breakpad/android/run-checks.sh
digit@chromium.org 0bed408b15 Add Android NDK module definition + sample application
This patch adds a new directory named "android/" which contains
the following:

- A NDK build system module definition for the Google Breakpad
  client library. This can be used by developers using the ndk-build
  build system to more easily build and use the client library in
  their own programs.

- A sample application demonstrating how to use the module,
  as well as test that the library works properly during a
  crash.

- A shell script (run-checks.sh) that will check everything
  for you automatically, including:

  - Rebuilding the host Google Breakpad host package with configure/make
  - Rebuilding the Android client library with configure/make
  - Rebuilding the Android client library and test program with ndk-build
  - Running the crashing test program, extract minidump, dump symbols,
    generate a stack trace and check that it has correct source file
    locations.

For more details, run android/run-checks.sh --help-all

+ Updates to the README.ANDROID documentation.
Review URL: https://breakpad.appspot.com/407002

git-svn-id: http://google-breakpad.googlecode.com/svn/trunk@983 4c0a9323-5329-0410-9bdc-e9ce6186880e
2012-07-09 19:02:17 +00:00

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#!/bin/sh
# Copyright (c) 2012 Google Inc.
# 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 Google Inc. 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.
# Sanitize the environment
export LANG=C
export LC_ALL=C
if [ "$BASH_VERSION" ]; then
set -o posix
fi
PROGDIR=$(dirname "$0")
PROGDIR=$(cd "$PROGDIR" && pwd)
PROGNAME=$(basename "$0")
# Utility functions
TMPDIR=
# Used to exit the program after removing the temporary directory.
clean_exit () {
if [ "$TMPDIR" ]; then
if [ -z "$NO_CLEANUP" ]; then
log "Cleaning up: $TMPDIR"
rm -rf "$TMPDIR"
else
dump "Temporary directory contents preserved: $TMPDIR"
fi
fi
exit "$@"
}
# Dump a panic message then exit.
panic () {
echo "ERROR: $@"
clean_exit 1;
}
# If the previous command failed, dump a panic message then exit.
fail_panic () {
if [ $? != 0 ]; then
panic "$@"
fi;
}
# Extract number of cores to speed up the builds
get_core_count () {
case $(uname -s) in
Linux)
grep -c -e '^processor' /proc/cpuinfo
;;
Darwin)
sysctl -n hw.ncpu
;;
CYGWIN*|*_NT-*)
echo $NUMBER_OF_PROCESSORS
;;
*)
echo 1
;;
esac
}
ADB=
ENABLE_M32=
HELP=
HELP_ALL=
NDK_DIR=
NO_CLEANUP=
NO_DEVICE=
NUM_JOBS=$(get_core_count)
TMPDIR=
VERBOSE=0
for opt do
# The following extracts the value if the option is like --name=<value>.
optarg=$(expr -- $opt : '^--[^=]*=\(.*\)$')
case $opt in
--adb=*) ADB=$optarg;;
--enable-m32) ENABLE_M32=true;;
--help|-h|-?) HELP=TRUE;;
--help-all) HELP_ALL=true;;
--jobs=*) NUM_JOBS=$optarg;;
--ndk-dir=*) NDK_DIR=$optarg;;
--tmp-dir=*) TMPDIR=$optarg;;
--no-cleanup) NO_CLEANUP=true;;
--no-device) NO_DEVICE=true;;
--quiet) VERBOSE=$(( $VERBOSE - 1 ));;
--verbose) VERBOSE=$(( $VERBOSE + 1 ));;
-*) panic "Invalid option '$opt', see --help for details.";;
*) panic "This script doesn't take any parameters. See --help for details."
;;
esac
done
if [ "$HELP" -o "$HELP_ALL" ]; then
echo "\
Usage: $PROGNAME [options]
This script is used to check that your Google Breakpad source tree can
be properly built for Android, and that the client library and host tools
work properly together.
"
if [ "$HELP_ALL" ]; then
echo "\
In more details, this script will:
- Rebuild the host version of Google Breakpad in a temporary
directory (with the Auto-tools based build system).
- Rebuild the Android client library with the Google Breakpad build
system (using autotools/configure). This requires that you define
ANDROID_NDK_ROOT in your environment to point to a valid Android NDK
installation directory, or use the --ndk-dir=<path> option.
