6. Flow Performance Tool
Application for rte_flow performance testing. The application provides the ability to test insertion rate of specific rte_flow rule, by stressing it to the NIC, and calculates the insertion and deletion rates.
The application allows to configure which rule to apply through several options of the command line.
After that the application will start producing rules with same pattern but increasing the outer IP source address by 1 each time, thus it will give different flow each time, and all other items will have open masks.
To assess the rule insertion rate, the flow performance tool breaks down the entire number of flow rule operations into windows of fixed size (defaults to 100000 flow rule operations per window, but can be configured). Then, the flow performance tool measures the total time per window and computes an average time across all windows.
The application also provides the ability to measure rte flow deletion rate, in addition to memory consumption before and after the flow rules’ creation.
The app supports single and multi core performance measurements.
6.1. Known Limitations
The current version has limitations which can be removed in future:
- Single core insertion only.
6.2. Compiling the Application
The test-flow-perf
application is compiled as part of the main compilation
of the DPDK libraries and tools.
Refer to the DPDK Getting Started Guides for details.
6.3. Running the Application
6.3.1. EAL Command-line Options
Please refer to EAL parameters (Linux) or EAL parameters (FreeBSD) for a list of available EAL command-line options.
6.3.2. Flow Performance Options
The following are the command-line options for the flow performance application.
They must be separated from the EAL options, shown in the previous section,
with a --
separator:
sudo ./dpdk-test-flow_perf -n 4 -a 08:00.0 -- --ingress --ether --ipv4 --queue --rules-count=1000000
The command line options are:
--help
Display a help message and quit.--rules-count=N
Set the total number of flow rules to insert, where 1 <= N <= “number of flow rules”. The default value is 4,000,000.--rules-batch=N
Set the number of flow rules to insert per iteration window, where 1 <= N <= “number of flow rules per iteration window”. The default value is 100,000 flow rules per iteration window. For a total of –rules-count=1000000 flow rules to be inserted and an iteration window size of –rules-batch=100000 flow rules, the application will measure the insertion rate 10 times (i.e., once every 100000 flow rules) and then report an average insertion rate across the 10 measurements.--dump-iterations
Print rates for each iteration window. Default iteration window equals to the rules-batch size (i.e., 100,000).--deletion-rate
Enable deletion rate calculations.--dump-socket-mem
Dump the memory stats for each socket before the insertion and after.--enable-fwd
Enable packets forwarding after insertion/deletion operations.--portmask=N
hexadecimal bitmask of ports to be used.
Attributes:
--ingress
Set Ingress attribute to all flows attributes.--egress
Set Egress attribute to all flows attributes.--transfer
Set Transfer attribute to all flows attributes.--group=N
Set group for all flows, where N >= 0. Default group is 0.
Items:
--ether
Add Ether item to all flows items, This item have open mask.--vlan
Add VLAN item to all flows items, This item have VLAN value defined in user_parameters.h underVNI_VALUE
with full mask, default value = 1. Other fields are open mask.--ipv4
Add IPv4 item to all flows items, This item have incremental source IP, with full mask. Other fields are open mask.--ipv6
Add IPv6 item to all flows item, This item have incremental source IP, with full mask. Other fields are open mask.--tcp
Add TCP item to all flows items, This item have open mask.--udp
Add UDP item to all flows items, This item have open mask.--vxlan
Add VXLAN item to all flows items, This item have VNI value defined in user_parameters.h underVNI_VALUE
with full mask, default value = 1. Other fields are open mask.--vxlan-gpe
Add VXLAN-GPE item to all flows items, This item have VNI value defined in user_parameters.h underVNI_VALUE
with full mask, default value = 1. Other fields are open mask.--gre
Add GRE item to all flows items, This item have protocol value defined in user_parameters.h underGRE_PROTO
with full mask, default protocol = 0x6558 “Ether” Other fields are open mask.--geneve
Add GENEVE item to all flows items, This item have VNI value defined in user_parameters.h underVNI_VALUE
with full mask, default value = 1. Other fields are open mask.--gtp
Add GTP item to all flows items, This item have TEID value defined in user_parameters.h underTEID_VALUE
with full mask, default value = 1. Other fields are open mask.--meta
Add Meta item to all flows items, This item have data value defined in user_parameters.h underMETA_DATA
with full mask, default value = 1. Other fields are open mask.--tag
Add Tag item to all flows items, This item have data value defined in user_parameters.h underMETA_DATA
with full mask, default value = 1.Also it have tag value defined in user_parameters.h under
TAG_INDEX
with full mask, default value = 0. Other fields are open mask.--icmpv4
Add icmpv4 item to all flows items, This item have open mask.--icmpv6
Add icmpv6 item to all flows items, This item have open mask.
