Decide how clients should redirect requests to the web proxy.
  • Configure clients and client resources.

Step 5

(Optional) Enable and Configure the FTP proxy.

Best Practices for Intercepting Web Requests

  • Enable only the proxy services you require.
  • Use the same forwarding and return method (either L2 or GRE) for all WCCP services defined in the Web Security appliance. This allows the proxy bypass list to work consistently.
  • Ensure that users cannot access PAC files from outside the corporate network. This allows your mobile workers to use the web proxy when they are on the corporate network and to connect directly to web servers at other times.
  • Allow a web proxy to accept X-Forwarded-For headers from trustworthy downstream proxies or load balancers only.
  • Leave the web proxy in the default transparent mode, even if initially using only explicit forwarding. Transparent mode also accepts explicitly forwarded requests.

Web Proxy Options for Intercepting Web Requests

By itself, the Web Proxy can intercept web requests that use HTTP (including FTP over HTTP) and HTTPS. Additional proxy modules are available to enhance protocol management:

  • FTP Proxy. The FTP Proxy allows the interception of native FTP traffic (rather than just FTP traffic that has been encoded within HTTP).
  • HTTPS Proxy. The HTTPS proxy supports the decryption of HTTPS traffic and allows the web proxy to pass unencrypted HTTPS requests on to policies for content analysis.

Note

When in transparent mode, the Web Proxy drops all transparently redirected HTTPS requests if the HTTPS proxy is not enabled. No log entries are created for dropped transparently redirected HTTPS requests.
  • SOCKS Proxy. The SOCKS proxy allows the interception of SOCKS traffic.

Each of these additional proxies requires the Web Proxy in order to function.You cannot enable them if you disable the Web Proxy.


Note

The Web proxy is enabled by default. All other proxies are disabled by default.

Related Topics

Configuring Web Proxy Settings

Before you begin

Enable the web proxy.

Procedure


Step 1

Choose Security Services > Web Proxy.

Step 2

Click Edit Settings.

Step 3

Configure the basic web proxy settings as required.

Property

Description

HTTP Ports to Proxy

The ports that the web Proxy will listen on for HTTP connections

Caching

Specifies whether to enable or disable Web Proxy caching.

The web proxy caches data to increase performance.

Proxy mode

  • Forward — Allow the client browser to name the internet target. Requires individual configuration of each web browser to use the web proxy. The web proxy can intercept only explicitly forwarded web requests in this mode.
  • Transparent (Recommended) — Allow the web proxy to name the internet target. The web proxy can intercept both transparent and explicitly forwarded web requests in this mode.

IP Spoofing

  • IP Spoofing disabled — The web proxy changes the request source IP address to match its own address to increase security.
  • IP Spoofing enabled — The web proxy retains the source address so that it appears to originate from the source client rather than from the Web Security appliance.
Step 4

Complete the advanced web proxy settings as required.

Property

Description

Persistent Connection Timeout

The maximum time in seconds the web proxy keeps open a connection to a client or server after a transaction has been completed and no further activity is detected.

  • Client side. The timeout value for connections to clients.
  • Server side. The timeout value for connections to servers.

If you increase these values connections will remain open longer and reduce the overhead used to open and close connections repeatedly. However, you also reduce the ability of the Web Proxy to open new connections if the maximum number of simultaneous persistent connections has been reached.

Cisco recommends keeping the default values.

In-Use Connection Timeout

The maximum time in seconds that the web proxy waits for more data from an idle client or server when the current transaction has not yet been completed.

  • Client side. The timeout value for connections to clients.
  • Server side. The timeout value for connections to servers.

Simultaneous Persistent Connections (Server Maximum Number)

The maximum number of connections (sockets) the Web Proxy keeps open with servers.

Generate Headers

Generate and add headers that encode information about the request.

  • X-Forwarded-For headers encode the IP address of the client from which an HTTP request originated.

    Note 

    To turn header forwarding on or off, use the CLI advancedproxyconfig command, Miscellaneous option, “Do you want to pass HTTP X-Forwarded-For headers?”

    Using an explicit forward upstream proxy to manage user authentication or access control with proxy authentication requires forwarding of these headers.

  • Request Side VIA headers encode the proxies through which the request passed on its way from the client to the server.
  • Response Side VIA headers encode the proxies through which the request passed on its way from the server to the client.

