[dts] [PATCH V1] tests: add the suite of cryptodev performance test
Chen, Zhaoyan
zhaoyan.chen at intel.com
Mon Jan 21 03:54:16 CET 2019
Acked-by: Zhaoyan Chen <zhaoyan.chen at intel.com>
> -----Original Message-----
> From: dts [mailto:dts-bounces at dpdk.org] On Behalf Of Zhao, XinfengX
> Sent: Thursday, January 17, 2019 4:45 PM
> To: dts at dpdk.org
> Subject: Re: [dts] [PATCH V1] tests: add the suite of cryptodev performance test
>
> Tested-by : Xinfeng Zhao <xinfengx.zhao at intel.com>
>
> -----Original Message-----
> From: Zhao, XinfengX
> Sent: Wednesday, January 16, 2019 2:36 PM
> To: dts at dpdk.org
> Cc: Zhao, XinfengX <xinfengx.zhao at intel.com>
> Subject: [PATCH V1] tests: add the suite of cryptodev performance test
>
> add the script of cryptodev performance test to tests
>
> Signed-off-by: Xinfeng Zhao <xinfengx.zhao at intel.com>
> ---
> tests/TestSuite_cryptodev_perf_crypto-perf.py | 484
> ++++++++++++++++++++++++++
> 1 file changed, 484 insertions(+)
> create mode 100644 tests/TestSuite_cryptodev_perf_crypto-perf.py
>
> diff --git a/tests/TestSuite_cryptodev_perf_crypto-perf.py
> b/tests/TestSuite_cryptodev_perf_crypto-perf.py
> new file mode 100644
> index 0000000..5a50747
> --- /dev/null
> +++ b/tests/TestSuite_cryptodev_perf_crypto-perf.py
> @@ -0,0 +1,484 @@
> +# BSD LICENSE
> +#
> +# Copyright(c) 2016-2017 Intel Corporation. All rights reserved.
> +# 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.
> +
> +import re
> +import json
> +from test_case import TestCase
> +import TestSuite_cryptodev_common as cc
> +
> +
> +class PerfTestsCryptodev(TestCase):
> +
> + def set_up_all(self):
> + self._perf_result = {}
> +
> + self._default_crypto_perf_opts = {
> + "ptest": "throughput",
> + "silent": "",
> + "pool-sz": None,
> + "total-ops": "1000000",
> + "burst-sz": "32",
> + "buffer-sz": "64",
> + "devtype": None,
> + "segments-nb": None,
> + "optype": "cipher-then-auth",
> + "sessionless": None,
> + "out-of-place": None,
> + "test-file": None,
> + "test-name": None,
> + "cipher-algo": None,
> + "cipher-op": None,
> + "cipher-key-sz": None,
> + "cipher-iv-sz": None,
> + "auth-algo": None,
> + "auth-op": None,
> + "auth-key-sz": None,
> + "auth-iv-sz": None,
> + "aead-algo": None,
> + "aead-op": None,
> + "aead-key-sz": None,
> + "aead-iv-sz": None,
> + "aead-aad-sz": None,
> + "digest-sz": None,
> + "csv-friendly": None
> + }
> + self._app_path = "./x86_64-native-linuxapp-gcc/build/app/test-crypto-
> perf/dpdk-test-crypto-perf"
> +
> + if not cc.is_build_skip(self):
> + cc.build_dpdk_with_cryptodev(self)
> +
> + self.vf_driver = self.get_suite_cfg()['vf_driver']
> + cc.bind_qat_device(self, self.vf_driver)
> +
> + def tear_down_all(self):
> + cc.clear_dpdk_config(self)
> +
> + if not self._perf_result:
> + return
> +
> + with open(self.logger.log_path + "/" + "perf_cryptodev_result.json", "w") as fv:
> + json.dump(self._perf_result, fv, indent=4,
> + encoding="utf-8")
> +
> + def set_up(self):
> + pass
> +
> + def tear_down(self):
> + self.dut.kill_all()
> +
> + def test_qat_aes_cbc_sha1_hmac(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"vdev":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "qat_aes_cbc_sha1_hmac")
> + self.verify(result, "Test failed")
> +
> + def test_sw_aes_cbc_sha1_hmac(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"w":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "sw_aes_cbc_sha1_hmac")
> + self.verify(result, "Test failed")
> +
> + def test_qat_aes_cbc_sha2_hmac(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"vdev":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "qat_aes_cbc_sha2_hmac")
> + self.verify(result, "Test failed")
> +
> + def test_sw_aes_cbc_sha2_hmac(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"w":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "sw_aes_cbc_sha2_hmac")
> + self.verify(result, "Test failed")
> +
> + def test_qat_aes_gcm(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"vdev":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "qat_aes_gcm")
> + self.verify(result, "Test failed")
> +
