#!/bin/sh # # Copyright (C) 2010 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # This wrapper script is used to launch a native debugging session # on a given NDK application. The application must be debuggable, i.e. # its android:debuggable attribute must be set to 'true' in the # element of its manifest. # # See docs/NDK-GDB.TXT for usage description. Essentially, you just # need to launch ndk-gdb from your application project directory # after doing ndk-build && ant install && # PROGDIR=`dirname $0` PROGDIR=`cd $PROGDIR && pwd -P` # Check if absolute NDK path contain space # case $PROGDIR in *\ *) echo "ERROR: NDK path cannot contain space" exit 1 ;; esac NDK_BUILDTOOLS_PATH=$PROGDIR/build/tools . $PROGDIR/build/tools/prebuilt-common.sh . $PROGDIR/build/tools/ndk-common.sh force_32bit_binaries # Find if a given shell program is available. # We need to take care of the fact that the 'which ' command # may return either an empty string (Linux) or something like # "no in ..." (Darwin). Also, we need to redirect stderr # to /dev/null for Cygwin # # $1: program name # Out: program path, or empty string # Return: 0 on success, != 0 on error # find_program () { local PROG RET PROG=$(which "$1" 2>/dev/null) RET=$? if [ $RET != 0 ]; then PROG= fi echo "$PROG" return $RET } quote_spaces () { echo "$@" | sed -e 's! !\ !g' } # If ADB_CMD is not defined, try to find a program named 'adb' # in our path. ADB_CMD=${ADB_CMD:-$(find_program adb)} ADB_FLAGS=${ADB_FLAGS:-} DEVICE_SERIAL= JDB_CMD=${JDB_CMD:-$(find_program jdb)} AWK_CMD=${AWK_CMD:-$(find_program awk)} DEBUG_PORT=5039 JDB_PORT=65534 UNKNOWN_ABI=$(find_ndk_unknown_archs) # Delay in seconds between launching the activity and attaching gdbserver on it. # This is needed because there is no way to know when the activity has really # started, and sometimes this takes a few seconds. DELAY=2 PARAMETERS= OPTION_HELP=no OPTION_PROJECT= OPTION_FORCE=no OPTION_ADB= OPTION_EXEC= OPTION_START=no OPTION_LAUNCH= OPTION_LAUNCH_LIST=no OPTION_DELAY= OPTION_WAIT="-D" OPTION_PACKAGE_NAME= check_parameter () { if [ -z "$2" ]; then echo "ERROR: Missing parameter after option '$1'" exit 1 fi } check_adb_flags () { if [ -n "$ADB_FLAGS" ] ; then echo "ERROR: Only one of -e, -d or -s can be used at the same time!" exit 1 fi } get_build_var () { if [ -z "$GNUMAKE" ] ; then GNUMAKE=make fi $GNUMAKE --no-print-dir -f $ANDROID_NDK_ROOT/build/core/build-local.mk -C $PROJECT DUMP_$1 | tail -1 } get_build_var_for_abi () { if [ -z "$GNUMAKE" ] ; then GNUMAKE=make fi $GNUMAKE --no-print-dir -f $ANDROID_NDK_ROOT/build/core/build-local.mk -C $PROJECT DUMP_$1 APP_ABI=$2 | tail -1 } # Used to run an awk script on the manifest run_awk_manifest_script () { $AWK_CMD -f $AWK_SCRIPTS/$1 $PROJECT/$MANIFEST } if [ "$HOST_OS" = "cygwin" ] ; then # Return native path representation from cygwin one # $1: a cygwin-compatible path (e.g. /cygdrive/c/some/thing) # Return: path in host windows representation, e.g. C:/some/thing # # We use mixed mode (i.e. / as the directory separator) because # all the tools