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Quelle stress.sh Sprache: Shell |
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#!/bin/sh ## ## Copyright (c) 2016 The WebM project authors. All Rights Reserved. ## ## Use of this source code is governed by a BSD-style license ## that can be found in the LICENSE file in the root of the source ## tree. An additional intellectual property rights grant can be found ## in the file PATENTS. All contributing project authors may ## be found in the AUTHORS file in the root of the source tree. ## ## This file performs a stress test. It runs (STRESS_ONEPASS_MAX_JOBS, ## default=5) one, (STRESS_TWOPASS_MAX_JOBS, default=5) two pass & ## (STRESS_RT_MAX_JOBS, default=5) encodes and (STRESS_<codec>_DECODE_MAX_JOBS, ## default=30) decodes in parallel. . $(dirname $0)/tools_common.sh YUV="${LIBVPX_TEST_DATA_PATH}/niklas_1280_720_30.yuv" VP8="${LIBVPX_TEST_DATA_PATH}/tos_vp8.webm" VP9="${LIBVPX_TEST_DATA_PATH}/vp90-2-sintel_1920x818_tile_1x4_fpm_2279kbps.webm" DATA_URL="https://storage.googleapis.com/downloads.webmproject.org/test_data/lib SHA1_FILE="$(dirname $0)/test-data.sha1" # Set sha1sum to proper sha program (sha1sum, shasum, sha1). This code is # cribbed from libs.mk. [ -x "$(which sha1sum)" ] && sha1sum=sha1sum [ -x "$(which shasum)" ] && sha1sum=shasum [ -x "$(which sha1)" ] && sha1sum=sha1 # Download a file from the url and check its sha1sum. download_and_check_file() { # Get the file from the file path. local root="${1#${LIBVPX_TEST_DATA_PATH}/}" # Download the file using curl. Trap to insure non partial file. (trap "rm -f $1" INT TERM \ && eval "curl --retry 1 -L -o $1 ${DATA_URL}${root} ${devnull}") # Check the sha1 sum of the file. if [ -n "${sha1sum}" ]; then set -e grep ${root} ${SHA1_FILE} \ | (cd ${LIBVPX_TEST_DATA_PATH}; ${sha1sum} -c); fi } # Environment check: Make sure input is available. stress_verify_environment() { if [ ! -e "${SHA1_FILE}" ] ; then echo "Missing ${SHA1_FILE}" return 1 fi for file in "${YUV}" "${VP8}" "${VP9}"; do if [ ! -e "${file}" ] ; then download_and_check_file "${file}" || return 1 fi done if [ ! -e "${YUV}" ] || [ ! -e "${VP8}" ] || [ ! -e "${VP9}" ] ; then elog "Libvpx test data must exist in LIBVPX_TEST_DATA_PATH." return 1 fi if [ -z "$(vpx_tool_path vpxenc)" ]; then elog "vpxenc not found. It must exist in LIBVPX_BIN_PATH or its parent." return 1 fi if [ -z "$(vpx_tool_path vpxdec)" ]; then elog "vpxdec not found. It must exist in LIBVPX_BIN_PATH or its parent." return 1 fi } # This function runs tests on libvpx that run multiple encodes and decodes # in parallel in hopes of catching synchronization and/or threading issues. stress() { local decoder="$(vpx_tool_path vpxdec)" local encoder="$(vpx_tool_path vpxenc)" local codec="$1" local webm="$2" local decode_count="$3" local threads="$4" local enc_args="$5" local pids="" local rt_max_jobs=${STRESS_RT_MAX_JOBS:-5} local onepass_max_jobs=${STRESS_ONEPASS_MAX_JOBS:-5} local