Use Received Headers

Allows a Web proxy deployed as an upstream proxy to identify clients using X-Forwarded-For headers send by downstream proxies. The Web Proxy will not accept the IP address in a X-Forwarded-For header from a source that is not included in this list.

If enabled, requires the IP address of a downstream proxy or load balancer (you cannot enter subnets or host names).

Range Request Forwarding

Use the Enable Range Request Forwarding checkbox to enable or disable forwarding of range requests. Refer to Managing Access to Web Applications for more information.

Step 5

Submit and commit your changes.


What to do next

Web Proxy Cache

The web proxy caches data to increase performance. AsyncOS includes defined caching modes that range from safe to aggressive, and also allows customized caching. You can also exclude specific URLs from being cached, either by removing them from the cache, or by configuring the cache to ignore them.

Clearing the Web Proxy Cache

Procedure

Step 1

Choose Security Services > Web Proxy.

Step 2

Click Clear Cache and confirm your action.


Removing URLs from the Web Proxy Cache

Procedure

Step 1

Access the CLI.

Step 2

Use the webcache > evict commands to access the required caching area:


example.com> webcache
Choose the operation you want to perform:
- EVICT - Remove URL from the cache
- DESCRIBE - Describe URL cache status
- IGNORE - Configure domains and URLs never to be cached
[]> evict
Enter the URL to be removed from the cache.
[]>
Step 3

Enter the URL to be removed from the cache.

Note 

If you do not include a protocol in the URL, http:// will be prepended to it (e.g., www.cisco.com will become http://www.cisco.com )


Specifying Domains or URLs that the Web Proxy never Caches

Procedure

Step 1

Access the CLI.

Step 2

Use the webcache -> ignore commands to access the required submenus:


example.com> webcache
Choose the operation you want to perform:
- EVICT - Remove URL from the cache
- DESCRIBE - Describe URL cache status
- IGNORE - Configure domains and URLs never to be cached
[]> ignore
Choose the operation you want to perform:
- DOMAINS - Manage domains
- URLS - Manage urls
[]>
Step 3

Enter the address type you wish to manage: DOMAINS or URLS.


[]> urls
Manage url entries:
Choose the operation you want to perform:
- DELETE - Delete entries
- ADD - Add new entries
- LIST - List entries
[]>
Step 4

Enter add to add new entries:


[]> add
Enter new url values; one on each line; an empty line to finish
[]>
Step 5

Enter domains or URLs, one per line; for example:


Enter new url values; one on each line; an empty line to finish
[]> www.example1.com
Enter new url values; one on each line; an empty line to finish
[]>

You can include certain regular expression (regex) characters when specifying a domain or URLs. With the DOMAINS option, you can use a preceding dot character to exempt an entire domain and its subdomains from caching. For example, you can enter .google.com rather than simply google.com to exempt www.google.com, docs.google.com, and so on.

With the URLS option, you can use the full suite of regular-expression characters. See Regular Expressions for more information about using regular expressions.

Step 6

When you are finished entering values, press Enter until you are returned to the main command-line interface.

Step 7

Commit your changes.


Choosing The Web Proxy Cache Mode

Procedure

Step 1

Access the CLI.

Step 2

Use the advancedproxyconfig -> caching commands to access the required submenus:


example.com> advancedproxyconfig
Choose a parameter group:
- AUTHENTICATION - Authentication related parameters
- CACHING - Proxy Caching related parameters
- DNS - DNS related parameters
- EUN - EUN related parameters
- NATIVEFTP - Native FTP related parameters
- FTPOVERHTTP - FTP Over HTTP related parameters
- HTTPS - HTTPS related parameters
- SCANNING - Scanning related parameters
- PROXYCONN - Proxy connection header related parameters
- CUSTOMHEADERS - Manage custom request headers for specific domains
- MISCELLANEOUS - Miscellaneous proxy related parameters
- SOCKS - SOCKS Proxy parameters
[]> caching
Enter values for the caching options:
The following predefined choices exist for configuring advanced caching
options:
1. Safe Mode
2. Optimized Mode
3. Aggressive Mode
4. Customized Mode
Please select from one of the above choices:
[2]>
Step 3

Enter a number corresponding to the web proxy cache settings you require:

Entry

Mode

Description

1

Safe

The least caching and the most adherence to RFC #2616 compared to the other modes.

