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#!/bin/bash
# Copyright (c) 2017 The WebRTC 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.
#
# Usage:
#
# It is assumed that a release build of AppRTCMobile exists and has been
# installed on an Android device which supports USB debugging.
#
# Source this script once from the WebRTC src/ directory and resolve any
# reported issues. Add relative path to build directory as parameter.
# Required tools will be downloaded if they don't already exist.
#
# Once all tests are passed, a list of available functions will be given.
# Use these functions to do the actual profiling and visualization of the
# results.
#
# Note that, using a rooted device is recommended since it allows us to
# resolve kernel symbols (kallsyms) as well.
#
# Example usage:
#
# > . tools_webrtc/android/profiling/perf_setup.sh out/Release
# > perf_record 120
# > flame_graph
# > plot_flame_graph
# > perf_cleanup
if [ -n "$ZSH_VERSION" ]; then
# Running inside zsh.
SCRIPT_PATH="${(%):-%N}"
else
# Running inside something else (most likely bash).
SCRIPT_PATH="${BASH_SOURCE[0]}"
fi
SCRIPT_DIR="$(cd $(dirname "$SCRIPT_PATH") && pwd -P)"
source "${SCRIPT_DIR}/utilities.sh"
# Root directory for local symbol cache.
SYMBOL_DIR="${TMPDIR:-/tmp}/android_symbols"
# Used as a temporary folder on the Android device for data storage.
DEV_TMP_DIR="/data/local/tmp"
# Relative path to native shared library containing symbols.
NATIVE_LIB_PATH="/lib.unstripped/libjingle_peerconnection_so.so"
# Name of application package for the AppRTCMobile demo.
APP_NAME="org.appspot.apprtc"
# Make sure we're being sourced.
if [[ -n "${BASH_VERSION}" && "${BASH_SOURCE:-$0}" == "$0" ]]; then
error "perf_setup must be sourced"
exit 1
fi
function usage() {
printf "usage: . perf_setup.sh <build_dir>\n"
}
# Ensure that user includes name of build directory (e.g. out/Release) as
# input parameter. Store path in BUILD_DIR.
if [[ "$#" -eq 1 ]]; then
if is_not_dir "$1"; then
error "$1 is invalid"
return 1
fi
BUILD_DIR="$1"
else
error "Missing required parameter".
usage
return 1
fi
# Full (relative) path to the libjingle_peerconnection_so.so file.
function native_shared_lib_path() {
echo "${BUILD_DIR}${NATIVE_LIB_PATH}"
}
# Target CPU architecture for the native shared library.
# Example: AArch64.
function native_shared_lib_arch() {
readelf -h $(native_shared_lib_path) | grep Machine | awk '{print $2}'
}
# Returns true if the device architecture and the build target are the same.
function arch_is_ok() {
if [[ "$(dev_arch)" == "aarch64" ]] \
&& [[ "$(native_shared_lib_arch)" == "AArch64" ]]; then
return 0
elif [[ "$(dev_arch)" == "aarch32" ]] \
&& [[ "$(native_shared_lib_arch)" == "AArch32" ]]; then
return 0
else
return 1
fi
}
# Copies the native shared library from the local host to the symbol cache
# which is used by simpleperf as base when searching for symbols.
function copy_native_shared_library_to_symbol_cache() {
local arm_lib="arm"
if [[ "$(native_shared_lib_arch)" == "AArch64" ]]; then
arm_lib="arm64"
fi
for num in 1 2; do
local dir="${SYMBOL_DIR}/data/app/${APP_NAME}-${num}/lib/${arm_lib}"
mkdir -p "${dir}"
cp -u $(native_shared_lib_path) "${dir}"
done
}
# Copy kernel symbols from device to symbol cache in tmp.
function copy_kernel_symbols_from_device_to_symbol_cache() {
local symbol_cache="${SYMBOL_DIR}/kallsyms"
adb pull /proc/kallsyms "${symbol_cache}"
