[V1,1/2] test_plans/dma_test_plan: rename testplan
Commit Message
Rename test_plans/cbdma_test_plan.rst to dma_test_plan.rst.
Signed-off-by: Wei Ling <weix.ling@intel.com>
---
...{cbdma_test_plan.rst => dma_test_plan.rst} | 46 +++++++++----------
1 file changed, 23 insertions(+), 23 deletions(-)
rename test_plans/{cbdma_test_plan.rst => dma_test_plan.rst} (86%)
similarity index 86%
rename from test_plans/cbdma_test_plan.rst
rename to test_plans/dma_test_plan.rst
@@ -105,9 +105,9 @@ Test case
Test Case 1: CBDMA basic test with differnet size packets
----------------------------------------------------------
-1.Bind one cbdma port and one nic port to vfio-pci driver.
+1.Bind 1 CBDMA port and 1 NIC port to vfio-pci driver.
-2.Launch dma app::
+2.Launch DMA APP::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-1 -n 2 -- -p 0x1 --mac-updating -c hw
@@ -118,9 +118,9 @@ Test Case 1: CBDMA basic test with differnet size packets
Test Case 2: CBDMA test with multi-threads
-------------------------------------------
-1.Bind one cbdma port and one nic port to vfio-pci driver.
+1.Bind 1 CBDMA port and 1 NIC port to vfio-pci driver.
-2.Launch dma app with three cores::
+2.Launch DMA APP with 3 cores::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-2 -n 2 -- -p 0x1 --mac-updating -c hw
@@ -128,12 +128,12 @@ Test Case 2: CBDMA test with multi-threads
4.Check performance from “Total packets Tx” and check log includes "Worker Threads = 2, Copy Mode = hw".
-Test Case 3: CBDMA test with multi nic ports
+Test Case 3: CBDMA test with multi NIC ports
---------------------------------------------
-1.Bind two cbdma ports and two nic ports to vfio-pci driver.
+1.Bind 2 CBDMA ports and 2 NIC ports to vfio-pci driver.
-2.Launch dma app with multi-ports::
+2.Launch DMA APP with multi-ports::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-4 -n 2 -- -p 0x3 -q 1 --mac-updating -c hw
@@ -144,79 +144,79 @@ Test Case 3: CBDMA test with multi nic ports
Test Case 4: CBDMA test with multi-queues
------------------------------------------
-1.Bind two cbdma ports and one nic port to vfio-pci driver.
+1.Bind 2 CBDMA ports and 1 NIC port to vfio-pci driver.
-2.Launch dma app with multi-queues::
+2.Launch DMA APP with multi-queues::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-2 -n 2 -- -p 0x1 -q 2 --mac-updating -c hw
3. Send random ip packets (64B, 256B, 512B, 1024B, IMIX) from TG to NIC port.
-4. Check stats of dma app, "Worker Threads = 2, Copy Mode = hw, Rx Queues = 2" and each dma channel can enqueue packets.
+4. Check stats of DMA APP, "Worker Threads = 2, Copy Mode = hw, Rx Queues = 2" and each dma channel can enqueue packets.
-5. Repeat step1 to step4 with queue number 4 and qemu number 8, also bind same number cbdma ports.
+5. Repeat step1 to step4 with queue number 4 and qemu number 8, also bind same number CBDMA ports.
Check performance gains status when queue numbers added.
Test Case 5: CBDMA performance cmparison between mac-updating and no-mac-updating
----------------------------------------------------------------------------------
-1.Bind one cbdma ports and one nic port to vfio-pci driver.
+1.Bind 1 CBDMA ports and 1 NIC port to vfio-pci driver.
-2.Launch dma app::
+2.Launch DMA APP::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-1 -n 2 -- -p 0x1 -q 2 --no-mac-updating -c hw
3. Send random ip 64B packets from TG.
-4. Check performance from dma app::
+4. Check performance from DMA APP::
Total packets Tx: xxx [pps]
-5.Launch dma app::
+5.Launch DMA APP::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-1 -n 2 -- -p 0x1 -q 2 --mac-updating -c hw
6. Send random ip 64B packets from TG.
-7. Check performance from dma app::
+7. Check performance from DMA APP::
Total packets Tx: xxx [pps]
Test Case 6: CBDMA performance cmparison between HW copies and SW copies using different packet size
-----------------------------------------------------------------------------------------------------
-1.Bind four cbdma pors and one nic port to vfio-pci driver.
+1.Bind 4 cbdma pors and 1 NIC port to vfio-pci driver.
-2.Launch dma app with three cores::
+2.Launch DMA APP with 3 cores::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-2 -n 2 -- -p 0x1 -q 4 --mac-updating -c hw
3. Send random ip packets from TG.
-4. Check performance from dma app::
+4. Check performance from DMA APP::
Total packets Tx: xxx [pps]
-5.Launch dma app with three cores::
+5.Launch DMA APP with three cores::
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-2 -n 2 -- -p 0x1 -q 4 --mac-updating -c sw
6. Send random ip packets from TG.
-7. Check performance from dma app and compare with hw copy test::
+7. Check performance from DMA APP and compare with hw copy test::
Total packets Tx: xxx [pps]
Test Case 7: CBDMA multi application mode test
-----------------------------------------------
-1.Bind four cbdma ports to vfio-pci driver.
+1.Bind 4 CBDMA ports to vfio-pci driver.
2.Launch test-pmd app with three cores and proc_type primary:
./x86_64-native-linuxapp-gcc/app/dpdk-testpmd -l 0-2 -n 2 -- -p 0x1 -q 4 --proc-type=primary
-3. Launch another dma app with three cores and proc_type secondary:
+3. Launch another DMA APP with three cores and proc_type secondary:
./x86_64-native-linuxapp-gcc/examples/dpdk-dma -l 0-2 -n 2 -- -p 0x1 -q 4 --proc-type=secondary