- Rebuild the Android client library and a test crashing program with the
Android NDK build system (ndk-build).
- Require an Android device connected to your machine, and the 'adb'
tool in your path. They are used to:
- Install and run a test crashing program.
- Extract the corresponding minidump from the device.
- Dump the symbols from the test program on the host with 'dump_syms'
- Generate a stack trace with 'minidump_stackwalk'
- Check the stack trace content for valid source file locations.
You can however skip this requirement and only test the builds by using
the --no-device flag.
By default, all generated files will be created in a temporary directory
that is removed when the script completion. If you want to inspect the
files, use the --no-cleanup option.
Finally, use --verbose to increase the verbosity level, this will help
you see which exact commands are being issues and their result. Use the
flag twice for even more output. Use --quiet to decrease verbosity
instead and run the script silently.
"
fi # HELP_ALL
echo "\
Valid options:
--help|-h|-? Display this message.
--help-all Display extended help.
--enable-m32 Build 32-bit version of host tools.
--jobs=<count> Run <count> build tasks in parallel [$NUM_JOBS].
--ndk-dir=<path> Specify NDK installation directory.
--tmp-dir=<path> Specify temporary directory (will be wiped-out).
--adb=<path> Specify adb program path.
--no-cleanup Don't remove temporary directory after completion.
--no-device Do not try to detect devices, nor run crash test.
--verbose Increase verbosity.
--quiet Decrease verbosity."
clean_exit 0
fi
# Dump message to stdout, unless verbosity is < 0, i.e. --quiet was called
dump () {
if [ "$VERBOSE" -ge 0 ]; then
echo "$@"
fi
}
# If --verbose was used, dump a message to stdout.
log () {
if [ "$VERBOSE" -ge 1 ]; then
echo "$@"
fi
}
# Run a command. Output depends on $VERBOSE:
# $VERBOSE <= 0: Run command, store output into the run log
# $VERBOSE >= 1: Dump command, run it, output goest to stdout
# Note: Ideally, the command's output would go to the run log for $VERBOSE >= 1
# but the 'tee' tool doesn't preserve the status code of its input pipe
# in case of error.
run () {
local LOGILE
if [ "$RUN_LOG" ]; then
LOGFILE=$RUN_LOG
else
LOGFILE=/dev/null
fi
if [ "$VERBOSE" -ge 1 ]; then
echo "COMMAND: $@"
"$@"
else
"$@" >>$LOGFILE 2>&1
fi
}
# Same as run(), but only dump command output for $VERBOSE >= 2
run2 () {
local LOGILE
if [ "$RUN_LOG" ]; then
LOGFILE=$RUN_LOG
else
LOGFILE=/dev/null
fi
if [ "$VERBOSE" -ge 1 ]; then
echo "COMMAND: $@"
fi
if [ "$VERBOSE" -ge 2 ]; then
"$@"
else
"$@" >>$LOGFILE 2>&1
fi
}
TESTAPP_DIR=$PROGDIR/sample_app
# Select NDK install directory.
if [ -z "$NDK_DIR" ]; then
if [ -z "$ANDROID_NDK_ROOT" ]; then
panic "Please define ANDROID_NDK_ROOT in your environment, or use \
--ndk-dir=<path>."
fi
NDK_DIR="$ANDROID_NDK_ROOT"
log "Found NDK directory: $NDK_DIR"
else
log "Using NDK directory: $NDK_DIR"
fi
# Small sanity check.
NDK_BUILD="$NDK_DIR/ndk-build"
if [ ! -f "$NDK_BUILD" ]; then
panic "Your NDK directory is not valid (missing ndk-build): $NDK_DIR"
fi
# If --tmp-dir=<path> is not used, create a temporary directory.
# Otherwise, start by cleaning up the user-provided path.
if [ -z "$TMPDIR" ]; then
TMPDIR=$(mktemp -d /tmp/$PROGNAME.XXXXXXXX)
fail_panic "Can't create temporary directory!"
log "Using temporary directory: $TMPDIR"
else
if [ ! -d "$TMPDIR" ]; then
mkdir -p "$TMPDIR"
fail_panic "Can't create temporary directory: $TMPDIR"
else
log "Cleaning up temporary directory: $TMPDIR"
rm -rf "$TMPDIR"/*
fail_panic "Cannot cleanup temporary directory!"