2

Optimized

Moderate caching and moderate adherence to RFC #2616. Compared to safe mode, in optimized mode the Web Proxy caches objects when no caching time is specified when a Last-Modified header is present. The Web Proxy caches negative responses.

3

Aggressive

The most caching and the least adherence to RFC #2616. Compared to optimized mode, aggressive mode caches authenticated content, ETag mismatches, and content without a Last-Modified header. The Web Proxy ignores the no-cache parameter.

4

Customized mode

Configure each parameter individually.

Step 4

If you chose option 4 (Customized mode), enter values (or leave at the default values) for each of the custom settings.

Step 5

Press Enter until you return to the main command interface.

Step 6

Commit your changes.


What to do next

Related Topics

Web Proxy IP Spoofing

When the web proxy forwards a request, it changes the request source IP address to match its own address by default. This increases security, but you can change this behavior by implementing IP spoofing, so that requests retain their source address and appear to originate from the source client rather than from the Web Security appliance.

IP spoofing works for transparent and explicitly forwarded traffic. When the Web Proxy is deployed in transparent mode, you have the choice to enable IP spoofing for transparently redirected connections only or for all connections (transparently redirected and explicitly forwarded). If explicitly forwarded connections use IP spoofing, you should ensure that you have appropriate network devices to route return packets back to the Web Security appliance.

When IP spoofing is enabled and the appliance is connected to a WCCP router, you must configure two WCCP services: one based on source ports and one based on destination ports.

Related Topics

Web Proxy Custom Headers

You can add custom headers to specific outgoing transactions to request special handling from destination servers. For example, if you have a relationship with YouTube for Schools, you can use a custom header to identify transaction requests to YouTube.com as coming from your network and as requiring special handling.

Adding Custom Headers To Web Requests

Procedure

Step 1

Access the CLI.

Step 2

Use the advancedproxyconfig -> customheaders commands to access the required submenus:


example.com> advancedproxyconfig
Choose a parameter group:
- AUTHENTICATION - Authentication related parameters
- CACHING - Proxy Caching related parameters
- DNS - DNS related parameters
- EUN - EUN related parameters
- NATIVEFTP - Native FTP related parameters
- FTPOVERHTTP - FTP Over HTTP related parameters
- HTTPS - HTTPS related parameters
- SCANNING - Scanning related parameters
- PROXYCONN - Proxy connection header related parameters
- CUSTOMHEADERS - Manage custom request headers for specific domains
- MISCELLANEOUS - Miscellaneous proxy related parameters
- SOCKS - SOCKS Proxy parameters
[]> customheaders
Currently defined custom headers:
Choose the operation you want to perform:
- DELETE - Delete entries
- NEW - Add new entries
- EDIT - Edit entries
[]>
Step 3

Enter the required subcommand as follows:

Option

Description

Delete

Deletes the custom header you identify. Identify the header to delete using the number associated with the header in the list returned by the command.

New

Creates the header you provide for use with the domain or domains you specify.

Example header:

X-YouTube-Edu-Filter: ABCD1234567890abcdef

(The value in this case is a unique key provided by YouTube.)

Example domain:

youtube.com

Edit

Replaces an existing header with one you specify. Identify the header to delete using the number associated with the header in the list returned by the command.

Step 4

Press Enter until you return to the main command interface.

Step 5

Commit your changes.


Web Proxy Bypassing

Web Proxy Bypassing for Web Requests

You can configure the Web Security appliance so that transparent requests from particular clients, or to particular destinations, bypass the Web Proxy.

Bypassing the web proxy allows you to:

  • Prevent interference with non-HTTP-compliant (or proprietary) protocols that use HTTP ports but do not work properly when they connect to a proxy server.
  • Ensure that traffic from a particular machine inside the network, such as a malware test machine, bypasses the Web Proxy and all its built-in security protection.

Bypassing only works for requests that are transparently redirected to the web proxy. The web proxy processes all requests that clients explicitly forward to it, whether the proxy is in transparent or forward mode.

Configuring Web Proxy Bypassing for Web Requests

Procedure

Step 1

Choose Web Security Manager > Bypass Settings.