we use recognize it properly, and it avoids lots # of escaping nonsense associated with "\" # native_path () { cygpath -m $1 } else # HOST_OS != windows native_path () { echo "$1" } fi # HOST_OS != windows # We need to ensure the ANDROID_NDK_ROOT is absolute, otherwise calls # to get_build_var, get_build_var_for_abi and run_awk_manifest_script # might fail, e.g. when invoked with: # # cd $NDKROOT # ./ndk-gdb --project=/path/to/project # path_is_absolute () { local P P2 P=$1 # copy path P2=${P#/} # remove / prefix, if any [ "$P" != "$P2" ] } if ! path_is_absolute "$ANDROID_NDK_ROOT"; then ANDROID_NDK_ROOT=$(pwd)/$ANDROID_NDK_ROOT fi VERBOSE=no while [ -n "$1" ]; do opt="$1" optarg=`expr "x$opt" : 'x[^=]*=\(.*\)'` case "$opt" in --help|-h|-\?) OPTION_HELP=yes ;; --verbose) VERBOSE=yes ;; -s) check_parameter $1 $2 check_adb_flags ADB_FLAGS=" -s" DEVICE_SERIAL=$2 shift ;; -s*) check_adb_flags optarg=`expr -- "$opt" : '-s\(.*\)'` ADB_FLAGS=" -s" DEVICE_SERIAL=$optarg ;; -p) check_parameter $1 $2 OPTION_PROJECT="$2" shift ;; -p*) optarg=`expr -- "$opt" : '-p\(.*\)'` OPTION_PROJECT="$optarg" ;; --exec=*) OPTION_EXEC="$optarg" ;; -x) check_parameter $1 $2 OPTION_EXEC="$2" shift ;; -x*) optarg=`expr -- "$opt" : '-x\(.*\)'` OPTION_EXEC="$optarg" ;; -e) check_adb_flags ADB_FLAGS=" -e" ;; -d) check_adb_flags ADB_FLAGS=" -d" ;; --adb=*) # specify ADB command OPTION_ADB="$optarg" ;; --awk=*) AWK_CMD="$optarg" ;; --project=*) OPTION_PROJECT="$optarg" ;; --port=*) DEBUG_PORT="$optarg" ;; --force) OPTION_FORCE="yes" ;; --launch-list) OPTION_LAUNCH_LIST="yes" ;; --launch=*) OPTION_LAUNCH="$optarg" ;; --start) OPTION_START=yes ;; --delay=*) OPTION_DELAY="$optarg" ;; --nowait) JDB_PORT= OPTION_WAIT= ;; --package=*) OPTION_PACKAGE_NAME="$optarg" ;; -*) # unknown options echo "ERROR: Unknown option '$opt', use --help for list of valid ones." exit 1 ;; *) # Simply record parameter if [ -z "$PARAMETERS" ] ; then PARAMETERS="$opt" else PARAMETERS="$PARAMETERS $opt" fi ;; esac shift done if [ -z "$JDB_CMD" ] && [ -n "$OPTION_WAIT" ]; then echo "ERROR: 'jdb' not found; you must either install the JDK, or specify --nowait" exit 1 fi if [ -n "$JDB_PORT" ] && [ "$JDB_PORT" = "$DEBUG_PORT" ]; then echo "ERROR: --port specified cannot be $JDB_PORT without --nowait" exit 1 fi if [ "$OPTION_HELP" = "yes" ] ; then echo "Usage: $PROGNAME [options]" echo "" echo "Setup a gdb debugging session for your Android NDK application." echo "Read $$NDK/docs/NDK-GDB.TXT for complete usage instructions." echo "" echo "Valid options:" echo "" echo " --help|-h|-? Print this help" echo " --verbose Enable verbose mode" echo " --force Kill existing debug session if it exists" echo " --nowait Don't have application wait for debugger to attach" echo " (This might cause you to miss some early JNI breakpoints)" echo " --start Launch application instead of attaching to existing one" echo " --launch= Same as --start, but specify activity name (see below)" echo " --launch-list List all launchable activity names from manifest" echo " --delay= Delay in seconds between