mrf
5 TopicsA Simple One-way Generic MRF Implementation to load balance syslog message
The BIG-IP Generic Message Protocol implements a protocol filter compatible with MRF (Message Routing Framework).MRF is designed to implement the most complex use cases, but it can be daunting if you need to create a simple configuration. This article provides a simple baseline to understand the relationships of the MRF components and how they can be combined for a simple one way implementation . A production implementation will in most case be more complex. The following virtual, profiles and iRules load balances a one way stream of new line delimited messages (in this case syslog) to a pool of message consumers. The messages will be parsed and distributed with a simple MLB protocol. Return traffic will not be returned to the client with this configuration. To implement this we will need these configuration objects: Virtual Server - Accepts incoming traffic and configure the Generic Protocol Generic Protocol - Defines message parsing. Generic Router - Configures message routing and point to the Generic Route Generic Route- Points to a Generic Peer Generic Peer - Defines an LTM pool members and points to the Generic Transport Config Generic Transport Config - Defines the server side protocol and server side irule iRule - Defines the message peers (Connections in the message streams) In this case we have a single client that is sending messages to a virtual server that will then be distributed to 3 pool members. Each message will be sent to one pool member only.This can only be configured from the CLI and the official F5 recommendation is to not make any changes in the web GUI to the virtual server. This was tested with BIG-IP 12.1.3.5 and 14.1.2.6. Here is the virtual with a tcp profile andrequiredprotocol and routing profiles along withan iRule to setup the connection peer on the client side. ltm virtual /Common/mrftest_simple { destination /Common/10.10.20.201:515 ip-protocol tcp mask 255.255.255.255 profiles { /Common/simple_syslog_protocol { } /Common/simple_syslog_router { } /Common/tcp { } } rules { /Common/mrf_simple } source 0.0.0.0/0 source-address-translation { type automap } translate-address enabled translate-port enabled } The first profile is the protocol. The only difference betweenthe default protocol (genericmsg) is the field no-response must be configured to yes if this is a one way stream. Otherwise the server side will allocate buffers for return traffic that will cause severe free memory depletion. ltm message-routing generic protocol simple_syslog_protocol { app-service none defaults-from genericmsg description none disable-parser no max-egress-buffer 32768 max-message-size 32768 message-terminator %0a no-response yes } The Generic Router profilepoints to a generic route ltm message-routing generic router simple_syslog_router { app-service none defaults-from messagerouter description none ignore-client-port no max-pending-bytes 23768 max-pending-messages 64 mirror disabled mirrored-message-sweeper-interval 1000 routes { simple_syslog_route } traffic-group traffic-group-1 use-local-connection yes } The Generic Route pointsto theGeneric Peer: ltm message-routing generic route simple_syslog_route { peers { simple_syslog_peer } } The Generic Peer configures the server pool and points to the Generic Transport Config. Note the pool is configured here instead of the more common configuration in the virtual server. ltm message-routing generic peer simple_syslog_peer { pool mrfpool transport-config simple_syslog_tcp_tc } The Generic Transport Config also has the Generic Protocol configured along with the iRule to setup the server side peers. ltm message-routing generic transport-config simple_syslog_tcp_tc { ip-protocol tcp profiles { simple_syslog_protocol { } tcp { } } rules { mrf_simple } } An iRule must be configured on both the Virtual Server and Generic Transport Config. This iRule must be linked as a profile in both the virtual server and generic transport configuration. ltm rule /Common/mrf_simple { when CLIENT_ACCEPTED { GENERICMESSAGE::peer name "[IP::local_addr]:[TCP::local_port]_[IP::remote_addr]:[TCP::remote_port]" } when SERVER_CONNECTED { GENERICMESSAGE::peer name "[IP::local_addr]:[TCP::local_port]_[IP::remote_addr]:[TCP::remote_port]" } } This example is from a user case where a single syslog client was load balanced to multiple syslog server pool members. Messages are parsed with the newline (0x0a) character as configured in the generic protocol, but this can easily be adapted to other message types.1.7KViews2likes2Comments