fi
fi
# Ensure a clean exit when the script is:
# - Interrupted by Ctrl-C (INT)
# - Interrupted by log out (HUP)
# - Being asked to quit nicely (TERM)
# - Being asked to quit and dump core (QUIT)
trap "clean_exit 1" INT HUP TERM QUIT
# The 'adb shell' command is pretty hopeless, try to make sense of it by:
# 1/ Removing trailing \r from line endings.
# 2/ Ensuring the function returns the command's status code.
#
adb_shell () {
local RET ADB_LOG
ADB_LOG=$(mktemp "$TMPDIR/adb-XXXXXXXX")
"$ADB" shell "$@" ";" echo \$? > "$ADB_LOG" 2>&1
sed -i -e 's![[:cntrl:]]!!g' "$ADB_LOG" # Remove \r.
RET=$(sed -e '$!d' "$ADB_LOG") # Last line contains status code.
sed -e '$d' "$ADB_LOG" # Print everything except last line.
rm -f "$ADB_LOG"
return $RET
}
check_for_adb () {
local ADB_VERSION ADB_DEVICES NUM_DEVICES FINGERPRINT
# Auto-detect ADB in current path when needed.
if [ -z "$ADB" ]; then
ADB=$(which adb 2>/dev/null)
if [ -z "$ADB" ]; then
panic "The 'adb' tool is not in your path! Use either --no-device to\
only check the builds, or --adb=<path> to specify the tool path."
fi
log "Found ADB path: $ADB"
else
log "Using ADB path: $ADB"
fi
# Check that it works.
ADB_VERSION=$("$ADB" version 2>/dev/null)
case $ADB_VERSION in
"Android Debug Bridge "*) # Pass.
log "Found ADB version: $ADB_VERSION"
;;
*) # Fail.
panic "Your ADB binary does not seem to work: $ADB"
;;
esac
# Count the number of connected devices.
ADB_DEVICES=$("$ADB" devices 2>/dev/null | awk '$2 == "device" { print $1; }')
if [ "$ADB_DEVICES" ]; then
NUM_DEVICES=$(echo "$ADB_DEVICES" | wc -l)
else
NUM_DEVICES=0
fi
case $NUM_DEVICES in
0)
panic "No Android device connected! Connect one, or use --no-device \
to only check the builds."
;;
1)
export ANDROID_SERIAL=$ADB_DEVICES
;;
*)
if [ "$ANDROID_SERIAL" ]; then
ADB_DEVICES=$ANDROID_SERIAL
NUM_DEVICES=1
else
dump "ERROR: More than one Android device connected. Please define \
ANDROID_SERIAL"
dump " in your environment, or use --no-device to only check \
the builds."
clean_exit 1
fi
;;
esac
FINGERPRINT=$(adb_shell getprop ro.build.fingerprint)
dump "Using device: $ANDROID_SERIAL ($FINGERPRINT)"
}
if [ -z "$NO_DEVICE" ]; then
check_for_adb
fi
BUILD_LOG="$TMPDIR/build.log"
RUN_LOG="$TMPDIR/run.log"
CRASH_LOG="$TMPDIR/crash.log"
TMPHOST="$TMPDIR/host-local"
cd "$TMPDIR"
# Build host version of the tools
dump "Building host tools."
CONFIGURE_FLAGS=
if [ "$ENABLE_M32" ]; then
CONFIGURE_FLAGS="$CONFIGURE_FLAGS --enable-m32"
fi
(
run mkdir "$TMPDIR/build-host" &&
run cd "$TMPDIR/build-host" &&
run2 "$PROGDIR/../configure" --prefix="$TMPHOST" $CONFIGURE_FLAGS &&
run2 make -j$NUM_JOBS install
)
fail_panic "Can't build host-tools!"
