From: Ciara Power Date: Wed, 20 Jan 2021 17:29:30 +0000 (+0000) Subject: app/crypto-perf: add script to graph perf results X-Git-Url: http://git.droids-corp.org/?a=commitdiff_plain;h=f400e0b82bf1c51bfd0cbcebf763f1a3c3d4d7c1;p=dpdk.git app/crypto-perf: add script to graph perf results The python script introduced in this patch runs the crypto performance test application for various test cases, and graphs the results. Test cases are defined in config JSON files, this is where parameters are specified for each test. Currently there are various test cases for devices crypto_qat, crypto_aesni_mb and crypto_gcm. Tests for the ptest types Throughput and Latency are supported for each. The results of each test case are graphed and saved in PDFs (one PDF for each test suite graph type, with all test cases). The graphs output include various grouped barcharts for throughput tests, and histogram and boxplot graphs are used for latency tests. Documentation is added to outline the configuration and usage for the script. Usage: A JSON config file must be specified when running the script, "./dpdk-graph-crypto-perf " The script uses the installed app by default (from ninja install). Alternatively we can pass path to app by "-f //app/dpdk-test-crypto-perf" All device test suites are run by default. Alternatively we can specify by adding arguments, "-t latency" - to run latency test suite only "-t throughput latency" - to run both throughput and latency test suites A directory can be specified for all output files, or the script directory is used by default. "-o " To see the output from the dpdk-test-crypto-perf app, use the verbose option "-v". Signed-off-by: Ciara Power Acked-by: Declan Doherty Acked-by: Adam Dybkowski --- diff --git a/MAINTAINERS b/MAINTAINERS index 1a12916f56..33beacfdca 100644 --- a/MAINTAINERS +++ b/MAINTAINERS @@ -1587,6 +1587,7 @@ F: doc/guides/tools/comp_perf.rst Crypto performance test application M: Declan Doherty +M: Ciara Power T: git://dpdk.org/next/dpdk-next-crypto F: app/test-crypto-perf/ F: doc/guides/tools/cryptoperf.rst diff --git a/app/test-crypto-perf/configs/crypto-perf-aesni-gcm.json b/app/test-crypto-perf/configs/crypto-perf-aesni-gcm.json new file mode 100644 index 0000000000..608a46e34f --- /dev/null +++ b/app/test-crypto-perf/configs/crypto-perf-aesni-gcm.json @@ -0,0 +1,99 @@ +{ + "throughput": { + "default": { + "eal": { + "l": "1,2", + "vdev": "crypto_aesni_gcm" + }, + "app": { + "csv-friendly": true, + "buffer-sz": "64,128,256,512,768,1024,1408,2048", + "burst-sz": "1,4,8,16,32", + "ptest": "throughput", + "devtype": "crypto_aesni_gcm" + } + }, + "AES-GCM-128 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-iv-sz": "12", + "aead-op": "encrypt", + "aead-aad-sz": "16", + "digest-sz": "16", + "optype": "aead", + "total-ops": "10000000" + }, + "AES-GCM-128 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-op": "decrypt", + "aead-aad-sz": "16", + "aead-iv-sz": "12", + "digest-sz": "16", + "optype": "aead", + "total-ops": "10000000" + }, + "AES-GCM-256 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "encrypt", + "aead-aad-sz": "32", + "aead-iv-sz": "12", + "digest-sz": "16", + "optype": "aead", + "total-ops": "10000000" + }, + "AES-GCM-256 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "decrypt", + "aead-aad-sz": "32", + "aead-iv-sz": "12", + "digest-sz": "16", + "optype": "aead", + "total-ops": "10000000" + }, + "AES-GMAC 128 auth-only generate": { + "auth-algo": "aes-gmac", + "auth-key-sz": "16", + "auth-iv-sz": "12", + "auth-op": "generate", + "digest-sz": "16", + "optype": "auth-only", + "total-ops": "10000000" + } + }, + "latency": { + "default": { + "eal": { + "l": "1,2", + "vdev": "crypto_aesni_gcm" + }, + "app": { + "csv-friendly": true, + "buffer-sz": "1024", + "burst-sz": "16", + "ptest": "latency", + "devtype": "crypto_aesni_gcm" + } + }, + "AES-GCM-128 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-op": "decrypt", + "aead-aad-sz": "16", + "aead-iv-sz": "12", + "digest-sz": "16", + "optype": "aead" + }, + "AES-GCM-256 