} 1> /dev/null
# Download the correct version of 'simpleperf' to $DEV_TMP_DIR
# on the device and enable profiling.
function copy_simpleperf_to_device() {
local perf_binary
[[ $(dev_arch) == "aarch64" ]] \
&& perf_binary="/arm64/simpleperf" \
|| perf_binary="/arm/simpleperf"
# Copy the simpleperf binary from local host to temp folder on device.
adb push "${SCRIPT_DIR}/simpleperf/bin/android${perf_binary}" \
"${DEV_TMP_DIR}" 1> /dev/null
# Copy simpleperf from temp folder to the application package.
adb shell run-as "${APP_NAME}" cp "${DEV_TMP_DIR}/simpleperf" .
adb shell run-as "${APP_NAME}" chmod a+x simpleperf
# Enable profiling on the device.
enable_profiling
# Allows usage of running report commands on the device.
if image_is_root; then
enable_report_symbols
fi
}
# Copy the recorded 'perf.data' file from the device to the current directory.
# TODO(henrika): add support for specifying the destination.
function pull_perf_data_from_device() {
adb shell run-as "${APP_NAME}" cp perf.data /sdcard/perf.data
adb pull sdcard/perf.data .
} 1> /dev/null
# Wraps calls to simpleperf report. Used by e.g. perf_report_threads.
# A valid profile input file must exist in the current folder.
# TODO(henrika): possibly add support to add path to alternative input file.
function perf_report() {
local perf_data="perf.data"
is_file "${perf_data}" \
&& simpleperf report \
-n \
-i "${perf_data}" \
"$@" \
|| error "$(pwd)/${perf_data} is invalid"
}
# Removes the folder specified as input parameter. Mainly intended for removal
# of simpleperf and Flame Graph tools.
function remove_tool() {
local tool_dir="$1"
if is_dir "${tool_dir}"; then
echo "Removing ${tool_dir}..."
rm -rf "${tool_dir}"
path_remove "${tool_dir}"
fi
}
# Utility method which deletes the downloaded simpleperf tool from the repo.
# It also removes the simpleperf root folder from PATH.
function rm_simpleperf() {
remove_tool "${SCRIPT_DIR}/simpleperf"
}
# Utility method which deletes the downloaded Flame Graph tool from the repo.
# It also removes the Flame Graph root folder from PATH.
function rm_flame_graph() {
remove_tool "${SCRIPT_DIR}/flamegraph"
}
# Lists the main available functions after sourcing this script.
function print_function_help() {
printf "\nAvailable functions in this shell:\n"
printf " perf_record [duration, default=60sec]\n"
printf " perf_report_threads\n"
printf " perf_report_bins\n"
printf " perf_report_symbols\n"
printf " perf_report_graph\n"
printf " perf_report_graph_callee\n"
printf " perf_update\n"
printf " perf_cleanup\n"
printf " flame_graph\n"
printf " plot_flame_graph\n"
}
function cleanup() {
unset -f main
}
# -----------------------------------------------------------------------------
# Main methods to be used after sourcing the main script.
# -----------------------------------------------------------------------------
# Call this method after the application as been rebuilt and installed on the
# device to ensure that symbols are up-to-date.
function perf_update() {
copy_native_shared_library_to_symbol_cache
if image_is_root; then
copy_kernel_symbols_from_device_to_symbol_cache
fi
}
# Record stack frame based call graphs while using the application.
# We use default events (cpu-cycles), and write records to 'perf.data' in the
# tmp folder on the device. Default duration is 60 seconds but it can be changed
# by adding one parameter. As soon as the recording is done, 'perf.data' is
# copied to the directory from which this method is called and a summary of
# the load distribution per thread is printed.
function perf_record() {
if app_is_running "${APP_NAME}"; then
# Ensure that the latest native shared library exists in the local cache.
copy_native_shared_library_to_symbol_cache
local duration=60
if [ "$#" -eq 1 ]; then
duration="$1"
fi
local pid=$(find_app_pid "${APP_NAME}")
echo "Profiling PID $pid for $duration seconds (media must be is active)..."