TMPBIN=$TMPHOST/bin
# Generate a stand-alone NDK toolchain
# Extract ABI and architecture from device, if any.
if [ "$ADB" ]; then
ABI=$(adb_shell getprop ro.product.cpu.abi)
if [ -z "$ABI" ]; then
panic "Can't extract ABI from connected device!"
fi
dump "Found device ABI: $ABI"
else
# No device connected, choose default ABI
ABI=armeabi
dump "Default ABI: $ABI"
fi
# Compute architecture name
case $ABI in
arm*) ARCH=arm;;
*) ARCH="$ABI";;
esac
# Extract GNU configuration name
case $ARCH in
arm) GNU_CONFIG=arm-linux-androideabi;;
*) GNU_CONFIG="$ARCH-linux-android";;
esac
# Generate standalone NDK toolchain installation
NDK_STANDALONE="$TMPDIR/ndk-$ARCH-toolchain"
echo "Generating NDK standalone toolchain installation"
mkdir -p "$NDK_STANDALONE"
run "$NDK_DIR/build/tools/make-standalone-toolchain.sh" \
--arch="$ARCH" \
--install-dir="$NDK_STANDALONE"
fail_panic "Can't generate standalone NDK toolchain installation!"
# Rebuild the client library with the auto-tools base build system.
# Even though it's not going to be used, this checks that this still
# works correctly.
echo "Building client Android library with configure/make"
TMPTARGET="$TMPDIR/target-local"
(
PATH="$NDK_STANDALONE/bin:$PATH"
run mkdir "$TMPTARGET" &&
run mkdir "$TMPDIR"/build-target &&
run cd "$TMPDIR"/build-target &&
run2 "$PROGDIR"/../configure --prefix="$TMPTARGET" \
--host="$GNU_CONFIG" \
--disable-tools \
--disable-processor &&
run2 make -j$NUM_JOBS install
)
fail_panic "Could not rebuild Android client library!"
# Copy sources to temporary directory
PROJECT_DIR=$TMPDIR/project
dump "Copying test program sources to: $PROJECT_DIR"
run cp -r "$TESTAPP_DIR" "$PROJECT_DIR" &&
run rm -rf "$PROJECT_DIR/obj" &&
run rm -rf "$PROJECT_DIR/libs"
fail_panic "Could not copy test program sources to: $PROJECT_DIR"
# Build the test program with ndk-build.
dump "Building test program with ndk-build"
export NDK_MODULE_PATH="$PROGDIR"
NDK_BUILD_FLAGS="-j$NUM_JOBS"
if [ "$VERBOSE" -ge 2 ]; then
NDK_BUILD_FLAGS="$NDK_BUILD_FLAGS NDK_LOG=1 V=1"
fi
run "$NDK_DIR/ndk-build" -C "$PROJECT_DIR" $NDK_BUILD_FLAGS
fail_panic "Can't build test program!"
# Unless --no-device was used, stop right here if ADB isn't in the path,
# or there is no connected device.
if [ "$NO_DEVICE" ]; then
dump "Done. Please connect a device to run all tests!"
clean_exit 0
fi
# Push the program to the device.
TESTAPP=test_google_breakpad
TESTAPP_FILE="$PROJECT_DIR/libs/$ABI/test_google_breakpad"
if [ ! -f "$TESTAPP_FILE" ]; then
panic "Device requires '$ABI' binaries. None found!"
fi
# Run the program there
dump "Installing test program on device"
DEVICE_TMP=/data/local/tmp
run "$ADB" push "$TESTAPP_FILE" "$DEVICE_TMP/"
fail_panic "Cannot push test program to device!"
dump "Running test program on device"
adb_shell cd "$DEVICE_TMP" "&&" ./$TESTAPP > "$CRASH_LOG" 2>/dev/null
if [ $? = 0 ]; then
panic "Test program did *not* crash as expected!"
fi
if [ "$VERBOSE" -ge 1 ]; then
echo -n "Crash log: "
cat "$CRASH_LOG"
fi
# Extract minidump from device
MINIDUMP_NAME=$(awk '$1 == "Dump" && $2 == "path:" { print $3; }' "$CRASH_LOG")
MINIDUMP_NAME=$(basename "$MINIDUMP_NAME")
if [ -z "$MINIDUMP_NAME" ]; then
panic "Test program didn't write minidump properly!"
fi
dump "Extracting minidump: $MINIDUMP_NAME"
run "$ADB" pull "$DEVICE_TMP/$MINIDUMP_NAME" .
fail_panic "Can't extract minidump!"
dump "Parsing test program symbols"
if [ "$VERBOSE" -ge 1 ]; then
log "COMMAND: $TMPBIN/dump_syms \
$PROJECT_DIR/obj/local/$ABI/$TESTAPP >$TESTAPP.sym"
fi
"$TMPBIN/dump_syms" "$PROJECT_DIR/obj/local/$ABI/$TESTAPP" > $TESTAPP.sym
fail_panic "dump_syms doesn't work!"