> + def test_sw_aes_gcm(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"w":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "sw_aes_gcm")
> + self.verify(result, "Test failed")
> +
> + def test_qat_kasumi(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"vdev":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "qat_kasumi")
> + self.verify(result, "Test failed")
> +
> + def test_sw_kasumi(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"w":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "sw_kasumi")
> + self.verify(result, "Test failed")
> +
> + def test_qat_snow3g(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"vdev":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "qat_snow3g")
> + self.verify(result, "Test failed")
> +
> + def test_sw_snow3g(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"w":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "sw_snow3g")
> + self.verify(result, "Test failed")
> +
> + def test_qat_zuc(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"vdev":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "qat_zuc")
> + self.verify(result, "Test failed")
> +
> + def test_sw_zuc(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self, {"w":None})
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "sw_zuc")
> + self.verify(result, "Test failed")
> +
> + def test_scheduler_aes_cbc_sha1_hmac(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self)
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "scheduler_aes_cbc_sha1_hmac")
> + self.verify(result, "Test failed")
> +
> + def test_scheduler_aes_cbc_sha2_hmac(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self)
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "scheduler_aes_cbc_sha2_hmac")
> + self.verify(result, "Test failed")
> +
> + def test_scheduler_aes_gcm(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self)
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "scheduler_aes_gcm")
> + self.verify(result, "Test failed")
> +
> + def test_scheduler_kasumi(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self)
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "scheduler_kasumi")
> + self.verify(result, "Test failed")
> +
> + def test_scheduler_snow3g(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self)
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "scheduler_snow3g")
> + self.verify(result, "Test failed")
> +
> + def test_scheduler_zuc(self):
> + if cc.is_test_skip(self):
> + return
> +
> + eal_opt_str = cc.get_eal_opt_str(self)
> + crypto_perf_opt_str = self._get_crypto_perf_opt_str()
> + result = self._run_crypto_perf_throughput(eal_opt_str,
> + crypto_perf_opt_str,
> + "scheduler_zuc")
> + self.verify(result, "Test failed")
> +
> + # Private functions
> + def _get_crypto_perf_opt_str(self, override_crypto_perf_opts={}):
> + return cc.get_opt_str(self, self._default_crypto_perf_opts,
> + override_crypto_perf_opts)
> +
> + def _parse_output(self, output):
> + try:
> + lines = output.split("\r\n")
> + line_nb = len(lines)
> + self.logger.debug("Total output lines: " + str(line_nb))
> +
> + # Find data line
> + for line_index in range(line_nb):
> + if lines[line_index].startswith(" lcore id"):
> + self.logger.debug("data output line from: " + str(line_index))
> + break
> + data_line = line_index + 2
> +
> + results = []
> + pattern = re.compile(r'\s+')
> + for line in lines[data_line:-1]:
> + result = {}
> + result_list = pattern.split(line.strip(" "))
> + if result_list[0] == "lcore id" or result_list[0] == "lcore" or not result_list[0]:
> + continue
> + result["lcore_id"] = int(result_list[0])
> + result["buf_size"] = int(result_list[1])
> + result["burst_size"] = int(result_list[2])
> + result["enqueue"] = int(result_list[3])
> + result["dequeue"] = int(result_list[4])
> + result["enqueue_failures"] = int(result_list[5])
> + result["dequeue_failures"] = int(result_list[6])
> + result["mops"] = float(result_list[7])
> + result["gbps"] = float(result_list[8])
> + result["cycle_buf"] = float(result_list[9])
> + results.append(result)
> +
> + self.logger.debug(results)
> + return results
> + except Exception, ex:
> + self.logger.error(ex)
> + raise ex
> +