Step 2

Click Edit Bypass Settings.

Step 3

Enter the addresses for which you wish to bypass the web proxy.

Step 4

Submit and commit your changes.


Configuring Web Proxy Bypassing for Applications

Procedure

Step 1

Choose Web Security Manager > Bypass Settings.

Step 2

Click Edit Application Bypass Settings.

Step 3

Select the application(s) you wish to bypass scanning for.

Step 4

Submit and commit your changes.


Web Proxy Usage Agreement

You can configure the Web Security appliance to inform users that it is filtering and monitoring their web activity. The appliance does this by displaying an end-user acknowledgment page when a user first accesses a browser after a certain period of time. When the end-user acknowledgment page appears, users must click a link to access the original site requested or any other website.

Related Topics

Client Options for Redirecting Web Requests

If you choose to have clients explicitly forward requests to the web proxy, you must also decide how to configure the clients to do this. Choose from the following methods:

  • Configure Clients Using Explicit Settings. Configure clients with the web proxy hostname and port number. See individual client documentation for details on how to do this.

Note

The web proxy port uses port numbers 80 and 3128 by default. Clients can use either port.
  • Configure Clients Using a Proxy Auto-Config (PAC) File. PAC files provide clients with instructions on where to direct web requests. This options allows you to centrally manage subsequent changes to the proxy details.

If you choose to use PAC files, you must also choose where to store them and how clients will find them.

Related Topics

Using PAC Files with Client Applications

Options For Publishing Proxy Auto-Config (PAC) Files

You must publish PAC files where clients can access them. Valid locations are:

  • Web servers.
  • Web Security appliances. You can place PAC files on a Web Security appliance, which appears to clients as a web browser. The appliance also offers additional options to manage PAC files, including the ability to service requests that use different hostnames, ports, and file names.
  • Local machines. You can place the PAC file locally on a client’s hard disk. Cisco does not recommend this as a general solution, and it is not suited to automatic PAC file detection methods, but it can be useful for testing.
Related Topics

Client Options For Finding Proxy Auto-Config (PAC) Files

If you choose to use PAC files for your clients, you must also choose how clients will find the PAC files. You have two options:

  • Configure client with the PAC file location. Configure the client with a URL that specifically points to the PAC file.
  • Configure clients to detect the PAC file location automatically. Configure clients to find PAC files automatically using the WPAD protocol along with DHCP or DNS.

Automatic PAC File Detection

WPAD is a protocol that allows the browser determine the location of a PAC file using DHCP and DNS.

  • To use WPAD with DHCP, you must set up option 252 on the DHCP server’s with the url of the PAC file location. Not all browsers support DHCP, however.
  • To use WPAD with DNS, you must configure a DNS record to point to the PAC file’s host server.

You can configure either or both options. WPAD will first try to find PAC files using DHCP, and if it cannot, it will then try DNS.

Related Topics

Hosting PAC Files on the Web Security Appliance

Procedure


Step 1

Choose Security Services > PAC File Hosting

Step 2

Click Enable and Edit Settings.

Step 3

(Optional) Complete the following basic settings:

Option

Description

PAC Server Ports

The ports that the Web Security appliance will use to listen for PAC file requests.

PAC File Expiration

Allows the PAC file to expire after a specified number of minutes in the browser’s cache.

Step 4

Click Browse in the PAC Files section and select a PAC file from your local machine for upload to the Web Security appliance.

Note 
If the file you select is called default.pac , you do not have to specify the file name when configuring its location in a browser. The Web Security appliance looks for a file called default.pac if no name is specified.
Step 5

Click Upload to upload the PAC file selected in step 4 to the Web Security appliance.

Step 6

(Optional) In the Hostnames for Serving PAC Files Directly section, configure hostnames and associated file names for PAC file requests that do not include a port number:

Option

Description

Hostname

The hostname that the PAC file request must include if the Web Security appliance is to service the request. As the request does not include a port number, it will be processed through the Web Proxy HTTP ports (e.g. port 80) and must be distinguishable as a PAC file request through this hostnamevalue.

Default PAC File for "Get/" Request through Proxy Port

The PAC file name that will be associated with the hostname on the same row. Request to the hostname will return the PAC file specified here.