adb shell run-as "${APP_NAME}" ./simpleperf record \
--call-graph fp \
-p "${pid}" \
-f 1000 \
--duration "${duration}" \
--log error
# Copy profile results from device to current directory.
pull_perf_data_from_device
# Print out a summary report (load per thread).
perf_report_threads | tail -n +6
else
# AppRTCMobile was not enabled. Start it up automatically and ask the user
# to start media and then call this method again.
warning "AppRTCMobile must be active"
app_start "${APP_NAME}"
echo "Start media and then call perf_record again..."
fi
}
# Analyze the profile report and show samples per threads.
function perf_report_threads() {
perf_report --sort comm
} 2> /dev/null
# Analyze the profile report and show samples per binary.
function perf_report_bins() {
perf_report --sort dso
} 2> /dev/null
# Analyze the profile report and show samples per symbol.
function perf_report_symbols() {
perf_report --sort symbol --symfs "${SYMBOL_DIR}"
}
# Print call graph showing how functions call others.
function perf_report_graph() {
perf_report -g caller --symfs "${SYMBOL_DIR}"
}
# Print call graph showing how functions are called from others.
function perf_report_graph_callee() {
perf_report -g callee --symfs "${SYMBOL_DIR}"
}
# Plots the default Flame Graph file if no parameter is provided.
# If a parameter is given, it will be used as file name instead of the default.
function plot_flame_graph() {
local file_name="flame_graph.svg"
if [[ "$#" -eq 1 ]]; then
file_name="$1"
fi
# Open up the SVG file in Chrome. Try unstable first and revert to stable
# if unstable fails.
google-chrome-unstable "${file_name}" \
|| google-chrome-stable "${file_name}" \
|| error "failed to find any Chrome instance"
} 2> /dev/null
# Generate Flame Graph in interactive SVG format.
# First input parameter corresponds to output file name and second input
# parameter is the heading of the plot.
# Defaults will be utilized if parameters are not provided.
function flame_graph() {
local perf_data="perf.data"
if is_not_file $perf_data; then
error "$(pwd)/${perf_data} is invalid"
return 1
fi
local file_name="flame_graph.svg"
local title="WebRTC Flame Graph"
if [[ "$#" -eq 1 ]]; then
file_name="$1"
fi
if [[ "$#" -eq 2 ]]; then
file_name="$1"
title="$2"
fi
if image_is_not_root; then
report_sample.py \
--symfs "${SYMBOL_DIR}" \
perf.data >out.perf
else
report_sample.py \
--symfs "${SYMBOL_DIR}" \
--kallsyms "${SYMBOL_DIR}/kallsyms" \
perf.data >out.perf
fi
stackcollapse-perf.pl out.perf >out.folded
flamegraph.pl --title="${title}" out.folded >"${file_name}"
rm out.perf
rm out.folded
}
# Remove all downloaded third-party tools.
function perf_cleanup () {
rm_simpleperf
rm_flame_graph
}
main() {
printf "%s\n" "Preparing profiling of AppRTCMobile on Android:"
# Verify that this script is called from the root folder of WebRTC,
# i.e., the src folder one step below where the .gclient file exists.
local -r project_root_dir=$(pwd)
local dir=${project_root_dir##*/}
if [[ "${dir}" != "src" ]]; then
error "script must be called from the WebRTC project root (src) folder"
return 1
fi
ok "project root: ${project_root_dir}"
