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F5 LBaaSv2 L7 Content Switching

Overview

L7 content switching takes its name from layer 7 of the OSI Model, also called the application layer. [1] As the name implies, L7 content switching decisions are based on the application data, or content, of request traffic as it passes through the virtual server. Via the API, you can define actions to be taken when certain content conditions are met. See the OpenStack Neutron LBaaS Layer 7 rules documentation for more information.

[1]https://wiki.openstack.org/wiki/Neutron/LBaaS/l7

Neutron LBaaSv2 API L7 Policies and Rules

In Neutron an L7 Policy is a collection of L7 rules associated with a Listener; it may also have an association to a back-end pool. Policies describe actions that should be taken by the load balancing software if all of the rules in the policy return true or match.

Policy Actions:

Valid L7 policy actions are one of:

REJECT – The request is blocked and a TCP connection reset is sent to the client. The HTTP request is not forwarded to a backend pool.

REDIRECT_TO_POOL – The request is forwarded to a member in the redirect pool.

REDIRECT_TO_URL – The request is forward to the URL specified in the redirect URL.

Policy Rule Type:

An L7 Rule is a single, simple logical test that returns either true or false. An L7 rule has a type, a comparison type, a value, and an optional key that is used for certain rule types. Valid rule types are defined by the following operands:

HOST_NAME – The rule does a comparison to the hostname in the HTTP ‘Host’ header with the specified value parameter.

PATH – The rule compares the HTTP URI path to the specified value parameter

FILE_TYPE – The rule compares the file extension of the HTTP URI with the specified rule value (e.g. ‘pdf’, ‘jpg’, etc.

HEADER – The rule compares an HTTP header in the request, as specified by the key parameter, with the value specified in the rule.

COOKIE – The rule searches for the cookie, as specified by the key parameter, and compares it to the rule’s value.

Policy Rule Comparison Type:

In addition to a rule type there are five comparison types that are applied to the rule’s operand and compared with the rule value to determine if a match exists.

STARTS_WITH – operand starts with string

ENDS_WITH – operand ends with string

EQUAL_TO – operand matches the string

CONTAINS – operand contains a substring value

REGEX – operand matches the provided regular expression. (currently not supported)

Neutron Policy Logic:

All the rules in an L7 policy must match before the associated action is executed. So if a policy has a set of rules: R1, R2, … Rn, and an action, A, then the following logic holds:

If (R1 and R2 and … Rn ) then A

Policy rules can also be negated by using the –invert parameter when specifying the rules. For example, the comparison type, EQUAL_TO can be transformed to NOT_EQUAL_TO, by specifying –invert.

L7 policies are ranked by a position value and are evaluated according to their rank. The first policy that evaluates to true is executed and all subsequent policies are skipped. Given a set of n policies, where policy Pn has a rank n and an action An, the following logic holds:

If (P1) then A1

Else if (P2) then A2

Else if (Pn) then An

Else:

Send request to default pool

OpenStack Policy/Rules Definition Versus BIG-IP® Policy/Rules:

The Neutron L7 terminology does not directly align with the common vocabulary of BIG-IP Local Traffic Manager. In the BIG-IP LTM, policies also have a set of rules, but it is the rules that specify actions and not the policy. Also, policies attached to a virtual server on the BIG-IP are all evaluated regardless of the truth of the associated rules. In addition to this difference the BIG-IP policies have no ordinal, it is the BIG-IP rules that have this attribute. Because of these confusing differences it is useful to attempt to define the terms as they apply to each domain.

Neutron LBaaS L7 BIG-IP® Local Traffic Manager
Policy Policy Rules (wrapper_policy)
Policy Action Rule Action
Policy Position Rule Ordinal
Rule Rule Conditions

The BIG-IP LTM policy has a name, description, a set of rules, and a strategy on how those rules are evaluated. In fact, L7 policies in OpenStack are more akin to a collection BIG-IP LTM policy rules that are evaluated with the ‘First match’ strategy.

The BIG-IP LTM rules have conditions, actions, and an ordinal and would need to be created based on the L7 policy and rule attributes.

Neutron LBaaSv2 API L7 Rules Implementation:

A combination of L7Policy and L7Rule elements will be mapped to TMOS traffic policies and in the case of specific L7Rule compare_types, iRules.

The major reasons to implement LBaaS L7 Rules in TMOS traffic policies, instead of a pure iRule implementation, are:

Performance, all L7 Rule types map directly to TMOS traffic policy match conditions:

L7 Rule Type TMOS Traffic Policy Match Condition
Hostname HTTP Host
Path HTTP URI + path
FileType HTTP URI + extension
Header HTTP Header
Cookie HTTP Cookie

The LBaaS L7 Rules requirement that ‘the first L7Policy that returns a match will be executed’ directly maps to TMOS traffic policy execution strategy ‘first-match’.

Four of the five L7Rule compare_type values directly map to TMOS traffic policy rule conditions:

L7 Rule Compare Type L7 ‘–invert’ Specified TMOS Traffic Policy Rule Match Condition
STARTS_WITH No Begins with
STARTS_WITH Yes Does not begin with
ENDS_WITH No Ends with
ENDS_WITH Yes Does not end with
EQUAL_TO No Is
EQUAL_TO Yes Is not
CONTAINS No Contains
CONTAINS Yes Does not contain
REGEX X No direct mapping

All L7Policy actions map directly to TMOS traffic policy rule actions:

L7 Policy Action TMOS Traffic Policy Rule Action
Reject Reset traffic
RedirectToUrl Redirect
RedirectToPool Forward traffic to pool

Prerequisites

Caveats

  • The REGEX comparison type is not supported in this release.

Configuration

  1. It’s not necessary to make any agent configuration changes. Rather, L7 switching policy and rule definitions are made when creating or updating a listener, as shown in the example below from the OpenStack documentation.

  2. CLI Example (copied from the Neutron L7 feature page linked above):

    # Create a listener
    neutron lbaas-listener-create --name listener1 --protocol HTTP --protocol-port 8080 --loadbalancer lb1
    # Create a pool
    neutron lbaas-pool-create --name pool1 --listener listener1 --protocol HTTP --lb-algorithm ROUND_ROBIN
    # Create a policy
    neutron lbaas-l7policy-create --name policy1 --listener listener1 --action REDIRECT_TO_POOL --redirect-pool pool1 --position 1
    # Create a rule for this policy
    # Once the below operation has completed, a new policy will exist on the device called 'wrapper_policy'.
    # It will have a single rule called redirect_to_pool_1.
    # A single condition and a single action will exist.
    neutron lbaas-l7rule-create --type PATH --compare-type CONTAINS --value "i_t" policy1
    # Create a second rule for the above policy
    neutron lbaas-l7rule-create --type COOKIE --compare-type ENDS_WITH --key "cky" --value "i" --invert-compare policy1
    
    # The resulting BIG-IP® LTM Policy configuration from the steps above.
    ltm policy wrapper_policy {
        controls { forwarding }
        last-modified 2016-12-05:09:19:05
        partition Project_9065d69e806a4b4894a47fed7484a006
        requires { http }
        rules {
            reject_1 {
                actions {
                    0 {
                        forward
                        reset
                    }
                }
                conditions {
                    0 {
                        http-uri
                        path
                        contains
                        values { i_t }
                    }
                    1 {
                        http-cookie
                        name cky
                        ends-with
                        values { i }
                    }
                }
                ordinal 1
            }
        }
        status legacy
        strategy /Common/first-match
    }
    

Further Reading

See also

See the links below for further reading.