Only PAC files that have been uploaded are available for selection.

Add Row

Adds another row to specify additional hostnames and PAC file names.

Step 7

Submit and commit your changes.


Specifying PAC Files in Client Applications

Configuring a PAC File Location Manually in Clients

Procedure

Step 1

Create and publish a PAC file.

Step 2

Enter a URL in your browser’s PAC file configuration area that points to the PAC file location.

The following are valid URL formats if the Web Security appliance is hosting the PAC file:

http://server_address[.domain][:port][/filename] | http://WSAHostname[/filename]

where WSAHostname is the hostname value configured when hosting the PAC file on a Web Security appliance. Otherwise the URL format will depend on the storage location and, in some cases, on the client.


What to do next

Detecting the PAC File Automatically in Clients

Procedure

Step 1

Create a PAC file called wpad.dat and publish it to a web server or Web Security appliance (the file must be placed in a web server’s root folder if you intend using WPAD with DNS).

Step 2

Configure the web server to set up .dat files with the following MIME type:

application/x-ns-proxy-autoconfig

Note 

A Web Security appliance does this for you automatically.

Step 3

To support DNS lookup, create an internally resolvable DNS name beginning with ‘ wpad ’ (for example, wpad.example.com ) and associate it with the IP address of the server hosting the wpad.dat file.

Step 4

To support DHCP lookup, configure your DHCP server’s option 252 with the url of the wpad.dat file location (for example: “ http://wpad.example.com/wpad.dat ”). The URL can use any valid host address, including an IP address, and does not require a specific DNS entry.


What to do next

FTP Proxy Services

Overview of FTP Proxy Services

The web proxy can intercept two types of FTP requests:

  • Native FTP. Native FTP requests are generated by dedicated FTP clients (or by browsers using built-in FTP clients). Requires the FTP proxy.
  • FTP over HTTP. Browsers sometimes encode FTP requests inside HTTP requests, rather than using native FTP. Does not require the FTP proxy.
Related Topics

Enabling and Configuring the FTP Proxy


Note

To configure proxy settings that apply to FTP over HTTP connections, see Configuring Web Proxy Settings.

Procedure


Step 1

Choose Security Services > FTP Proxy.

Step 2

Click Enable and Edit Settings (if the only available option is Edit Settings then the FTP proxy is already enabled).

Step 3

(Optional) Configure the basic FTP Proxy settings.

Property

Description

Proxy Listening Port

The port that the FTP Proxy will listen to for FTP control connections. Clients should use this port when configuring an FTP proxy (not as the port for connecting to FTP servers, which normally use port 21).

Caching

Whether of not data connections from anonymous users are cached.

Note 
Data from non-anonymous users is never cached.

Server Side IP Spoofing

Allows the FTP Proxy to imitate the FTP server’s IP address. This supports FTP clients that do not allow transactions when the IP address is different for the control and data connections.

Authentication Format

Allows a choice of authentication format the FTP Proxy can use when communicating with FTP clients.

Passive Mode Data Port Range

The range of TCP ports that FTP clients should use to establish a data connection with the FTP Proxy for passive mode connections.

Active Mode Data Port Range

The range of TCP ports FTP servers should use to establish a data connection with the FTP Proxy for active mode connections. This setting applies to both native FTP and FTP over HTTP connections.

Increasing the port range accommodates more requests from the same FTP server. Because of the TCP session TIME-WAIT delay (usually a few minutes), a port does not become available again for the same FTP server immediately after being used. As a result, any given FTP server cannot connect to the FTP Proxy in active mode more than n times in a short period of time, where n is the number of ports specified in this field.

Welcome Banner

The welcome banner that appears in FTP clients during connection. Choose from:

  • FTP server message. The message will be provided by the destination FTP server. This option is only available when the web proxy is configured for transparent mode, and only applies for transparent connections.
  • Custom message. When selected, this custom message is displayed for all native FTP connections. When not selected, this is still used for explicit forward native FTP connections.
Step 4

(Optional) Configure the advanced FTP Proxy settings:

Property

Description

Control Connection Timeouts

The maximum number of seconds the FTP Proxy waits for more communication in the control connection from an idle FTP client or FTP server when the current transaction has not been completed.

