[dts] [PATCH V2] test_plans:add test plan about loadbalancer
changqingxwu
changqingx.wu at intel.com
Mon Mar 11 04:26:46 CET 2019
Signed-off-by: changqingxwu <changqingx.wu at intel.com>
---
test_plans/loadbalancer_test_plan.rst | 197 ++++++++++++++++++++++++++
1 file changed, 197 insertions(+)
create mode 100644 test_plans/loadbalancer_test_plan.rst
diff --git a/test_plans/loadbalancer_test_plan.rst b/test_plans/loadbalancer_test_plan.rst
new file mode 100644
index 0000000..0b14d56
--- /dev/null
+++ b/test_plans/loadbalancer_test_plan.rst
@@ -0,0 +1,197 @@
+.. Copyright (c) <2011>, Intel Corporation
+ All rights reserved.
+
+ Redistribution and use in source and binary forms, with or without
+ modification, are permitted provided that the following conditions
+ are met:
+
+ - Redistributions of source code must retain the above copyright
+ notice, this list of conditions and the following disclaimer.
+
+ - Redistributions in binary form must reproduce the above copyright
+ notice, this list of conditions and the following disclaimer in
+ the documentation and/or other materials provided with the
+ distribution.
+
+ - Neither the name of Intel Corporation nor the names of its
+ contributors may be used to endorse or promote products derived
+ from this software without specific prior written permission.
+
+ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+ "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+ LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
+ FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
+ COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
+ INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+ (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
+ HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
+ STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
+ ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
+ OF THE POSSIBILITY OF SUCH DAMAGE.
+
+=============
+Load Balancer
+=============
+
+This test case uses the Load Balancer sample application to benchmark the
+concept of isolating the packet I/O task from the application specific workload.
+A number of lcores are dedicated to handle the interaction with the NIC ports
+(I/O lcores), while the rest of the lcores are dedicated to performing the
+application processing (worker lcores). The worker lcores are totally oblivious
+to the intricacies of the packet I/O activity and use the NIC-agnostic interface
+provided by SW rings to exchange packets with the I/O cores.
+
+Prerequisites
+=============
+
+1. Hardware requirements
+
+- For each CPU socket, each memory channel should be populated with at least
+ 1x DIMM.
+- If the PCIe controller is on the CPU, then each CPU socket is populated with
+ the same number of NICs (2x or 4x NICs per CPU socket);
+- Special PCIe restrictions may be required for performance. For example, the
+ following requirements should be met for 10GbE NICs:
+
+ - NICs are plugged into PCIe Gen2 or Gen3 slots;
+ - For PCIe Gen2 slots, the number of lanes should be 8x or higher;
+ - A single port from each NIC card should be used, so for 4x ports, 4x NICs
+ should be connected to the traffic generator.
+
+2. BIOS requirements
+
+- Hyper-Threading Technology is ENABLED
+- Hardware Prefetcher is DISABLED
+- Adjacent Cache Line Prefetch is DISABLED
+- Direct Cache Access is DISABLED
+
+3. Linux kernel requirements
+
+- Linux kernel has the following features enabled: huge page support, UIO, HPET
+- Appropriate number of huge pages are reserved at kernel boot time
+- The IDs of the hardware threads (logical cores) per each CPU socket can be
+ determined by parsing the file /proc/cpuinfo. The naming convention for the
+ logical cores is: C{x.y.z} = hyper-thread z of physical core y of CPU socket
+ x, with typical values of x = 0 .. 3, y = 0 .. 7, z = 0 .. 1. Logical cores
+ C{0.0.1} and C{0.0.1} should be avoided while executing the test, as they
+ are used by the Linux kernel for running regular processes.
+
+4. Software application configuration
+
+The application configuration is done through the command line:
+
+- -c COREMASK: Reunion of all the cores specified by the --rx, --tx and --w
+ parameters.
+- --rx and --tx: These parameters are used to provide the list of lcores used
+ for packet I/O, plus the list of the RX ports & queues, as well as the list
+ of TX ports, that are handled by each of the packet I/O lcores;
+- The RX and TX of the NICs that are physically attached (through PCIe) to a
+ specific CPU socket should always be handled by lcores from the same socket;
+- The RX and TX of the same port can be handled by different lcores, depending
+ on the usecase, therefore the set of RX lcores can be different than the set
+ of TX lcores;
+- Typical configurations enabled for the I/O cores for each CPU socket (as long
+ as the conditions below are met, the actual lcore IDs are irrelevant):
+
+ - Single lcore handling the RX and TX for all the NICs connected to its CPU
+ socket. Its sibling hyper-thread should not be used by the application;
+
+- One lcore handling the RX and TX for a single NIC port (with its sibling
+ hyper-thread not used by the application). For each CPU socket, there are N
+ physical cores used for packet I/O for N NIC ports;
+- One lcore handling the RX for all the NIC ports connected to its CPU socket
+ and another lcore handling the TX for the same NIC ports (with the sibling
+ hyper-threads not used by the application). For each CPU socket, there are 2
+ physical cores used for packet I/O for N NIC ports;
+- --w: This parameter specifies the list of worker lcores;
+
+ - A worker lcore cannot be a packet I/O lcore;
+ - Typical configurations enabled for each CPU socket: 1 / 2 / 4 / 8. Each
+ worker should be allocated on a different physical core. For 8 workers
+ (per CPU socket), if not enough physical cores, both hyper-threads of 4
+ physical cores can be used. As long as these conditions are met, the
+ actual lcore IDs are irrelevant.