aead-op encrypt latency": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "encrypt", + "aead-aad-sz": "32", + "aead-iv-sz": "12", + "digest-sz": "16", + "optype": "aead" + } + } +} diff --git a/app/test-crypto-perf/configs/crypto-perf-aesni-mb.json b/app/test-crypto-perf/configs/crypto-perf-aesni-mb.json new file mode 100644 index 0000000000..d50e4af36c --- /dev/null +++ b/app/test-crypto-perf/configs/crypto-perf-aesni-mb.json @@ -0,0 +1,108 @@ +{ + "throughput": { + "default": { + "eal": { + "l": "1,2", + "vdev": "crypto_aesni_mb" + }, + "app": { + "csv-friendly": true, + "buffer-sz": "64,128,256,512,768,1024,1408,2048", + "burst-sz": "1,4,8,16,32", + "ptest": "throughput", + "devtype": "crypto_aesni_mb" + } + }, + "AES-CBC-128 SHA1-HMAC auth-then-cipher decrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "16", + "auth-algo": "sha1-hmac", + "optype": "auth-then-cipher", + "cipher-op": "decrypt" + }, + "AES-CBC-128 SHA1-HMAC cipher-then-auth encrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "16", + "auth-algo": "sha1-hmac", + "auth-op": "generate", + "auth-key-sz": "64", + "digest-sz": "20", + "optype": "cipher-then-auth", + "cipher-op": "encrypt" + }, + "AES-CBC-256 SHA2-256-HMAC auth-then-cipher decrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "32", + "auth-algo": "sha2-256-hmac", + "optype": "auth-then-cipher", + "cipher-op": "decrypt" + }, + "AES-CBC-256 SHA2-256-HMAC cipher-then-auth encrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "32", + "auth-algo": "sha2-256-hmac", + "optype": "cipher-then-auth" + }, + "AES-GCM-128 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-iv-sz": "12", + "aead-op": "encrypt", + "aead-aad-sz": "16", + "digest-sz": "16", + "optype": "aead", + "total-ops": "10000000" + }, + "AES-GCM-128 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-op": "decrypt" + }, + "AES-GCM-256 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "encrypt" + }, + "AES-GCM-256 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "decrypt" + }, + "AES-GMAC 128 auth-only generate": { + "auth-algo": "aes-gmac", + "auth-key-sz": "16", + "auth-iv-sz": "12", + "auth-op": "generate", + "digest-sz": "16", + "optype": "auth-only", + "total-ops": "10000000" + } + }, + "latency": { + "default": { + "eal": { + "l": "1,2", + "vdev": "crypto_aesni_mb" + }, + "app": { + "csv-friendly": true, + "buffer-sz": "1024", + "burst-sz": "16", + "ptest": "latency", + "devtype": "crypto_aesni_mb" + } + }, + "AES-CBC-128 SHA1-HMAC auth-then-cipher decrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "16", + "auth-algo": "sha1-hmac", + "optype": "auth-then-cipher", + "cipher-op": "decrypt" + }, + "AES-GCM-256 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "encrypt" + } + } +} diff --git a/app/test-crypto-perf/configs/crypto-perf-qat.json b/app/test-crypto-perf/configs/crypto-perf-qat.json new file mode 100644 index 0000000000..0adb809e39 --- /dev/null +++ b/app/test-crypto-perf/configs/crypto-perf-qat.json @@ -0,0 +1,94 @@ +{ + "throughput": { + "default": { + "eal": { + "l": "1,2" + }, + "app": { + "csv-friendly": true, + "buffer-sz": "64,128,256,512,768,1024,1408,2048", + "burst-sz": "1,4,8,16,32", + "devtype": "crypto_qat", + "ptest": "throughput" + } + }, + "AES-CBC-128 SHA1-HMAC auth-then-cipher decrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "16", + "auth-algo": "sha1-hmac", + "optype": "auth-then-cipher", + "cipher-op": "decrypt" + }, + "AES-CBC-128 SHA1-HMAC cipher-then-auth encrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "16", + "auth-algo": "sha1-hmac", + "optype": "cipher-then-auth", + "cipher-op": "encrypt" + }, + "AES-CBC-256 SHA2-256-HMAC auth-then-cipher decrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "32", + "auth-algo": "sha2-256-hmac", + "optype": "auth-then-cipher", + "cipher-op": "decrypt" + }, + "AES-CBC-256 SHA2-256-HMAC cipher-then-auth encrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "32", + "auth-algo": "sha2-256-hmac", + "optype": "cipher-then-auth", + "cipher-op": "encrypt" + }, + "AES-GCM-128 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-iv-sz": "12", + "aead-op": "encrypt", + "aead-aad-sz": "16", + "digest-sz": "16", + "optype": "aead" + }, + "AES-GCM-128 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-op": "decrypt" + }, + "AES-GCM-256 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "encrypt" + }, + "AES-GCM-256 aead-op decrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "32", + "aead-op": "decrypt" + } + }, + "latency": { + "default": { + "eal": { + "l": "1,2" + }, + "app": { + "csv-friendly": true, + "ptest": "latency", + "buffer-sz": "1024", + "burst-sz": "16", + "devtype": "crypto_qat" + } + }, + "AES-CBC-256 SHA2-256-HMAC cipher-then-auth encrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "32", + "auth-algo": "sha2-256-hmac", + "optype": "cipher-then-auth", + "cipher-op": "encrypt" + }, + "AES-GCM-128 aead-op encrypt": { + "aead-algo": "aes-gcm", + "aead-key-sz": "16", + "aead-op": "encrypt" + } + } +} diff --git a/app/test-crypto-perf/dpdk-graph-crypto-perf.py b/app/test-crypto-perf/dpdk-graph-crypto-perf.py new file mode 100755 index 0000000000..f4341ee718 --- /dev/null +++ b/app/test-crypto-perf/dpdk-graph-crypto-perf.py @@ -0,0 +1,309 @@ +#! /usr/bin/env python3 +# SPDX-License-Identifier: BSD-3-Clause +# Copyright(c) 2021 Intel Corporation + +""" +Script to automate running crypto performance tests for a range of test +cases as configured in the JSON file specified by the user. +The results are processed and output into various graphs in PDF files. +Currently, throughput and latency tests are supported. +""" + +import glob +import json +import os +import shutil +import subprocess +from argparse import ArgumentParser +from argparse import ArgumentDefaultsHelpFormatter +import img2pdf +import pandas as pd +import plotly.express as px + +SCRIPT_PATH = os.path.dirname(__file__) + "/" +GRAPH_DIR = "temp_graphs" + + +class Grapher: + """Grapher object containing all graphing functions. """ + def __init__(self, config, suite, graph_path): + self.graph_num = 0 + self.graph_path = graph_path + self.suite = suite + self.config = config + self.test = "" + self.ptest = "" + self.data = pd.DataFrame() + + def save_graph(self, fig, subdir): + """ + Update figure layout to increase readability, output to JPG file. + """ + path = os.path.join(self.graph_path, subdir, "") + if not os.path.exists(path): + os.makedirs(path) + fig.update_layout(font_size=30, title_x=0.5, title_font={"size": 25}, + margin={'t': 300, 'l': 150, 'r': 150, 'b': 150}) + fig.write_image(path + "%d.jpg" % self.graph_num) + + def boxplot_graph(self, x_axis_label, burst, buffer): + """Plot a boxplot graph for the given parameters.""" + fig = px.box(self.data, x=x_axis_label, + title="Config: " + self.config + "
Test Suite: " + + self.suite + "
" + self.test + + "
(Outliers Included)
Burst Size: " + burst + + ", Buffer Size: " + buffer, + height=1400, width=2400) + self.save_graph(fig, x_axis_label.replace(' ', '_')) + self.graph_num += 1 + + def grouped_graph(self, y_axis_label, x_axis_label, color_label): + """Plot a grouped barchart using the given parameters.""" + if (self.data[y_axis_label] == 0).all(): + return + fig = px.bar(self.data, x=x_axis_label, color=color_label, + y=y_axis_label, + title="Config: " + self.config + "
Test Suite: " + + self.suite + "
" + self.test + "
" + + y_axis_label + " for each " + x_axis_label + + "/" + color_label, barmode="group", height=1400, + width=2400) + fig.update_xaxes(type='category') + self.save_graph(fig, y_axis_label.replace(' ', '_')) + self.graph_num += 1 + + def histogram_graph(self, x_axis_label, burst, buffer): + """Plot a histogram graph using the given parameters.""" + quart1 = self.data[x_axis_label].quantile(0.25) + quart3 = self.data[x_axis_label].quantile(0.75) + inter_quart_range = quart3 - quart1 + data_out = self.data[~((self.data[x_axis_label] < + (quart1 - 1.5 * inter_quart_range)) | + (self.data[x_axis_label] > + (quart3 + 1.5 * inter_quart_range)))] + fig = px.histogram(data_out, x=x_axis_label, + title="Config: " + self.config + "