  • Client side. The timeout value for control connections to idle FTP clients.
  • Server side. The timeout value for control connections to idle FTP servers.

Data Connection Timeouts

How long the FTP Proxy waits for more communication in the data connection from an idle FTP client or FTP server when the current transaction has not been completed.

  • Client side. The timeout value for data connections to idle FTP clients.
  • Server side. The timeout value for data connections to idle FTP servers.
Step 5

Submit and commit your changes.


What to do next

SOCKS Proxy Services

Overview of SOCKS Proxy Services

The Web Security appliance includes a SOCKS proxy to process SOCKS traffic. SOCKS policies are the equivalent of access policies that control SOCKS traffic. Similar to access policies, you can make use of Identification Profiles to specify which transactions are governed by each SOCKS policy. Once SOCKS policies are applied to transactions, routing policies can then govern routing of the traffic.

Note the following regarding the SOCKS proxy:

  • The SOCKS protocol only supports direct forward connections.
  • The SOCKS proxy does not support (will not forward to) upstream proxies.
  • The SOCKS proxy does not support scanning services, which are used by Application Visibility and Control (AVC), Data Loss Prevention (DLP), and malware detection.
  • The SOCKS proxy does not support policy tracing.
  • The SOCKS proxy does not decrypt SSL traffic; it tunnels from client to server.

Enabling Processing of SOCKS Traffic

Before you begin

Enable the Web Proxy.

Procedure


Step 1

Choose Security Services > SOCKS Proxy.

Step 2

Click Edit Settings.

Step 3

Select Enable SOCKS Proxy.

Step 4

Submit and Commit Changes.


Configuring the SOCKS Proxy

Procedure


Step 1

Choose Security Services > SOCKS Proxy.

Step 2

Click Edit Settings.

Step 3

Select Enable SOCKS Proxy.

Step 4

Configure the basic and advanced SOCKS Proxy settings.

SOCKS Proxy

Enabled.

SOCKS Control Ports

Ports that accept SOCKS requests. Default is 1080.

UDP Request Ports

UDP ports on which the SOCKS server should listen. Default is 16000-16100.

Proxy Negotiation Timeout

Time to wait (in seconds) to send or receive data from a SOCKS client in the negotiation phase. Default is 60.

UDP Tunnel Timeout

Time to wait (in seconds) for data from a UDP client or server before closing the UDP tunnel. Default is 60.


Creating SOCKS Policies

Procedure


Step 1

Choose Web Security Manager > SOCKS Policies.

Step 2

Click Add Policy.

Step 3

Assign a name in the Policy Name field.

Note 
Each policy group name must be unique and only contain alphanumeric characters or the space character.
Step 4

(Optional) Add a description.

Step 5

In the Insert Above Policy field, choose where in the SOCKS policies table to insert this SOCKS policy.

Note 
When configuring multiple SOCKS policies, determine a logical order for each policy. Order your policies to ensure that correct matching occurs.
Step 6

In the Identities and Users section, choose one or more Identities to apply to this policy group.

Step 7

(Optional) Expand the Advanced section to define additional membership requirements.

Proxy Ports

The port configured in the browser.

(Optional) Define policy group membership by the proxy port used to access the Web Proxy. Enter one or more port numbers in the Proxy Ports field. Separate multiple ports with commas.

You might want to define policy group membership on the proxy port if you have one set of clients configured to explicitly forward requests on one port, and another set of clients configured to explicitly forward requests on a different port.

Note 
If the Identity associated with this policy group defines Identity membership by this advanced setting, the setting is not configurable at the SOCKS policy group level.

Subnets

(Optional) Define policy group membership by subnet or other addresses.

You can choose to use the addresses that may be defined with the associated Identity, or you can enter specific addresses here.

Note 
If the Identity associated with this policy group defines its membership by addresses, then in this policy group you must enter addresses that are a subset of the Identity’s addresses. Adding addresses in the policy group further narrows down the list of transactions that match this policy group.

Time Range

(Optional) Define policy group membership by time range:

  1. Select a time range from the Time Range field.
  2. Specify whether this policy group should apply to the times inside or outside the selected time range.
Step 8

Submit and Commit Changes.


What to do next

  • (Optional) Add an Identity for use with SOCKS Policies.
  • Add one or more SOCKS Policies to manage SOCKS traffic.