.. Copyright (c) 2016 IBM Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ====================== Layer 7 Load Balancing ====================== What is L7 load balancing? ========================== Layer 7 load balancing takes its name from the OSI model, indicating that the load balancer distributes requests to back-end pools based on layer 7 (application) data. Layer 7 load balancing is also known as "request switching," "application load balancing," "content based routing," "content based switching," and "content based balancing." A layer 7 load balancer consists of a listener that accepts requests on behalf of a number of back-end pools and distributes those requests based on policies that use application data to determine which pools should service any given request. This allows for the application infrastructure to be specifically tuned/optimized to serve specific types of content. For example, one group of back-end servers (pool) can be tuned to serve only images, another for execution of server-side scripting languages like PHP and ASP, and another for static content such as HTML, CSS, and JavaScript. Unlike lower-level load balancing, layer 7 load balancing does not require that all pools behind the load balancing service have the same content. In fact, it is generally expected that a layer 7 load balancer expects the back-end servers from different pools will have different content. Layer 7 load balancers are capable of directing requests based on URI, host, HTTP headers, and other data in the application message. L7 load balancing in Octavia ---------------------------- The layer 7 load balancing capabilities described in this document were added to Neutron LBaaS and Octavia in the Mitaka release cycle (Octavia 0.8). While layer 7 load balancing in general can theoretically be done for any well-defined layer 7 application interface, for the purposes of Octavia, L7 functionality refers only to the HTTP protocol and its semantics. How does it work? ================= Neutron LBaaS and Octavia accomplish the logic of layer 7 load balancing through the use of L7 Rules and L7 Policies. An L7 Rule is a single, simple logical test which evaluates to true or false. An L7 Policy is a collection of L7 rules, as well as a defined action that should be taken if all the rules associated with the policy match. These concepts and their specific details are expanded upon below. L7 Rules -------- An L7 Rule is a single, simple logical test which returns either true or false. It consists of a rule type, a comparison type, a value, and an optional key that gets used depending on the rule type. An L7 rule must always be associated with an L7 policy. See also: :doc:`../api/octaviaapi` Rule types __________ L7 rules have the following types: * ``HOST_NAME``: The rule does a comparison between the HTTP/1.1 hostname in the request against the value parameter in the rule. * ``PATH``: The rule compares the path portion of the HTTP URI against the value parameter in the rule. * ``FILE_TYPE``: The rule compares the last portion of the URI against the value parameter in the rule. (eg. "txt", "jpg", etc.) * ``HEADER``: The rule looks for a header defined in the key parameter and compares it against the value parameter in the rule. * ``COOKIE``: The rule looks for a cookie named by the key parameter and compares it against the value parameter in the rule. Comparison types ________________ L7 rules of a given type always do comparisons. The types of comparisons we support are listed below. Note that not all rule types support all comparison types: * ``REGEX``: Perl type regular expression matching * ``STARTS_WITH``: String starts with * ``ENDS_WITH``: String ends with * ``CONTAINS``: String contains * ``EQUAL_TO``: String is equal to Invert ______ In order to more fully express the logic required by some policies, rules may have their result inverted. That is to say, if the invert parameter of a given rule is true, the result of its comparison will be inverted. (For example, an inverted "equal to" rule effectively becomes a "not equal to", and an inverted "regex" rule returns true only if the given regex does not match.) L7 Policies ----------- An L7 Policy is a collection of L7 rules associated with a Listener, and which 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. See also: :doc:`../api/octaviaapi` Policy Logic ____________ Policy logic is very simple: All the rules associated with a given policy are logically ANDed together. A request must match all the policy's rules to match the policy. If you need to express a logical OR operation between rules, then do this by creating multiple policies with the same action (or, possibly, by making a more elaborate regular expression). Policy Actions ______________ If an L7 policy matches a given request, then that policy's action is executed. The following are the actions an L7 Policy may take: * ``REJECT``: The request is denied with an appropriate response code, and not forwarded on to any back-end pool. * ``REDIRECT_TO_URL``: The request is sent an HTTP redirect to the URL defined in the ``redirect_url`` parameter. * ``REDIRECT_TO_POOL``: The request is forwarded to the back-end pool associated with the L7 policy. Policy Position _______________ When multiple L7 Policies are associated with a listener, then the policies' ``position`` parameter becomes important. The ``position`` parameter is used when determining the order in which L7 policies are evaluated. Here are a few notes about how policy position affects listener behavior: * In the reference implementation (haproxy amphorae) of Octavia, haproxy enforces the following ordering regarding policy actions: * ``REJECT`` policies take precedence over all other policies. * ``REDIRECT_TO_URL`` policies take precedence over ``REDIRECT_TO_POOL`` policies. * ``REDIRECT_TO_POOL`` policies are only evaluated after all of the above, and in the order specified by the ``position`` of the policy. * L7 Policies are evaluated in a specific order (as defined by the ``position`` attribute), and the first policy that matches a given request will be the one whose action is followed. * If no policy matches a given request, then the request is routed to the listener's default pool ,if it exists. If the listener has no default pool, then an error 503 is returned. * Policy position numbering starts with 1. * If a new policy is created with a position that matches that of an existing policy, then the new policy is inserted at the given position. * If a new policy is created without specifying a position, or specifying a position that is greater than the number of policies already in the list, the new policy will just be appended to the list. * When policies are inserted, deleted, or appended to the list, the policy position values are re-ordered from 1 without skipping numbers. For example, if policy A, B, and C have position values of 1, 2 and 3 respectively, if you delete policy B from the list, policy C's position becomes 2. L7 usage examples ================= For a cookbook of common L7 usage examples, please see the :doc:`l7-cookbook` Useful links ============ * :doc:`../api/octaviaapi` * https://github.com/openstack/neutron-specs/blob/master/specs/mitaka/lbaas-l7-rules.rst * http://cbonte.github.io/haproxy-dconv/1.6/configuration.html#7