VERSION=$(awk '$1 == "MODULE" { print $4; }' $TESTAPP.sym)
dump "Found module version: $VERSION"
if [ -z "$VERSION" ]; then
echo "ERROR: Can't find proper module version from symbol dump!"
head -n5 $TESTAPP.sym
clean_exit 1
fi
run mkdir -p "$TMPDIR/symbols/$TESTAPP/$VERSION"
run mv $TESTAPP.sym "$TMPDIR/symbols/$TESTAPP/$VERSION/"
dump "Generating stack trace"
# Don't use 'run' to be able to send stdout and stderr to two different files.
log "COMMAND: $TMPBIN/minidump_stackwalk $MINIDUMP_NAME symbols"
"$TMPBIN/minidump_stackwalk" $MINIDUMP_NAME \
"$TMPDIR/symbols" \
> "$BUILD_LOG" 2>>"$RUN_LOG"
fail_panic "minidump_stackwalk doesn't work!"
dump "Checking stack trace content"
if [ "$VERBOSE" -ge 1 ]; then
cat "$BUILD_LOG"
fi
# The generated stack trace should look like the following:
#
# Thread 0 (crashed)
# 0 test_google_breakpad!crash [test_breakpad.cpp : 17 + 0x4]
# r4 = 0x00015530 r5 = 0xbea2cbe4 r6 = 0xffffff38 r7 = 0xbea2cb5c
# r8 = 0x00000000 r9 = 0x00000000 r10 = 0x00000000 fp = 0x00000000
# sp = 0xbea2cb50 lr = 0x00009025 pc = 0x00008f84
# Found by: given as instruction pointer in context
# 1 test_google_breakpad!main [test_breakpad.cpp : 25 + 0x3]
# r4 = 0x00015530 r5 = 0xbea2cbe4 r6 = 0xffffff38 r7 = 0xbea2cb5c
# r8 = 0x00000000 r9 = 0x00000000 r10 = 0x00000000 fp = 0x00000000
# sp = 0xbea2cb50 pc = 0x00009025
# Found by: call frame info
# 2 libc.so + 0x164e5
# r4 = 0x00008f64 r5 = 0xbea2cc34 r6 = 0x00000001 r7 = 0xbea2cc3c
# r8 = 0x00000000 r9 = 0x00000000 r10 = 0x00000000 fp = 0x00000000
# sp = 0xbea2cc18 pc = 0x400c34e7
# Found by: call frame info
# ...
#
# The most important part for us is ensuring that the source location could
# be extracted, so look at the 'test_breakpad.cpp' references here.
#
# First, extract all the lines with test_google_breakpad! in them, and
# dump the corresponding crash location.
#
# Note that if the source location can't be extracted, the second field
# will only be 'test_google_breakpad' without the exclamation mark.
#
LOCATIONS=$(awk '$2 ~ "^test_google_breakpad!.*" { print $3; }' "$BUILD_LOG")
if [ -z "$LOCATIONS" ]; then
if [ "$VERBOSE" -lt 1 ]; then
cat "$BUILD_LOG"
fi
panic "No source location found in stack trace!"
fi
# Now check that they all match "[<source file>"
BAD_LOCATIONS=
for LOCATION in $LOCATIONS; do
case $LOCATION in
# Escape the opening bracket, or some shells like Dash will not
# match them properly.
\[*.cpp|\[*.cc|\[*.h) # These are valid source locations in our executable
;;
*) # Everything else is not!
BAD_LOCATIONS="$BAD_LOCATIONS $LOCATION"
;;
esac
done
if [ "$BAD_LOCATIONS" ]; then
dump "ERROR: Generated stack trace doesn't contain valid source locations:"
cat "$BUILD_LOG"
echo "Bad locations are: $BAD_LOCATIONS"
clean_exit 1
fi
echo "All clear! Congratulations."
clean_exit 0