OVS CLI Enhancements
PicOS OVS cli has some enhancements from version 2.7.1.
List ovs running configuration
From PicOS2.7.1 OVS add a new command to display the current configuration by traversing the ovsdb tables. The command is:
ovs-vsctl show-running-configÂ
admin@PicOS-OVS$ovs-vsctl show-running-config Open_vSwitch c645ee8a-34d5-4c64-a3dc-0c1a20f3c26e  Bridge "br0"    datapath_id: "1c48cc37ab254bc1"    datapath_type: "pica8"    Port "ge-1/1/19"      Interface "ge-1/1/19"        type: "pica8"      tag: 1      vlan_mode: trunk    Port "br0"      Interface "br0"        mtu: 1500        type: internal  Pica8 ecafe6f4-97ac-407b-b4df-c871b5cd9561    hardware_type: "as4610_54t" admin@PicOS-OVS$
Show ovs-vsctl commands
From PicOS3.2.0, OVS add one command to show the configurations in ovsdb through ovs-vsctl command.
ovs-vsctl display-settings
admin@PICOS-OVS:~$ ovs-vsctl display-settings ovs-vsctl add-br br0 ovs-vsctl add-port br0 ge-1/1/1 ovs-vsctl set port ge-1/1/1 vlan_mode=trunk tag=1 ovs-vsctl set interface ge-1/1/1 options=link_speed=100M ovs-vsctl add-port br0 ge-1/1/2 ovs-vsctl set port ge-1/1/2 vlan_mode=trunk tag=1 ovs-vsctl set interface ge-1/1/2 options=mtu=1500 ovs-vsctl set-group-ranges ecmp-select-groups=1-100 ovs-vsctl set-match-mode ip=1-1000,ipv6_full=1001-2000
List System Resources Usage
From PicOS2.7.1 OVS add two commands to display current system resources usage and interfaces.
When we show system resources usage, the current mode is cared, such as match-mode, udf-mode, L2-mode, L3-mode, combinate-mode and egress-mode.
The commands are:
        ovs-appctl pica/show tables
        ovs-appctl pica/show interfaces
admin@PicOS-OVS$ovs-appctl pica/show tables Pica Tables Statistics: Pica Tables Max Limitation Current Used ----------------------------------------------------------------------- ICAP Table 2046 9 ECAP Table (null) (null) VCAP Table 1024 0 L2 System Table (null) (null) L2 FDB Table (null) (null) L3 Host Table (null) (null) L3 Route Table (null) (null) UDF Table (null) (null) admin@PicOS-OVS$ admin@PicOS-OVS$ admin@PicOS-OVS$ovs-appctl pica/show interfaces Valid Interfaces On Switch P3290: Physical interfaces: ge-1/1/1(1) ge-1/1/2(2) ge-1/1/3(3) ge-1/1/4(4) ge-1/1/5(5) ge-1/1/6(6) ge-1/1/7(7) ge-1/1/8(8) ge-1/1/9(9) ge-1/1/10(10) ge-1/1/11(11) ge-1/1/12(12) ge-1/1/13(13) ge-1/1/14(14) ge-1/1/15(15) ge-1/1/16(16) ge-1/1/17(17) ge-1/1/18(18) ge-1/1/19(19) ge-1/1/20(20) ge-1/1/21(21) ge-1/1/22(22) ge-1/1/23(23) ge-1/1/24(24) ge-1/1/25(25) ge-1/1/26(26) ge-1/1/27(27) ge-1/1/28(28) ge-1/1/29(29) ge-1/1/30(30) ge-1/1/31(31) ge-1/1/32(32) ge-1/1/33(33) ge-1/1/34(34) ge-1/1/35(35) ge-1/1/36(36) ge-1/1/37(37) ge-1/1/38(38) ge-1/1/39(39) ge-1/1/40(40) ge-1/1/41(41) ge-1/1/42(42) ge-1/1/43(43) ge-1/1/44(44) ge-1/1/45(45) ge-1/1/46(46) ge-1/1/47(47) ge-1/1/48(48) te-1/1/49(49) te-1/1/50(50) te-1/1/51(51) te-1/1/52(52) LAG interfaces: ae1(1025) - ae1023(2047) Bond interfaces: bond1(2049) - bond1023(3071) GRE interfaces: gre1(3073) - gre1023(4095) VXLAN interfaces: vxlan1(4097) - vxlan1023(5119) L2GRE interfaces: l2gre1(5121) - l2gre1023(6143) admin@PicOS-OVS$
Associate sw-flow with hw-flow
From PicOS2.7.1, when a new flow entry is added, a unique 64bit flow-id is assigned to it. The flow-id can be used by ovs-ofctl and ovs-appctl to filter the flow entries and associate sw-flow with hw-flow.
