simple_http_aio_infer_client.py

#!/usr/bin/env python
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import argparse
import numpy as np
import sys
import ssl
import asyncio

import tritonclient.http.aio as httpclient
from tritonclient.utils import InferenceServerException


async def test_infer(triton_client,
                     model_name,
                     input0_data,
                     input1_data,
                     headers=None,
                     request_compression_algorithm=None,
                     response_compression_algorithm=None):
    inputs = []
    outputs = []
    inputs.append(httpclient.InferInput('INPUT0', [1, 16], "INT32"))
    inputs.append(httpclient.InferInput('INPUT1', [1, 16], "INT32"))

    # Initialize the data
    inputs[0].set_data_from_numpy(input0_data, binary_data=False)
    inputs[1].set_data_from_numpy(input1_data, binary_data=True)

    outputs.append(httpclient.InferRequestedOutput('OUTPUT0', binary_data=True))
    outputs.append(httpclient.InferRequestedOutput('OUTPUT1',
                                                   binary_data=False))
    query_params = {'test_1': 1, 'test_2': 2}
    results = await triton_client.infer(
        model_name,
        inputs,
        outputs=outputs,
        query_params=query_params,
        headers=headers,
        request_compression_algorithm=request_compression_algorithm,
        response_compression_algorithm=response_compression_algorithm)

    return results


async def test_infer_no_outputs(triton_client,
                                model_name,
                                input0_data,
                                input1_data,
                                headers=None,
                                request_compression_algorithm=None,
                                response_compression_algorithm=None):
    inputs = []
    inputs.append(httpclient.InferInput('INPUT0', [1, 16], "INT32"))
    inputs.append(httpclient.InferInput('INPUT1', [1, 16], "INT32"))

    # Initialize the data
    inputs[0].set_data_from_numpy(input0_data, binary_data=False)
    inputs[1].set_data_from_numpy(input1_data, binary_data=True)

    query_params = {'test_1': 1, 'test_2': 2}
    results = await triton_client.infer(
        model_name,
        inputs,
        outputs=None,
        query_params=query_params,
        headers=headers,
        request_compression_algorithm=request_compression_algorithm,
        response_compression_algorithm=response_compression_algorithm)

    return results


def validate_result(results, input0_data, input1_data):
    output0_data = results.as_numpy('OUTPUT0')
    output1_data = results.as_numpy('OUTPUT1')
    for i in range(16):
        print(
            str(input0_data[0][i]) + " + " + str(input1_data[0][i]) + " = " +
            str(output0_data[0][i]))
        print(
            str(input0_data[0][i]) + " - " + str(input1_data[0][i]) + " = " +
            str(output1_data[0][i]))
        if (input0_data[0][i] + input1_data[0][i]) != output0_data[0][i]:
            print("sync infer error: incorrect sum")
            sys.exit(1)
        if (input0_data[0][i] - input1_data[0][i]) != output1_data[0][i]:
            print("sync infer error: incorrect difference")
            sys.exit(1)


async def main(FLAGS):
    # Initialize triton_client
    try:
        if FLAGS.ssl:
            ssl_context = None  # default SSL check
            if FLAGS.insecure:
                ssl_context = False  # Skip SSL certification validation
            elif (FLAGS.key_file is not None and FLAGS.cert_file is not None) \
                    or FLAGS.ca_certs is not None:
                # Custom certification validation
                ssl_context = ssl.create_default_context()
                if FLAGS.key_file is not None and FLAGS.cert_file is not None:
                    ssl_context.load_cert_chain(certfile=FLAGS.cert_file,
                                                keyfile=FLAGS.key_file)
                if FLAGS.ca_certs is not None:
                    ssl_context.load_verify_locations(cafile=FLAGS.ca_certs)
            triton_client = httpclient.InferenceServerClient(
                url=FLAGS.url,
                verbose=FLAGS.verbose,
                ssl=True,
                ssl_context=ssl_context)
        else:
            triton_client = httpclient.InferenceServerClient(
                url=FLAGS.url, verbose=FLAGS.verbose)
    except Exception as e:
        print("channel creation failed: " + str(e))
        sys.exit(1)

    model_name = "simple"