activity start and gdbserver attach." echo " --project= Specify application project path" echo " -p Same as --project=" echo " --package= Specify package name" echo " --port= Use tcp:localhost: to communicate with gdbserver [$DEBUG_PORT]" echo " --exec= Execute gdb initialization commands in after connection" echo " -x Same as --exec=" echo " --adb= Use specific adb command [$ADB_CMD]" echo " --awk= Use specific awk command [$AWK_CMD]" echo " -e Connect to single emulator instance" echo " -d Connect to single target device" echo " -s Connect to specific emulator or device" echo "" exit 0 fi log "Android NDK installation path: $ANDROID_NDK_ROOT" if [ -n "$OPTION_EXEC" ] ; then if [ ! -f "$OPTION_EXEC" ]; then echo "ERROR: Invalid initialization file: $OPTION_EXEC" exit 1 fi fi if [ -n "$OPTION_DELAY" ] ; then DELAY="$OPTION_DELAY" fi # Check ADB tool version if [ -n "$OPTION_ADB" ] ; then ADB_CMD=$OPTION_ADB log "Using specific adb command: $ADB_CMD" else if [ -z "$ADB_CMD" ] ; then echo "ERROR: The 'adb' tool is not in your path." echo " You can change your PATH variable, or use" echo " --adb= to point to a valid one." exit 1 fi log "Using default adb command: $ADB_CMD" fi ADB_CMD=$(quote_spaces $ADB_CMD) ADB_VERSION=$("$ADB_CMD" version 2>/dev/null) if [ $? != 0 ] ; then echo "ERROR: Could not run ADB with: $ADB_CMD" exit 1 fi log "ADB version found: $ADB_VERSION" if [ "x$DEVICE_SERIAL" = "x" ]; then log "Using ADB flags: $ADB_FLAGS" else log "Using ADB flags: $ADB_FLAGS" \"$DEVICE_SERIAL\" fi JDB_CMD=$(quote_spaces $JDB_CMD) log "Using JDB command: $JDB_CMD" # Run an ADB command with the right ADB flags # $1+: adb command parameter adb_cmd () { if [ "x$DEVICE_SERIAL" = "x" ]; then "$ADB_CMD" $ADB_FLAGS "$@" else # NOTE: We escape $ADB_CMD and $DEVICE_SERIAL in case they contains spaces. "$ADB_CMD" $ADB_FLAGS "$DEVICE_SERIAL" "$@" fi } # Used internally by adb_var_shell and adb_var_shell2. # $1: 1 to redirect stderr to $1, 0 otherwise. # $2: Variable name that will contain the result # $3+: Command options _adb_var_shell () { # We need a temporary file to store the output of our command local CMD_OUT RET OUTPUT VARNAME REDIRECT_STDERR REDIRECT_STDERR=$1 VARNAME=$2 shift; shift; CMD_OUT=`mktemp /tmp/ndk-gdb-cmdout-XXXXXX` # Run the command, while storing the standard output to CMD_OUT # and appending the exit code as the last line. if [ "$REDIRECT_STDERR" != 0 ]; then adb_cmd shell "$@" ";" echo \$? | sed -e 's![[:cntrl:]]!!g' > $CMD_OUT 2>&1 else adb_cmd shell "$@" ";" echo \$? | sed -e 's![[:cntrl:]]!!g' > $CMD_OUT fi # Get last line in log, which contains the exit code from the command RET=`sed -e '$!d' $CMD_OUT` # Get output, which corresponds to everything except the last line OUT=`sed -e '$d' $CMD_OUT` rm -f $CMD_OUT eval $VARNAME=\"\$OUT\" return $RET } # Run a command through 'adb shell' and captures its standard output # into a variable. The function's exit code is the same than the command's. # # This is required because there is a bug where "adb shell" always returns # 0 on the host, even if the command