The commands are:
ovs-ofctl dump-flows br0 [flow_id=n]
ovs-appctl pica/dump-flows [flow_id=n]
Example 1:
root@PicOS-OVS$ovs-ofctl add-flow br0 priority=200,in_port=1,actions=2 root@PicOS-OVS$ovs-ofctl add-flow br0 priority=124,in_port=1,ip,nw_src=10.10.10.10,actions=4 root@PicOS-OVS$ovs-ofctl dump-flows br0 OFPST_FLOW reply (OF1.4) (xid=0x2):  cookie=0x0, duration=36.591s, flow_id=1, table=0, n_packets=n/a, n_bytes=0, priority=200,in_port=1 actions=output:2  cookie=0x0, duration=6.393s, flow_id=2, table=0, n_packets=n/a, n_bytes=0, priority=124,ip,in_port=1,nw_src=10.10.10.10 actions=output:4 root@PicOS-OVS$ovs-appctl pica/dump-flows #4 normal permanent flow_id=1, priority=124,recirc_id=0,ip,in_port=1,nw_src=10.10.10.10, actions:2 #3 normal permanent flow_id=1, priority=200,recirc_id=0,in_port=1, actions:2 #0 normal_d permanent priority=0,recirc_id=0, actions:drop Total 3 flows in HW.
From the above example, if two flow entries in table 0 don’t have the exact same match and priority, but the match of sw-flow which has higher priority can cover another sw-flow’s match, then two hw-flows with the same flow-id of sw-flow which has the higher priority will be installed.
Example 2:
root@PicOS-OVS$ovs-ofctl add-flow br0 priority=200,in_port=1,actions=goto_table:1 root@PicOS-OVS$ovs-ofctl add-flow br0 table=1,priority=101,in_port=1,ip,nw_src=10.10.10.11,actions=2 root@PicOS-OVS$ovs-ofctl add-flow br0 table=1,priority=102,ip,nw_src=10.10.10.12,actions=goto_table:2 root@PicOS-OVS$ovs-ofctl add-flow br0 table=2,priority=123,dl_dst=00:11:22:33:44:55,actions=3Â root@PicOS-OVS$ root@PicOS-OVS$ovs-ofctl dump-flows br0 OFPST_FLOW reply (OF1.4) (xid=0x2): Â cookie=0x0, duration=184.078s, flow_id=1, table=0, n_packets=n/a, n_bytes=0, priority=200,in_port=1 actions=goto_table:1 Â cookie=0x0, duration=49.800s, flow_id=2, table=1, n_packets=n/a, n_bytes=0, priority=102,ip,nw_src=10.10.10.12 actions=goto_table:2 Â cookie=0x0, duration=107.575s, flow_id=3, table=1, n_packets=n/a, n_bytes=0, priority=101,ip,in_port=1,nw_src=10.10.10.11 actions=output:2 Â cookie=0x0, duration=7.991s, flow_id=4, table=2, n_packets=n/a, n_bytes=0, priority=123,dl_dst=00:11:22:33:44:55 actions=output:3 root@PicOS-OVS$ovs-appctl pica/dump-flows #6 normal permanent flow_id=1, priority=201,recirc_id=0,ip,in_port=1,dl_dst=00:11:22:33:44:55,nw_src=10.10.10.12, actions:3 #5 normal permanent flow_id=1, priority=200,recirc_id=0,ip,in_port=1,nw_src=10.10.10.11, actions:2 #0 normal_d permanent priority=0,recirc_id=0, actions:drop Total 3 flows in HW.
If a flow entry in table 0 has goto action, then the flow-id will be applied to all hw-flows generated by it. Only the flow-id's of sw-flows in first table are cared now.