> + def _stat_results_by_buf_size(self, results):
> + stats_results = {}
> + for result in results:
> + buf_size = result["buf_size"]
> + if buf_size in stats_results:
> + stats_results[buf_size]["lcore_id"] = \
> + str(stats_results[buf_size]["lcore_id"]) \
> + + ":" + str(result["lcore_id"])
> + stats_results[buf_size]["enqueue"] = \
> + stats_results[buf_size]["enqueue"] + \
> + result["enqueue"]
> + stats_results[buf_size]["enqueue_failures"] = \
> + stats_results[buf_size]["enqueue_failures"] + \
> + result["enqueue_failures"]
> + stats_results[buf_size]["dequeue_failures"] = \
> + stats_results[buf_size]["dequeue_failures"] + \
> + result["dequeue_failures"]
> + stats_results[buf_size]["mops"] = \
> + stats_results[buf_size]["mops"] + \
> + result["mops"]
> + stats_results[buf_size]["gbps"] = \
> + stats_results[buf_size]["gbps"] + \
> + result["gbps"]
> + stats_results[buf_size]["cycle_buf"] = \
> + stats_results[buf_size]["cycle_buf"] + \
> + result["cycle_buf"]
> + stats_results[buf_size]["nr"] = stats_results[buf_size]["nr"] + 1
> + else:
> + stats_results[buf_size] = result
> + stats_results[buf_size]["nr"] = 1
> + self.logger.debug(stats_results)
> + return stats_results
> +
> + def _run_crypto_perf(self, eal_opt_str, crypto_perf_opt_str):
> + cmd_str = cc.get_dpdk_app_cmd_str(self._app_path,
> + eal_opt_str,
> + crypto_perf_opt_str)
> + self.logger.info(cmd_str)
> + try:
> + out = self.dut.send_expect(cmd_str, "#", 600)
> + except Exception, ex:
> + self.logger.error(ex)
> + raise ex
> +
> + results = self._parse_output(out)
> +
> + return results
> +
> + def _get_core_and_thread_num(self):
> + cpu_info ={}
> + out = self.dut.send_expect("lscpu", "#")
> + for each_line in out.split('\n'):
> + key, value = each_line.split(':')
> + cpu_info[key] = value.strip()
> +
> + core, thread = 0, 0
> + lcores = self.get_case_cfg()["l"].split(",")
> + for lcore in lcores:
> + if int(lcore) < int(cpu_info['Core(s) per socket']) * int(cpu_info['Socket(s)']):
> + core =+1
> + thread =+1
> + elif int(lcore) < int(cpu_info['CPU(s)']):
> + thread =+1
> + return core, thread
> +
> + def _run_crypto_perf_throughput(self, eal_opt_str, crypto_perf_opt_str,
> + case_name):
> + c_num, t_num = self._get_core_and_thread_num()
> + try:
> + results = self._run_crypto_perf(eal_opt_str, crypto_perf_opt_str)
> + if not results:
> + return False
> + stats_results = self._stat_results_by_buf_size(results)
> + json_result = []
> + for buf_size, values in stats_results.items():
> + status = "PASS"
> + # delta, status
> + self.accepted_gap = self.get_suite_cfg()['accepted_tolerance']
> + self.expected_throughput =\
> + self.get_suite_cfg()['expected_throughput'][case_name][buf_size]
> + delta = (values["gbps"] -
> self.expected_throughput)/self.expected_throughput
> + if abs(delta) > self.accepted_gap:
> + status = "FAIL"
> +
> + perf_info={
> + "status": status,
> + "performance":
> + [
> + {
> + "name": "throughput",
> + "value": values["gbps"],
> + "unit": "Gbps",
> + "delta": delta
> + },
> + {
> + "name":"failed_enq",
> + "unit": "ops",
> + "value": values["enqueue_failures"]
> + },
> + {
> + "name":"failed_deq",
> + "unit": "ops",
> + "value": values["dequeue_failures"]
> + },
> + {
> + "name":"throughput_mops",
> + "unit": "Mops",
> + "value": values["mops"]
> + },
> + {
> + "name":"cycle_buf",
> + "unit": "Cycles",
> + "value": values["cycle_buf"]/values["nr"]
> + },
> + ],
> + "parameters":
> + [
> + {
> + "name": "core_num/thread_num",
> + "unit": "num/num",
> + "value": "{}/{}".format(c_num, t_num)
> + },
> + {
> + "name":"frame_size",
> + "unit": "bytes",
> + "value": buf_size
> + },
> + {
> + "name":"burst_size",
> + "unit": "bytes",
> + "value": values["burst_size"]
> + },
> + {
> + "name":"total_ops",
> + "unit": "ops",
> + "value": values["enqueue"]
> + },
> + ]
> + }
> +
> + self.logger.debug(perf_info)
> + json_result.append(perf_info)
> + self._perf_result[case_name] = json_result
> + self.logger.debug(self._perf_result)
> + return True
> + except Exception, ex:
> + self.logger.error(ex)
> + return False
> --
> 2.7.4
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