MPP for Third-Party Applications

MPP for Third-Party Applications (TPA) provides a mechanism for securing management traffic on the router. Without MPP for Third-Party Applications, if the service is enabled, the Cisco IOS XR allows the service traffic to pass through any interface with a network address.


Note


Only the following variants of the Cisco NCS 540 routers support the Traffic Protection for Third-Party Applications:

  • N540-ACC-SYS

  • N540X-ACC-SYS (Premium)

  • N540-24Z8Q2C-M

  • N540-28Z4C-SYS


MPP for TPA enables to filter the traffic of TPA component. The addition of gRPC component controls the management protocol traffic and supports the management protocols for the TPA. It also helps to control the gRPC application and filter the gRPC traffic through MPP configuration.

MPP for Third-Party Applications helps in rate limiting or throttling the traffic through configuration with the help of LPTS. MPP for Third-Party Applications filters traffic based on the following tuples: address family, vrf, port, interface, local address and remote address.


Note


It is mandatory to configure address family, protocol, local port, and vrf, as well as at least one of interface or local or remote address.

It is mandatory to configure address family, protocol, local port, and vrf, as well as at least one of interface or local or remote address..


gRPC Protocol

Google-defined Remote Procedure Calls (gRPC) is an open-source RPC framework. It is based on Protocol Buffers (Protobuf), which is an open source binary serialization protocol. gRPC provides a flexible, efficient, automated mechanism for serializing structured data, like XML, but is smaller and simpler to use. The user needs to define the structure by defining protocol buffer message types in .proto files. Each protocol buffer message is a small logical record of information, containing a series of name-value pairs.

Cisco gRPC Interface Definition Language (IDL) uses a set of supported RPCs such as get-config, merge-config, replace-config, cli-config, delete-config, cli-show, get-models, action-json, commit, and commit-replace. gRPC server runs in Extensible Manageability Services Daemon (emsd) process. gRPC client can be on any machine.

gRPC encodes requests and responses in binary. gRPC is extensible to other content types along with Protobuf. The Protobuf binary data object in gRPC is transported over HTTP/2.


Note


It is recommended to configure TLS before enabling gRPC. Enabling gRPC protocol uses the default HTTP/2 transport with no TLS enabled on TCP. gRPC mandates AAA authentication and authorization for all gRPC requests. If TLS is not configured, the authentication credentials are transferred over the network unencrypted. Non-TLS mode can only be used in secure internal network.


gRPC supports distributed applications and services between a client and server. gRPC provides the infrastructure to build a device management service to exchange configuration and operational data between a client and a server. The structure of the data is defined by YANG models.

Limitations for Traffic Protection for Third-Party Applications

The following limitations are applicable for the Traffic Protection for Third-Party Applications:

  • If the TPA entry is configured with only the active RP management interface and redundancy switchover is performed, the gRPC connection fails.

Prerequisites for Traffic Protection for Third-Party Applications Over GRPC

Ensure that the gRPC is configured.

gRPC Configuration

Router(config)# grpc port port-number
Router(config)# grpc no-tls
Router(config-grpc)# commit

Running Configuration

Router# show running-config grpc

grpc port 57600
 no-tls
!

Configuring Traffic Protection for Third-Party Applications

The following task shows how to configure traffic protection for third-party applications


RP/0/0/CPU0:ios#configure
RP/0/0/CPU0:ios(config)#tpa
RP/0/0/CPU0:ios(config-tpa)#vrf default
RP/0/0/CPU0:ios(config-tpa-vrf)#address-family ipv4
RP/0/0/CPU0:ios(config-tpa-vrf-afi)#protection
RP/0/0/CPU0:ios(config-tpa-vrf-afi-prot)#allow protocol tcp local-port port-number remote-address IP remote address interface interface-name local-address IP local address

Running Configuration

Router# show running-config 
tpa
vrf default
address-family ipv4
protection
allow protocol tcp local-port 57600 remote-address 10.0.0.2/32 local-address 192.168.0.1/32
allow protocol tcp local-port 57600 remote-address 10.0.1.0/24 local-address 192.168.0.1/32
allow protocol tcp local-port 57600 remote-address 10.0.2.0/24 local-address 192.168.0.1/32
address-family ipv6
protection
allow protocol tcp local-port 57600 remote-address 2001:DB8::1/128 local-address 2001:DB8:0:ABCD::1/128
allow protocol tcp local-port 57600 remote-address 2001:DB8::2/128 local-address 2001:DB8:0:ABCD::1/128
allow protocol tcp local-port 57600 remote-address 2001:DB8::3/128 local-address 2001:DB8:0:ABCD::1/128
!
   !
  !
!

Troubleshooting Traffic Protection for Third-Party Applications

The following show command output verifies whether TPA is configured or not.

Router# show running-config grpc

grpc
 no-tls
!

The following show command output displays the TPA configuration.

Router# show running-config tpa


  tpa
   vrf default
    address-family ipv4
    allow local-port 57600 protocol tcp inter mgmtEth 0/RP0/CPU0/0 local-address 192.168.0.1/32 remote-address 10.0.0.2/32 
    !

gRPC Configuration without TPA

Router# show kim lpts database 

State:
 Prog - Programmed in hardware
 Cfg  - Configured, not yet programmed
 Ovr  - Not programmed, overridden by user configuration
 Intf - Not programmed, interface does not exist
 
Owner  AF Proto State       Interface      VRF          Local ip,port > Remote ip,port
------ -- ----- ----- -------------- ------------ ------------------------------
Linux   2     6          Prog                             global-vrf             any,57600  > any,0
Router# show lpts bindings brief | include TPA
 0/RP0/CPU0 TPA  LR IPV4 TCP    default   any          any,57600 any

gRPC Configuration with TPA

The following show command output displays the things that are configured in the LPTS database. It also checks if gRPC configuration is owned by Linux without using any filters.

Router# show kim lpts database

State:
 Prog - Programmed in hardware
 Cfg  - Configured, not yet programmed
 Ovr  - Not programmed, overridden by user configuration
 Intf - Not programmed, interface does not exist

Owner  AF Proto State Interface      VRF          Local ip,port > Remote ip,port
------ -- ----- ----- -------------- ------------ ------------------------------
Client  2     6 Prog                 default      192.168.0.1/32,57600  > 10.0.0.2/32,0
Linux   2     6 Ovr                  global-vrf   any,57600  > any,0
Router# show lpts bindings brief | include TPA

 0/RP0/CPU0 TPA  LR IPV4 TCP    default   Mg0/RP0/CPU0/0 192.168.0.1,57600 10.0.0.2
Router#
Router# 0/RP0/ADMIN0:Mar 19 15:22:26.837 IST: pm[2433]: %INFRA-Process_Manager-3-PROCESS_RESTART : Process tams (IID: 0) restarted