Display dpid in both hex and decimal
From PicOS2.7.1, when the status of bridge is shown, we add decimal numbers for dpid to display.
admin@PicOS-OVS$ovs-ofctl show br0 OFPT_FEATURES_REPLY (OF1.4) (xid=0x2): dpid:0x1c48cc37ab254bc1(2038103370851765185) n_tables:254, n_buffers:256 capabilities: FLOW_STATS TABLE_STATS PORT_STATS GROUP_STATS OFPST_PORT_DESC reply (OF1.4) (xid=0x3): Â 13(ge-1/1/13): addr:cc:37:ab:25:4b:c1 Â Â Â Â config:Â Â Â Â 0 Â Â Â Â state:Â Â Â Â Â LINK_UP Â Â Â Â current:Â Â Â 100MB-FD COPPER AUTO_NEG Â Â Â Â advertised: 10MB-FD 100MB-FD 1GB-FD COPPER AUTO_NEG Â Â Â Â supported:Â 10MB-FD 100MB-FD 1GB-FD COPPER AUTO_NEG Â Â Â Â peer:Â Â Â Â Â Â 10MB-HD 10MB-FD 100MB-HD 100MB-FD COPPER Â Â Â Â speed: 100 Mbps now, 1000 Mbps max LOCAL(br0): addr:cc:37:ab:25:4b:c1 Â Â Â Â config:Â Â Â Â 0 Â Â Â Â state:Â Â Â Â Â LINK_UP Â Â Â Â current:Â Â Â 10MB-FD COPPER Â Â Â Â supported:Â 10MB-FD COPPER Â Â Â Â speed: 10 Mbps now, 10 Mbps max OFPT_GET_CONFIG_REPLY (OF1.4) (xid=0x5): frags=normal miss_send_len=0
List Interface Details
From PicOS2.7.1, a command is added to display the details of a specific interface or all interfaces in the bridge. A corresponding openflow multipart message should be added by using multipart experimenter type, the controller can then get these statistics as well.
The command is:
ovs-ofctl dump-interfaces <bridge> [interface]
Example:
Add the following flow:
admin@PicOS-OVS$ovs-ofctl add-flow br0 in_port=13,actions=15
No packets:
admin@PicOS-OVS$ovs-ofctl dump-interfaces br0 ge-1/1/15   PXST_INTERFACE_STATS reply (OF1.4) (xid=0x4): 1 interfaces  ge-1/1/15(port 15):     Traffic statistics:        Input Packets............................0        Output Packets...........................0        Input Octets.............................0        Output Octets............................0
Port 13 send unicast packets to match the flow and check:
admin@PicOS-OVS$ovs-ofctl dump-interfaces br0 ge-1/1/13 PXST_INTERFACE_STATS reply (OF1.4) (xid=0x4): 1 interfaces  ge-1/1/13(port 13):     Traffic statistics:        Input Packets............................3013397        Output Packets...........................0        Input Octets.............................771429632        Output Octets............................0     Transmit:        Unicast packets........................0        Multicast packets......................0        Broadcast packets......................0        Packets 64 Octets......................0        Packets 65-127 Octets..................0        Packets 128-255 Octets.................0        Packets 256-511 Octets.................0        Packets 512-1023 Octets................0        Packets 1024-1518 Octets...............0        Oversize Packets.......................0        Total Packets Without Errors...........0        Discarded Packets......................0        Total Packets With Errors..............0        Single Collision Frames................0        Multiple Collision Frames..............0        Deferred Frames........................0        Late Collisions........................0        Excessive Collisions...................0        Pause Frames...........................0     Receive:        Unicast packets........................3013393        Multicast packets......................0        Broadcast packets......................0        Packets 64 Octets......................0        Packets 65-127 Octets..................0        Packets 128-255 Octets.................0        Packets 256-511 Octets.................3013396        Packets 512-1023 Octets................0        Packets 1024-1518 Octets...............0        Oversize Packets.......................0        Total Packets Without Errors...........3013397        Discarded Packets......................0        Total Packets With Errors..............0        Alignment Errors.......................0        FCS Errors.............................0        Collisions.............................0        Pause Frames...........................0
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