# Verify that user has sourced envsetup.sh.
# TODO(henrika): might be possible to remove this check.
if [[ -z "$ENVSETUP_GYP_CHROME_SRC" ]]; then
error "must source envsetup script first"
return 1
fi
ok "envsetup script has been sourced"
# Given that envsetup is sourced, the adb tool should be accessible but
# do one extra check just in case.
local adb_full_path=$(which adb);
if [[ ! -x "${adb_full_path}" ]]; then
error "unable to find the Android Debug Bridge (adb) tool"
return 1
fi
ok "adb tool is working"
# Exactly one Android device must be connected.
if ! one_device_connected; then
error "one device must be connected"
return 1
fi
ok "one device is connected via USB"
# Restart adb with root permissions if needed.
if image_is_root && adb_has_no_root_permissions; then
adb root
ok "adb is running as root"
fi
# Create an empty symbol cache in the tmp folder.
# TODO(henrika): it might not be required to start from a clean cache.
is_dir "${SYMBOL_DIR}" && rm -rf "${SYMBOL_DIR}"
mkdir "${SYMBOL_DIR}" \
&& ok "empty symbol cache created at ${SYMBOL_DIR}" \
|| error "failed to create symbol cache"
# Ensure that path to the native library with symbols is valid.
local native_lib=$(native_shared_lib_path)
if is_not_file ${native_lib}; then
error "${native_lib} is not a valid file"
return 1
fi
ok "native library: "${native_lib}""
# Verify that the architechture of the device matches the architecture
# of the native library.
if ! arch_is_ok; then
error "device is $(dev_arch) and lib is $(native_shared_lib_arch)"
return 1
fi
ok "device is $(dev_arch) and lib is $(native_shared_lib_arch)"
# Copy native shared library to symbol cache after creating an
# application specific tree structure under ${SYMBOL_DIR}/data.
copy_native_shared_library_to_symbol_cache
ok "native library copied to ${SYMBOL_DIR}/data/app/${APP_NAME}"
# Verify that the application is installed on the device.
if ! app_is_installed "${APP_NAME}"; then
error "${APP_NAME} is not installed on the device"
return 1
fi
ok "${APP_NAME} is installed on the device"
# Download simpleperf to <src>/tools_webrtc/android/profiling/simpleperf/.
# Cloning will only take place if the target does not already exist.
# The PATH variable will also be updated.
# TODO(henrika): would it be better to use a target outside the WebRTC repo?
local simpleperf_dir="${SCRIPT_DIR}/simpleperf"
if is_not_dir "${simpleperf_dir}"; then
echo "Dowloading simpleperf..."
"${simpleperf_dir}"
chmod u+x "${simpleperf_dir}/report_sample.py"
fi
path_add "${simpleperf_dir}"
ok "${simpleperf_dir}" is added to PATH
# Update the PATH variable with the path to the Linux version of simpleperf.
local simpleperf_linux_dir="${SCRIPT_DIR}/simpleperf/bin/linux/x86_64/"
if is_not_dir "${simpleperf_linux_dir}"; then
error "${simpleperf_linux_dir} is invalid"
return 1
fi
path_add "${simpleperf_linux_dir}"
ok "${simpleperf_linux_dir}" is added to PATH
# Copy correct version (arm or arm64) of simpleperf to the device
# and enable profiling at the same time.
if ! copy_simpleperf_to_device; then
error "failed to install simpleperf on the device"
return 1
fi
ok "simpleperf is installed on the device"
# Refresh the symbol cache and read kernal symbols from device if not
# already done.
perf_update
ok "symbol cache is updated"
# Download Flame Graph to <src>/tools_webrtc/android/profiling/flamegraph/.
# Cloning will only take place if the target does not already exist.
# The PATH variable will also be updated.
# TODO(henrika): would it be better to use a target outside the WebRTC repo?
local flamegraph_dir="${SCRIPT_DIR}/flamegraph"
if is_not_dir "${flamegraph_dir}"; then
echo "Dowloading Flame Graph visualization tool..."
fi
path_add "${flamegraph_dir}"
ok "${flamegraph_dir}" is added to PATH
print_function_help
cleanup
return 0
}
# Only call main() if proper input parameter has been provided.
if is_set $BUILD_DIR; then
main "$@"
fi