fails on the device. # # $1: Variable name (e.g. FOO) # On exit, $FOO is set to the command's standard output # # The return status will be 0 (success) if the command succeeded # or 1 (failure) otherwise. adb_var_shell () { _adb_var_shell 0 "$@" } # A variant of adb_var_shell that stores both stdout and stderr in the output # $1: Variable name adb_var_shell2 () { _adb_var_shell 1 "$@" } # Return the PID of a given package or program, or 0 if it doesn't run # $1: Package name ("com.example.hellojni") or program name ("/lib/gdbserver") # Out: PID number, or 0 if not running get_pid_of () { adb_cmd shell ps | $AWK_CMD -f $AWK_SCRIPTS/extract-pid.awk -v PACKAGE="$1" } # Check the awk tool AWK_SCRIPTS=$ANDROID_NDK_ROOT/build/awk AWK_TEST=`$AWK_CMD -f $AWK_SCRIPTS/check-awk.awk` if [ $? != 0 ] ; then echo "ERROR: Could not run '$AWK_CMD' command. Do you have it installed properly?" exit 1 fi if [ "$AWK_TEST" != "Pass" ] ; then echo "ERROR: Your version of 'awk' is obsolete. Please use --awk= to point to Nawk or Gawk!" exit 1 fi # Name of the manifest file MANIFEST=AndroidManifest.xml # Find the root of the application project. if [ -n "$OPTION_PROJECT" ] ; then PROJECT=$OPTION_PROJECT log "Using specified project path: $PROJECT" if [ ! -d "$PROJECT" ] ; then echo "ERROR: Your --project option does not point to a directory!" exit 1 fi if [ ! -f "$PROJECT/$MANIFEST" ] ; then echo "ERROR: Your --project does not point to an Android project path!" echo " It is missing a $MANIFEST file." exit 1 fi else # Assume we are in the project directory if [ -f "$MANIFEST" ] ; then PROJECT=. else PROJECT= CURDIR=`pwd` while [ "$CURDIR" != "/" ] ; do if [ -f "$CURDIR/$MANIFEST" ] ; then PROJECT="$CURDIR" break fi CURDIR=`dirname $CURDIR` done if [ -z "$PROJECT" ] ; then echo "ERROR: Launch this script from an application project directory, or use --project=." exit 1 fi fi log "Using auto-detected project path: $PROJECT" fi if [ ! -z "$OPTION_PACKAGE_NAME" ]; then PACKAGE_NAME="$OPTION_PACKAGE_NAME" log "Using package name: $PACKAGE_NAME" else # Extract the package name from the manifest PACKAGE_NAME=`run_awk_manifest_script extract-package-name.awk` if [ $? != 0 -o "$PACKAGE_NAME" = "" ] ; then echo "ERROR: Could not extract package name from $PROJECT/$MANIFEST." echo " Please check that the file is well-formed!" exit 1 fi log "Found package name: $PACKAGE_NAME" fi # If --launch-list is used, list all launchable activities, and be done with it if [ "$OPTION_LAUNCH_LIST" = "yes" ] ; then log "Extracting list of launchable activities from manifest:" run_awk_manifest_script extract-launchable.awk exit 0 fi APP_ABIS=`get_build_var APP_ABI` if [ "$APP_ABIS" != "${APP_ABIS%%all*}" ] ; then # replace first "all" with all available ABIs ALL_ABIS=`get_build_var NDK_ALL_ABIS` APP_ABIS_FRONT="${APP_ABIS%%all*}" APP_ABIS_BACK="${APP_ABIS#*all}" APP_ABIS="${APP_ABIS_FRONT}${ALL_ABIS}${APP_ABIS_BACK}" fi # replace "armeabi-v7a-hard" with "armeabi-v7a" APP_ABIS=`echo $APP_ABIS | sed -e 's/armeabi-v7a-hard/armeabi-v7a/g'` log "ABIs targetted by