twopass_max_jobs=${STRESS_TWOPASS_MAX_JOBS:-5} # Enable job control, so we can run multiple processes. set -m # Start $onepass_max_jobs encode jobs in parallel. for i in $(seq ${onepass_max_jobs}); do bitrate=$(($i * 20 + 300)) eval "${VPX_TEST_PREFIX}" "${encoder}" "--codec=${codec} -w 1280 -h 720" \ "${YUV}" "-t ${threads} --limit=150 --test-decode=fatal --passes=1" \ "--target-bitrate=${bitrate} -o ${VPX_TEST_OUTPUT_DIR}/${i}.1pass.webm" \ "${enc_args}" ${devnull} & pids="${pids} $!" done # Start $twopass_max_jobs encode jobs in parallel. for i in $(seq ${twopass_max_jobs}); do bitrate=$(($i * 20 + 300)) eval "${VPX_TEST_PREFIX}" "${encoder}" "--codec=${codec} -w 1280 -h 720" \ "${YUV}" "-t ${threads} --limit=150 --test-decode=fatal --passes=2" \ "--target-bitrate=${bitrate} -o ${VPX_TEST_OUTPUT_DIR}/${i}.2pass.webm" \ "${enc_args}" ${devnull} & pids="${pids} $!" done # Start $rt_max_jobs rt encode jobs in parallel. for i in $(seq ${rt_max_jobs}); do bitrate=$(($i * 20 + 300)) eval "${VPX_TEST_PREFIX}" "${encoder}" "--codec=${codec} -w 1280 -h 720" \ "${YUV}" "-t ${threads} --limit=150 --test-decode=fatal " \ "--target-bitrate=${bitrate} --lag-in-frames=0 --error-resilient=1" \ "--kf-min-dist=3000 --kf-max-dist=3000 --cpu-used=-6 --static-thresh=1" \ "--end-usage=cbr --min-q=2 --max-q=56 --undershoot-pct=100" \ "--overshoot-pct=15 --buf-sz=1000 --buf-initial-sz=500" \ "--buf-optimal-sz=600 --max-intra-rate=900 --resize-allowed=0" \ "--drop-frame=0 --passes=1 --rt --noise-sensitivity=4" \ "-o ${VPX_TEST_OUTPUT_DIR}/${i}.rt.webm" ${devnull} & pids="${pids} $!" done # Start $decode_count decode jobs in parallel. for i in $(seq "${decode_count}"); do eval "${decoder}" "-t ${threads}" "${webm}" "--noblit" ${devnull} & pids="${pids} $!" done # Wait for all parallel jobs to finish. fail=0 for job in "${pids}"; do wait $job || fail=$(($fail + 1)) done return $fail } vp8_stress_test() { local vp8_max_jobs=${STRESS_VP8_DECODE_MAX_JOBS:-40} if [ "$(vp8_decode_available)" = "yes" -a \ "$(vp8_encode_available)" = "yes" ]; then stress vp8 "${VP8}" "${vp8_max_jobs}" 4 fi } vp8_stress_test_token_parititions() { local vp8_max_jobs=${STRESS_VP8_DECODE_MAX_JOBS:-40} if [ "$(vp8_decode_available)" = "yes" -a \ "$(vp8_encode_available)" = "yes" ]; then for threads in 2 4 8; do for token_partitions in 1 2 3; do stress vp8 "${VP8}" "${vp8_max_jobs}" ${threads} \ "--token-parts=$token_partitions" done done fi } vp9_stress() { local vp9_max_jobs=${STRESS_VP9_DECODE_MAX_JOBS:-25} if [ "$(vp9_decode_available)" = "yes" -a \ "$(vp9_encode_available)" = "yes" ]; then stress vp9 "${VP9}" "${vp9_max_jobs}" "$@" fi } vp9_stress_test() { for threads in 4 8 64; do vp9_stress "$threads" "--row-mt=0" done } vp9_stress_test_row_mt() { for threads in 4 8 64; do vp9_stress "$threads" "--row-mt=1" done } run_tests stress_verify_environment \ "vp8_stress_test vp8_stress_test_token_parititions vp9_stress_test vp9_stress_test_row_mt"
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2026-04-06