    # Create the data for the two input tensors. Initialize the first
    # to unique integers and the second to all ones.
    input0_data = np.arange(start=0, stop=16, dtype=np.int32)
    input0_data = np.expand_dims(input0_data, axis=0)
    input1_data = np.full(shape=(1, 16), fill_value=-1, dtype=np.int32)

    if FLAGS.http_headers is not None:
        headers_dict = {
            l.split(':')[0]: l.split(':')[1] for l in FLAGS.http_headers
        }
    else:
        headers_dict = None

    # Infer with requested Outputs
    results = await test_infer(triton_client, model_name, input0_data,
                               input1_data, headers_dict,
                               FLAGS.request_compression_algorithm,
                               FLAGS.response_compression_algorithm)
    print(results.get_response())

    statistics = await triton_client.get_inference_statistics(
        model_name=model_name, headers=headers_dict)
    print(statistics)
    if len(statistics['model_stats']) != 1:
        print("FAILED: Inference Statistics")
        sys.exit(1)

    # Validate the results by comparing with precomputed values.
    validate_result(results, input0_data, input1_data)

    # Infer without requested Outputs
    results = await test_infer_no_outputs(triton_client, model_name,
                                          input0_data, input1_data,
                                          headers_dict,
                                          FLAGS.request_compression_algorithm,
                                          FLAGS.response_compression_algorithm)
    print(results.get_response())

    # Validate the results by comparing with precomputed values.
    validate_result(results, input0_data, input1_data)

    # Infer with incorrect model name
    try:
        (await test_infer(triton_client, "wrong_model_name",
                                     input0_data, input1_data)).get_response()
        print("expected error message for wrong model name")
        sys.exit(1)
    except InferenceServerException as ex:
        print(ex)
        if not (ex.message().startswith("Request for unknown model")):
            print("improper error message for wrong model name")
            sys.exit(1)

    # Infer in parallel
    result_1, result_2 = await asyncio.gather(
        test_infer(triton_client, model_name, input0_data, input1_data,
                   headers_dict, FLAGS.request_compression_algorithm,
                   FLAGS.response_compression_algorithm),
        test_infer_no_outputs(triton_client, model_name, input0_data,
                              input1_data, headers_dict,
                              FLAGS.request_compression_algorithm,
                              FLAGS.response_compression_algorithm))

    # Validate the results by comparing with precomputed values.
    print(result_1.get_response())
    validate_result(result_1, input0_data, input1_data)
    print(result_2.get_response())
    validate_result(result_2, input0_data, input1_data)

    await triton_client.close()

    print("PASS: infer")


if __name__ == '__main__':
    parser = argparse.ArgumentParser()
    parser.add_argument('-v',
                        '--verbose',
                        action="store_true",
                        required=False,
                        default=False,
                        help='Enable verbose output')
    parser.add_argument('-u',
                        '--url',
                        type=str,
                        required=False,
                        default='localhost:8000',
                        help='Inference server URL. Default is localhost:8000.')
    parser.add_argument('-s',
                        '--ssl',
                        action="store_true",
                        required=False,
                        default=False,
                        help='Enable encrypted link to the server using HTTPS')
    parser.add_argument(
        '--key-file',
        type=str,
        required=False,
        default=None,
        help='File holding client private key. Default is None.')
    parser.add_argument(
        '--cert-file',
        type=str,
        required=False,
        default=None,
        help='File holding client certificate. Default is None.')
    parser.add_argument('--ca-certs',
                        type=str,
                        required=False,
                        default=None,
                        help='File holding ca certificate. Default is None.')
    parser.add_argument(
        '--insecure',
        action="store_true",
        required=False,
        default=False,
        help=
        'Use no peer verification in SSL communications. Use with caution. Default is False.'
    )
    parser.add_argument(
        '-H',
        dest='http_headers',
        metavar="HTTP_HEADER",
        required=False,
        action='append',
        help='HTTP headers to add to inference server requests. ' +
        'Format is -H"Header:Value".')
    parser.add_argument(
        '--request-compression-algorithm',
        type=str,
        required=False,
        default=None,
        help=
        'The compression algorithm to be used when sending request body to server. Default is None.'
    )
    parser.add_argument(
        '--response-compression-algorithm',
        type=str,
        required=False,
        default=None,
        help=
        'The compression algorithm to be used when receiving response body from server. Default is None.'
    )
    FLAGS = parser.parse_args()
    asyncio.run(main(FLAGS))