application: $APP_ABIS" # Check the ADB command, and that we can connect to the device/emulator ADB_TEST=`adb_cmd shell ls` if [ $? != 0 ] ; then echo "ERROR: Could not connect to device or emulator!" echo " Please check that an emulator is running or a device is connected" echo " through USB to this machine. You can use -e, -d and -s " echo " in case of multiple ones." exit 1 fi # Check that the device is running Froyo (API Level 8) or higher # adb_var_shell API_LEVEL getprop ro.build.version.sdk if [ $? != 0 -o -z "$API_LEVEL" ] ; then echo "ERROR: Could not find target device's supported API level!" echo "ndk-gdb will only work if your device is running Android 2.2 or higher." exit 1 fi log "Device API Level: $API_LEVEL" if [ "$API_LEVEL" -lt "8" ] ; then echo "ERROR: ndk-gdb requires a target device running Android 2.2 (API level 8) or higher." echo "The target device is running API level $API_LEVEL!" exit 1 fi # Get the target device's supported ABI(s) # And check that they are supported by the application # COMPAT_ABI=none # All modern Android images must support ro.product.cpu.abilist32 # and ro.product.cpu.abilist64. Otherwise fall back to obsolete # ro.product.cpu.abi and ro.product.cpu.abi2 adb_var_shell CPU_ABILIST64 getprop ro.product.cpu.abilist64 adb_var_shell CPU_ABILIST32 getprop ro.product.cpu.abilist32 CPU_ABIS="$CPU_ABILIST64,$CPU_ABILIST32" if [ -z "$CPU_ABILIST64" ] && [ -z "$CPU_ABILIST32" ] ; then adb_var_shell CPU_ABI1 getprop ro.product.cpu.abi adb_var_shell CPU_ABI2 getprop ro.product.cpu.abi2 CPU_ABIS="$CPU_ABI1,$CPU_ABI2" fi # Replace all ',' with space and add trailing space to # ease whole-word matching of APP_ABI CPU_ABILIST64=$(echo $CPU_ABILIST64 | tr ',' ' ') CPU_ABILIST32=$(echo $CPU_ABILIST32 | tr ',' ' ') CPU_ABIS=$(echo $CPU_ABIS | tr ',' ' ') log "Device CPU ABIs: $CPU_ABIS" APP_ABIS=$APP_ABIS" " adb_var_shell BCFILES run-as $PACKAGE_NAME /system/bin/sh -c "ls lib/*.bc" if [ $? = 0 ]; then COMPAT_ABI="$UNKNOWN_ABI" else # Assume that compatible ABI is 32-bit COMPAT_ABI_BITS=32 # First look compatible ABI in the list of 64-bit ABIs if [ -n "$CPU_ABILIST64" ] ; then for CPU_ABI64 in $CPU_ABILIST64; do if [ "$APP_ABIS" != "${APP_ABIS%$CPU_ABI64 *}" ] ; then COMPAT_ABI=$CPU_ABI64 COMPAT_ABI_BITS=64 break fi done fi # If we found nothing - look among 32-bit ABIs if [ "$COMPAT_ABI" = none ] && [ -n "$CPU_ABILIST32" ] ; then for CPU_ABI32 in $CPU_ABILIST32; do if [ "$APP_ABIS" != "${APP_ABIS%$CPU_ABI32 *}" ] ; then COMPAT_ABI=$CPU_ABI32 break fi done fi # Lastly, lets check ro.product.cpu.abi and ro.product.cpu.abi2 if [ "$COMPAT_ABI" = none ] && [ -z "$CPU_ABILIST64" ] && [ -z "$CPU_ABILIST32" ]; then for CPU_ABI in $CPU_ABIS; do if [ "$APP_ABIS" != "${APP_ABIS%$CPU_ABI *}" ] ; then COMPAT_ABI=$CPU_ABI break fi done fi fi if [ "$COMPAT_ABI" = none ] ; then echo "ERROR: The device does not support the application's targetted CPU ABIs!" echo " Device supports: $CPU_ABIS" echo " Package supports: $APP_ABIS" exit 1 fi log "Compatible device ABI: $COMPAT_ABI" # Get information from