# # Vnswad configuration options # [CONTROL-NODE] # IP address to be used to connect to control-node. Maximum of 2 IP addresses # (separated by a space) can be provided. If no IP is configured then the # value provided by discovery service will be used. (Optional) # server = 10.0.0.1 10.0.0.2 [DEFAULT] # Everything in this section is optional # IP address and port to be used to connect to collector. If these are not # configured, value provided by discovery service will be used. Multiple # IP:port strings separated by space can be provided # collectors = 127.0.0.1:8086 # Agent mode : can be vrouter / tsn / tor (default is vrouter) {% if contrail_vrouter_mode is defined %}agent_mode = {{ contrail_vrouter_mode }} {% else %}# agent_mode = {% endif %} # Enable/disable debug logging. Possible values are 0 (disable) and 1 (enable) # debug = 0 # Aging time for flow-records in seconds # flow_cache_timeout = 0 # Hostname of compute-node. If this is not configured value from `hostname` # will be taken # hostname = # Http server port for inspecting vnswad state (useful for debugging) # http_server_port = 8085 # Category for logging. Default value is '*' # log_category = # Local log file name log_file = /var/log/contrail/contrail-vrouter-agent.log # Log severity levels. Possible values are SYS_EMERG, SYS_ALERT, SYS_CRIT, # SYS_ERR, SYS_WARN, SYS_NOTICE, SYS_INFO and SYS_DEBUG. Default is SYS_DEBUG log_level = SYS_NOTICE # Enable/Disable local file logging. Possible values are 0 (disable) and 1 (enable) log_local = 1 # Encapsulation type for tunnel. Possible values are MPLSoGRE, MPLSoUDP, VXLAN # tunnel_type = # Enable/Disable headless mode for agent. In headless mode agent retains last # known good configuration from control node when all control nodes are lost. # Possible values are true(enable) and false(disable) # headless_mode = # DHCP relay mode (true or false) to determine if a DHCP request in fabric # interface with an unconfigured IP should be relayed or not # dhcp_relay_mode = # DPDK or legacy work mode platform = default # Physical address of PCI used by dpdk physical_interface_address = # MAC address of device used by dpdk physical_interface_mac = {{ hostvars[inventory_hostname]['ansible_'+contrail_vhost_device]['macaddress'] }} [DISCOVERY] # If COLLECTOR and/or CONTROL-NODE and/or DNS is not specified this section is # mandatory. Else this section is optional # IP address of discovery server server = {{ contrail_haproxy_address }} # Number of control-nodes info to be provided by Discovery service. Possible # values are 1 and 2 max_control_nodes = {{ groups['controller'] | length }} [DNS] # IP address and port to be used to connect to dns-node. Maximum of 2 IP # addresses (separated by a space) can be provided. If no IP is configured then # the value provided by discovery service will be used. # server = 10.0.0.1:53 10.0.0.2:53 [HYPERVISOR] # Everything in this section is optional # Hypervisor type. Possible values are kvm, xen and vmware type = kvm vmware_mode = # Link-local IP address and prefix in ip/prefix_len format (for xen) # xen_ll_ip = # Link-local interface name when hypervisor type is Xen # xen_ll_interface = # Physical interface name when hypervisor type is vmware vmware_physical_interface = [FLOWS] # Everything in this section is optional # Maximum flows allowed per VM (given as % of maximum system flows) # max_vm_flows = 100 # Maximum number of link-local flows allowed across all VMs # max_system_linklocal_flows = 4096 # Maximum number of link-local flows allowed per VM # max_vm_linklocal_flows = 1024 [METADATA] # Shared secret for metadata proxy service (Optional) # metadata_proxy_secret = contrail [NETWORKS] # control-channel IP address used by WEB-UI to connect to vnswad to fetch # required information (Optional) control_network_ip = {{ contrail_haproxy_address }} [VIRTUAL-HOST-INTERFACE] # Everything in this section is mandatory # name of virtual host interface name = vhost0 # IP address and prefix in ip/prefix_len format ip = {{ contrail_vhost_address }}{{ lastip.stdout_lines[0] }}/{{ contrail_prefixlen }} # Gateway IP address for virtual host gateway = {{ contrail_vhost_gateway }} # Physical interface name to which virtual host interface maps to physical_interface = {{ contrail_vhost_device }} # We can have multiple gateway sections with different indices in the # following format # [GATEWAY-0] # Name of the routing_instance for which the gateway is being configured # routing_instance = default-domain:admin:public:public # Gateway interface name # interface = vgw # Virtual network ip blocks for which gateway service is required. Each IP # block is represented as ip/prefix. Multiple IP blocks are represented by # separating each with a space # ip_blocks = 1.1.1.1/24 # [GATEWAY-1] # Name of the routing_instance for which the gateway is being configured # routing_instance = default-domain:admin:public1:public1 # Gateway interface name # interface = vgw1 # Virtual network ip blocks for which gateway service is required. Each IP # block is represented as ip/prefix. Multiple IP blocks are represented by # separating each with a space # ip_blocks = 2.2.1.0/24 2.2.2.0/24 # Routes to be exported in routing_instance. Each route is represented as # ip/prefix. Multiple routes are represented by separating each with a space # routes = 10.10.10.1/24 11.11.11.1/24 [SERVICE-INSTANCE] # Path to the script which handles the netns commands netns_command = /usr/bin/opencontrail-vrouter-netns # Number of workers that will be used to start netns commands #netns_workers = 1 # Timeout for each netns command, when the timeout is reached, the netns # command is killed. #netns_timeout = 30