Test Suite: " + + self.suite + "
" + self.test + + "
(Outliers removed using Interquartile Range)" + + "
Burst Size: " + burst + ", Buffer Size: " + + buffer, height=1400, width=2400) + max_val = data_out[x_axis_label].max() + min_val = data_out[x_axis_label].min() + fig.update_traces(xbins=dict( + start=min_val, + end=max_val, + size=(max_val - min_val) / 200 + )) + self.save_graph(fig, x_axis_label.replace(' ', '_')) + self.graph_num += 1 + + +def cleanup_throughput_datatypes(data): + """Cleanup data types of throughput test results dataframe. """ + data.columns = data.columns.str.replace('/', ' ') + data.columns = data.columns.str.strip() + data['Burst Size'] = data['Burst Size'].astype('category') + data['Buffer Size(B)'] = data['Buffer Size(B)'].astype('category') + data['Failed Enq'] = data['Failed Enq'].astype('int') + data['Throughput(Gbps)'] = data['Throughput(Gbps)'].astype('float') + data['Ops(Millions)'] = data['Ops(Millions)'].astype('float') + data['Cycles Buf'] = data['Cycles Buf'].astype('float') + return data + + +def cleanup_latency_datatypes(data): + """Cleanup data types of latency test results dataframe. """ + data.columns = data.columns.str.strip() + data = data[['Burst Size', 'Buffer Size', 'time (us)']].copy() + data['Burst Size'] = data['Burst Size'].astype('category') + data['Buffer Size'] = data['Buffer Size'].astype('category') + data['time (us)'] = data['time (us)'].astype('float') + return data + + +def process_test_results(grapher, data): + """ + Process results from the test case, + calling graph functions to output graph images. + """ + if grapher.ptest == "throughput": + grapher.data = cleanup_throughput_datatypes(data) + for y_label in ["Throughput(Gbps)", "Ops(Millions)", + "Cycles Buf", "Failed Enq"]: + grapher.grouped_graph(y_label, "Buffer Size(B)", + "Burst Size") + elif grapher.ptest == "latency": + clean_data = cleanup_latency_datatypes(data) + for (burst, buffer), group in clean_data.groupby(['Burst Size', + 'Buffer Size']): + grapher.data = group + grapher.histogram_graph("time (us)", burst, buffer) + grapher.boxplot_graph("time (us)", burst, buffer) + else: + print("Invalid ptest") + return + + +def create_results_pdf(graph_path, pdf_path): + """Output results graphs to PDFs.""" + if not os.path.exists(pdf_path): + os.makedirs(pdf_path) + for _, dirs, _ in os.walk(graph_path): + for sub in dirs: + graphs = sorted(glob.glob(os.path.join(graph_path, sub, "*.jpg")), + key=(lambda x: int((x.rsplit('/', 1)[1]) + .split('.')[0]))) + if graphs: + with open(pdf_path + "%s_results.pdf" % sub, "wb") as pdf_file: + pdf_file.write(img2pdf.convert(graphs)) + + +def run_test(test_cmd, test, grapher, params, verbose): + """Run performance test app for the given test case parameters.""" + process = subprocess.Popen(["stdbuf", "-oL", test_cmd] + params, + universal_newlines=True, + stdout=subprocess.PIPE, + stderr=subprocess.STDOUT) + rows = [] + if verbose: + print("\n\tOutput for " + test + ":") + while process.poll() is None: + line = process.stdout.readline().strip() + if not line: + continue + if verbose: + print("\t\t>>" + line) + + if line.replace(' ', '').startswith('#lcore'): + columns = line[1:].split(',') + elif line[0].isdigit(): + line = line.replace(';', ',') + rows.append(line.split(',')) + else: + continue + + if process.poll() != 0 or not columns or not rows: + print("\n\t" + test + ": FAIL") + return + data = pd.DataFrame(rows, columns=columns) + grapher.test = test + process_test_results(grapher, data) + print("\n\t" + test + ": OK") + return + + +def run_test_suite(test_cmd, suite_config, verbose): + """Parse test cases for the test suite and run each test.""" + print("\nRunning Test Suite: " + suite_config['suite']) + default_params = [] + graph_path = os.path.join(suite_config['output_path'], GRAPH_DIR, + suite_config['suite'], "") + grapher = Grapher(suite_config['config_name'], suite_config['suite'], + graph_path) + test_cases = suite_config['test_cases'] + if 'default' not in test_cases: + print("Test Suite must contain default case, skipping") + return + for (key, val) in test_cases['default']['eal'].items(): + if len(key) == 1: + default_params.append("-" + key + " " + val) + else: + default_params.append("--" + key + "=" + val) + + default_params.append("--") + for (key, val) in test_cases['default']['app'].items(): + if isinstance(val, bool): + default_params.append("--" + key if val is True else "") + else: + default_params.append("--" + key + "=" + val) + + if 'ptest' not in test_cases['default']['app']: + print("Test Suite must contain default ptest value, skipping") + return + grapher.ptest = test_cases['default']['app']['ptest'] + + for (test, params) in {k: v for (k, v) in test_cases.items() if + k != "default"}.items(): + extra_params = [] + for (key, val) in params.items(): + if isinstance(val, bool): + extra_params.append("--" + key if val is True else "") + else: + extra_params.append("--" + key + "=" + val) + + run_test(test_cmd, test, grapher, default_params + extra_params, + verbose) + + create_results_pdf(graph_path, os.path.join(suite_config['output_path'], + suite_config['suite'], "")) + + +def parse_args(): + """Parse command-line arguments passed to script.""" + parser = ArgumentParser(formatter_class=ArgumentDefaultsHelpFormatter) + parser.add_argument('config_path', type=str, + help="Path to JSON configuration file") + parser.add_argument('-t', '--test-suites', nargs='+', default=["all"], + help="List of test suites to run") + parser.add_argument('-v', '--verbose', action='store_true', + help="""Display perf test app output. + Not recommended for latency tests.""") + parser.add_argument('-f', '--file-path', + default=shutil.which('dpdk-test-crypto-perf'), + help="Path for perf test app") + parser.add_argument('-o', '--output-path', default=SCRIPT_PATH, + help="Path to store output directories") + args = parser.parse_args() + return (args.file_path, args.test_suites, args.config_path, + args.output_path, args.verbose) + + +def main(): + """ + Load JSON config and call relevant functions to run chosen test suites. + """ + test_cmd, test_suites, config_file, output_path, verbose = parse_args() + if test_cmd is None or not os.path.isfile(test_cmd): + print("Invalid filepath for perf test app!") + return + try: + with open(config_file) as conf: + test_suite_ops = json.load(conf) + config_name = os.path.splitext(config_file)[0] + if '/' in config_name: + config_name = config_name.rsplit('/', 1)[1] + output_path = os.path.join(output_path, config_name, "") + print("Using config: " + config_file) + except OSError as err: + print("Error with JSON file path: " + err.strerror) + return + except json.decoder.JSONDecodeError as err: + print("Error loading JSON config: " + err.msg) + return + + if test_suites != ["all"]: + suite_list = [] + for (suite, test_cases) in {k: v for (k, v) in test_suite_ops.items() + if k in test_suites}.items(): + suite_list.append(suite) + suite_config = {'config_name': config_name, 'suite': suite, + 'test_cases': test_cases, + 'output_path': output_path} + run_test_suite(test_cmd, suite_config, verbose) + if not suite_list: + print("No valid test suites chosen!") + return + else: + for (suite, test_cases) in test_suite_ops.items(): + suite_config = {'config_name': config_name, 'suite': suite, + 'test_cases': test_cases, + 'output_path': output_path} + run_test_suite(test_cmd, suite_config, verbose) + + graph_path = os.path.join(output_path, GRAPH_DIR, "") + if os.path.exists(graph_path): + shutil.rmtree(graph_path) + + +if __name__ == "__main__": + main() diff --git a/doc/guides/tools/cryptoperf.rst b/doc/guides/tools/cryptoperf.rst index 79359fe894..86c5a8aa16 