Actions:
--port-id
Add port redirection action to all flows actions. Port redirection destination is defined in user_parameters.h under PORT_ID_DST, default value = 1.--rss
Add RSS action to all flows actions, The queues in RSS action will be all queues configured in the app.--queue
Add queue action to all flows items, The queue will change in round robin state for each flow.- For example:
The app running with 4 RX queues Flow #0: queue index 0 Flow #1: queue index 1 Flow #2: queue index 2 Flow #3: queue index 3 Flow #4: queue index 0 …
--jump
Add jump action to all flows actions. Jump action destination is defined in user_parameters.h underJUMP_ACTION_TABLE
, default value = 2.--mark
Add mark action to all flows actions. Mark action id is defined in user_parameters.h underMARK_ID
, default value = 1.--count
Add count action to all flows actions.--set-meta
Add set-meta action to all flows actions. Meta data is defined in user_parameters.h underMETA_DATA
with full mask, default value = 1.--set-tag
Add set-tag action to all flows actions. Meta data is defined in user_parameters.h underMETA_DATA
with full mask, default value = 1.Tag index is defined in user_parameters.h under
TAG_INDEX
with full mask, default value = 0.--drop
Add drop action to all flows actions.--hairpin-queue=N
Add hairpin queue action to all flows actions. The queue will change in round robin state for each flow.- For example:
The app running with 4 RX hairpin queues and 4 normal RX queues Flow #0: queue index 4 Flow #1: queue index 5 Flow #2: queue index 6 Flow #3: queue index 7 Flow #4: queue index 4 …
--hairpin-rss=N
Add hairpin RSS action to all flows actions. The queues in RSS action will be all hairpin queues configured in the app.--set-src-mac
Add set source mac action to all flows actions. The mac to be set is random each flow.--set-dst-mac
Add set destination mac action to all flows actions. The mac to be set is random each flow.-set-src-ipv4
Add set source ipv4 action to all flows actions. The ipv4 header to be set is random each flow.--set-dst-ipv4
Add set destination ipv4 action to all flows actions. The ipv4 header to be set is random each flow.--set-src-ipv6
Add set source ipv6 action to all flows actions. The ipv6 header to be set is random each flow.--set-dst-ipv6
Add set destination ipv6 action to all flows actions. The ipv6 header to be set is random each flow.--set-src-tp
Add set source tp action to all flows actions. The tp sport header to be set is random each flow.--set-dst-tp
Add set destination tp action to all flows actions. The tp dport header to be set is random each flow.--inc-tcp-ack
Add increment TCP acknowledgment by one to all flows actions.--dec-tcp-ack
Add decrement TCP acknowledgment by one to all flows actions.--inc-tcp-seq
Add increment TCP sequence by one to all flows actions.--dec-tcp-seq
Add decrement TCP sequence by one to all flows actions.--set-ttl
Add set IP ttl action to all flows actions. The ttl value to be set is random each flow.--dec-ttl
Add decrement IP ttl by one to all flows actions.--set-ipv4-dscp
Add set IPv4 dscp action to all flows actions. The dscp value to be is random each flow.--set-ipv6-dscp
Add set IPv6 dscp action to all flows actions. The dscp value to be is random each flow.--flag
Add flag action to all flows actions.--raw-encap=<DATA>
Add raw encap action to all flows actions. Data is the data needed to be encaped, with fixed values. Example: raw-encap=ether,ipv4,udp,vxlan--raw-decap=<DATA>
Add raw decap action to all flows actions. Data is the data needed to be decaped, with fixed values. Example: raw-decap=ether,ipv4,gre--vxlan-encap
Add vxlan encap action to all flows actions. Data to encap is fixed with pattern: ether,ipv4,udp,vxlan, all encapped items have fixed values.--vxlan-decap
Add vxlan decap action to all flows actions.