+
+- --lpm: IPv4 routing table;
+ - Typically, there is a single rule for each TX port and the address spaces
+ of the rules do not overlap, e.g. for each TX_PORT used by the
+ application, the rule "10.0.TX_PORT.0/24 => TX_PORT" is included in the
+ list.
+- --rsz: Ring sizes
+ - Typically, the default values are used (parameter not present in the
+ command line).
+- --bsz: Burst sizes
+ - Typically, the default values are used (parameter not present in the
+ command line).
+- --pos-lb: Position of the 1-byte header field within the input packet that is
+ used to determine the worker ID for each packet
+
+ - Typically, the default value is used (parameter not present in the
+ command line).
+
+5. Traffic generator configuration
+
+The application is used to benchmark the penalty of packets going across
+different CPU sockets. In the general case, the input packets are RX-ed by NIC
+connected to CPU socket X, dispatched to worker running on CPU socket Y, TX-ed
+by NIC connected to CPU socket Z. The typical cases under test are: AAA, AAB,
+ABB, ABC (for 2-socket systems, ABC is actually ABA).
+
+The worker ID is determined by reading a 1-byte field from the input packet. Its
+position is specified using the --pos-lb command line argument. For convenience,
+the --pos-lb argument typically points to the last byte of the IPv4 source
+address, e.g. the IPv4 source address for a traffic flow that shoud be processed
+by WORKER_ID is: 0.0.0.WORKER_ID.
+
+The TX port is determined by the LPM rule that is hit by the IPv4 destination
+address field read from each packet. Therefore, the traffic generator
+configuration has to be in sync with the routing table of the application
+(provided using the --lpm parameter). Given the convention described above of
+LPM rules of: "10.0.TX_PORT.0/24 => TX_PORT", then packets with IPv4 destination
+address of 10.0.TX_PORT.1 will be sent out by TX_PORT, regardless of the worker
+lcore processing them.
+
+For a specific test case, the recommended flow configuration for each traffic
+generator port (connected to a NIC attached to CPU socket X) is to create a
+traffic flow for each pair of (worker on CPU socket Y, NIC TX port on CPU
+socket Z) and equally divide the TX rate amongst all the traffic flows on the
+same traffic generator port. This guarantees that all the workers on CPU
+socket Y will be hit evenly and none of the NIC TX ports on CPU socket Z will be
+oversubscribed.
+
+In this case, the same set of application command lines (testing different
+packet I/O and worker set configurations) can be applied with no modifications
+to test scenarios AAA, AAB, ABB, ABC/ABA by simply modifying two fields within
+each of the traffic flows sent by the traffic generator on each of its ports.
+
+Test Case: Load Balancer
+========================
+
+The following packet I/O and worker lcore scenarios should be benchmarked for
+the CPU socket configurations of AAA, AAB, ABB, ABC:
+
+Assuming that Logical core 4, 5, 6, 7 are connected to a traffic generator,
+launch the ``load_balancer`` with the following arguments::
+
+ ./examples/load_balancer/build/load_balancer -l 3-7 -n 4 -- \
+ --rx "(0,0,3),(1,0,3),(2,0,3),(3,0,3)" \
+ --tx "(0,3),(1,3),(2,3),(3,3)" --w "4,5,6,7" \
+ --lpm "1.0.0.0/24=>0;1.0.1.0/24=>1;1.0.2.0/24=>2;1.0.3.0/24=>3; " \
+ --bsz "(10, 10), (10, 10), (10, 10)" --pos-lb 29
+
+If the app run successfully, it will be the same as the shown in the terminal. ::
+
+ ...
+ LPM rules:
+ 0: 1.0.0.0/24 => 0;
+ 1: 1.0.1.0/24 => 1;
+ 2: 1.0.2.0/24 => 2;
+ 3: 1.0.3.0/24 => 3;
+ Ring sizes: NIC RX = 1024; Worker in = 1024; Worker out = 1024; NIC TX = 1024;
+ Burst sizes: I/O RX (rd = 10, wr = 10); Worker (rd = 10, wr = 10); I/O TX (rd = 10, wr = 10)
+ Logical core 4 (worker 0) main loop.
+ Logical core 5 (worker 1) main loop.
+ Logical core 6 (worker 2) main loop.
+ Logical core 7 (worker 3) main loop.
+ Logical core 3 (I/O) main loop.
--
2.17.2
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