100644 --- a/doc/guides/tools/cryptoperf.rst +++ b/doc/guides/tools/cryptoperf.rst @@ -453,3 +453,146 @@ Test vector file for cipher algorithm aes cbc 256 with authorization sha:: digest = 0x1C, 0xB2, 0x3D, 0xD1, 0xF9, 0xC7, 0x6C, 0x49, 0x2E, 0xDA, 0x94, 0x8B, 0xF1, 0xCF, 0x96, 0x43, 0x67, 0x50, 0x39, 0x76, 0xB5, 0xA1, 0xCE, 0xA1, 0xD7, 0x77, 0x10, 0x07, 0x43, 0x37, 0x05, 0xB4 + + +Graph Crypto Perf Results +------------------------- + +The ``dpdk-graph-crypto-perf.py`` tool is a simple script to automate +running crypto performance tests, and graphing the results. +It can be found in the ``app/test-crypto-perf/`` directory. +The output graphs include various grouped barcharts for throughput +tests, and histogram and boxplot graphs for latency tests. +These are output to PDF files, with one PDF per test suite graph type. + + +Dependencies +~~~~~~~~~~~~ + +The following python modules must be installed to run the script: + +* img2pdf + +* plotly + +* pandas + +* glob + + +Test Configuration +~~~~~~~~~~~~~~~~~~ + +The test cases run by the script are defined by a JSON config file. +Some config files can be found in ``app/test-crypto-perf/configs/``, +or the user may create a new one following the same format as the config files provided. + +An example of this format is shown below for one test suite in the ``crypto-perf-aesni-mb.json`` file. +This shows the required default config for the test suite, and one test case. +The test case has additional app config that will be combined with +the default config when running the test case. + +.. code-block:: c + + "throughput": { + "default": { + "eal": { + "l": "1,2", + "vdev": "crypto_aesni_mb" + }, + "app": { + "csv-friendly": true, + "buffer-sz": "64,128,256,512,768,1024,1408,2048", + "burst-sz": "1,4,8,16,32", + "ptest": "throughput", + "devtype": "crypto_aesni_mb" + } + }, + "AES-CBC-128 SHA1-HMAC auth-then-cipher decrypt": { + "cipher-algo": "aes-cbc", + "cipher-key-sz": "16", + "auth-algo": "sha1-hmac", + "optype": "auth-then-cipher", + "cipher-op": "decrypt" + } + } + +.. note:: + The specific test cases only allow modification of app parameters, + and not EAL parameters. + The default case is required for each test suite in the config file, + to specify EAL parameters. + +Currently, crypto_qat, crypto_aesni_mb, and crypto_aesni_gcm devices for +both throughput and latency ptests are supported. + + +Usage +~~~~~ + +.. code-block:: console + + ./dpdk-graph-crypto-perf + +The ``config_file`` positional argument is required to run the script. +This points to a valid JSON config file containing test suites. + +.. code-block:: console + + ./dpdk-graph-crypto-perf configs/crypto-perf-aesni-mb.json + +The following are the application optional command-line options: + +* ``-h, --help`` + + Display usage information and quit + + +* ``-f , --file-path `` + + Provide path to ``dpdk-test-crypto-perf`` application. + The script uses the installed app by default. + + .. code-block:: console + + ./dpdk-graph-crypto-perf -f /app/dpdk-test-crypto-perf + + +* ``-t , --test-suites `` + + Specify test suites to run. All test suites are run by default. + + To run crypto-perf-qat latency test suite only: + + .. code-block:: console + + ./dpdk-graph-crypto-perf configs/crypto-perf-qat -t latency + + To run both crypto-perf-aesni-mb throughput and latency test suites + + .. code-block:: console + + ./dpdk-graph-crypto-perf configs/crypto-perf-aesni-mb -t throughput latency + + +* ``-o , --output-path `` + + Specify directory to use for output files. + The default is to use the script's directory. + + .. code-block:: console + + ./dpdk-graph-crypto-perf -o + + +* ``-v, --verbose`` + + Enable verbose output. This displays ``dpdk-test-crypto-perf`` app output in real-time. + + .. code-block:: console + + ./dpdk-graph-crypto-perf -v + + .. warning:: + Latency performance tests have a large amount of output. + It is not recommended to use the verbose option for latency tests.