the build system GDBSETUP_INIT=`get_build_var_for_abi NDK_APP_GDBSETUP $COMPAT_ABI` log "Using gdb setup init: $GDBSETUP_INIT" # Find the prefix for gdb-client if [ "$COMPAT_ABI" != "$UNKNOWN_ABI" ]; then TOOLCHAIN_PREFIX=`get_build_var_for_abi TOOLCHAIN_PREFIX $COMPAT_ABI` else TOOLCHAIN_ABI=$(echo $CPU_ABIS | awk '{print $NF}') TOOLCHAIN_PREFIX=`get_build_var_for_abi TOOLCHAIN_PREFIX $TOOLCHAIN_ABI` fi log "Using toolchain prefix: $TOOLCHAIN_PREFIX" APP_OUT=`get_build_var_for_abi TARGET_OUT $COMPAT_ABI` log "Using app out directory: $APP_OUT" # Check that the application is debuggable, or nothing will work DEBUGGABLE=`run_awk_manifest_script extract-debuggable.awk` RET=$? log "Found debuggable flag: $DEBUGGABLE" if [ "$RET" != 0 -o "$DEBUGGABLE" != "true" ] ; then # If gdb.setup exists, then we built with 'ndk-build NDK_DEBUG=1' and it's # ok to not have android:debuggable set to true in the original manifest. # However, if this is not the case, then complain!! if [ -f $PROJECT/libs/$COMPAT_ABI/gdb.setup ] ; then log "Found gdb.setup under libs/$COMPAT_ABI, assuming app was built with NDK_DEBUG=1" else echo "ERROR: Package $PACKAGE_NAME is not debuggable ! You can fix that in two ways:" echo "" echo " - Rebuilt with the NDK_DEBUG=1 option when calling 'ndk-build'." echo "" echo " - Modify your manifest to set android:debuggable attribute to \"true\"," echo " then rebuild normally." echo "" echo "After one of these, re-install to the device!" exit 1 fi else # DEBUGGABLE is true in the manifest. Let's check that the user didn't change the # debuggable flag in the manifest without calling ndk-build afterwards. if [ ! -f $PROJECT/libs/$COMPAT_ABI/gdb.setup ] ; then echo "ERROR: Could not find gdb.setup under $PROJECT/libs/$COMPAT_ABI" echo " This usually means you modified your AndroidManifest.xml to set" echo " the android:debuggable flag to 'true' but did not rebuild the" echo " native binaries. Please call 'ndk-build' to do so," echo " *then* re-install to the device!" exit 1 fi fi # Find the of the package on the device adb_var_shell2 DATA_DIR run-as $PACKAGE_NAME /system/bin/sh -c pwd if [ $? != 0 -o -z "$DATA_DIR" ] ; then echo "ERROR: Could not extract package's data directory. Are you sure that" echo " your installed application is debuggable?" exit 1 fi log "Found data directory: '$DATA_DIR'" # Let's check that 'gdbserver' is properly installed on the device too. If 'gdbserver' # is not there, push 'gdbserver' found in prebuilt. # DEVICE_GDBSERVER=$DATA_DIR/lib/gdbserver adb_var_shell2 GDBSERVER_RESULT ls $DEVICE_GDBSERVER if [ $? != 0 ]; then # Figure out what's the target-arch and find gdbserver in prebuilt. TARGET_ARCH=none for ANDROID_ARCH in $ANDROID_NDK_ROOT/prebuilt/android-*; do ANDROID_ARCH=${ANDROID_ARCH#$ANDROID_NDK_ROOT/prebuilt/android-} if [ "$COMPAT_ABI" = "$ANDROID_ARCH" ]; then TARGET_ARCH=$ANDROID_ARCH break; fi done if [ $TARGET_ARCH != "none" ]; then DEVICE_GDBSERVER=/data/local/tmp/gdbserver adb shell mkdir -p /data/local/tmp adb push ${ANDROID_NDK_ROOT}/prebuilt/android-${TARGET_ARCH}/gdbserver/gdbserver \ $DEVICE_GDBSERVER log "Push gdbserver in device" else echo "ERROR: Non-debuggable application installed on the target device." echo " Please re-install the debuggable version!" exit 1 fi fi log "Found device gdbserver: $DEVICE_GDBSERVER" # Launch the activity if needed if [ "$OPTION_START" = "yes" ] ; then # If --launch is used, ignore --start, otherwise extract the first # launchable activity name from the manifest and use it as if --launch= # was used instead. # if [ -z "$OPTION_LAUNCH" ] ; then OPTION_LAUNCH=`run_awk_manifest_script extract-launchable.awk | sed 2q` if [ $? != 0 ] ; then echo "ERROR: Could not extract name of launchable activity from manifest!" echo " Try to use --launch= directly instead as a work-around." exit 1 fi log "Found first launchable activity: $OPTION_LAUNCH" if [ -z "$OPTION_LAUNCH" ] ; then echo "ERROR: It seems that your Application does not have any launchable activity!" echo " Please fix your manifest file and rebuild/re-install your application." exit 1 fi fi fi if [ -n "$OPTION_LAUNCH" ] ; then log "Launching activity: $PACKAGE_NAME/$OPTION_LAUNCH" adb_var_shell2 DUMMY am start $OPTION_WAIT -n $PACKAGE_NAME/$OPTION_LAUNCH if [ $? != 0 ] ; then echo "ERROR: Could not launch specified activity: $OPTION_LAUNCH" echo " Use --launch-list to dump a list of valid values." exit 1 fi # Sleep a bit, it sometimes take one second to start properly # Note that we use the 'sleep' command on the device here. run adb_cmd shell sleep $DELAY fi # Find the PID of the application being run PID=$(get_pid_of "$PACKAGE_NAME") RET=$? log "Found running PID: $PID" if [ "$RET" != 0 -o "$PID" = "0" ] ; then echo "ERROR: Could not extract PID of application on device/emulator." if [ -n "$OPTION_LAUNCH" ] ; then echo " Weird, this probably means one of these:" echo "" echo " - The installed package does not match your current manifest." echo " - The application process was terminated." echo "" echo " Try using the --verbose option and look at its output for details." else echo " Are you sure the application is already started?" echo " Consider using --start or --launch= if not." fi exit 1 fi # Check that there is no other instance of gdbserver running GDBSERVER_PID=$(get_pid_of lib/gdbserver) if [ "$GDBSERVER_PID" != "0" ]; then if [ "$OPTION_FORCE" = "no" ] ; then echo "ERROR: Another debug session running, Use --force to kill it." exit 1 fi log "Killing existing debugging session" run adb_cmd shell kill -9 $GDBSERVER_PID fi # Launch gdbserver now DEBUG_SOCKET=debug-socket adb_var_shell2 DUMMY run-as $PACKAGE_NAME $DEVICE_GDBSERVER +$DEBUG_SOCKET --attach $PID & if [ $? != 0 ] ; then echo "ERROR: Could not launch gdbserver on the device?" exit 1 fi log "Launched gdbserver succesfully." # Setup network redirection log "Setup network redirection" run adb_cmd forward tcp:$DEBUG_PORT localfilesystem:$DATA_DIR/$DEBUG_SOCKET if [ $? != 0 ] ; then echo "ERROR: Could not setup network redirection to gdbserver?" echo " Maybe using --port= to use a different TCP port might help?" exit 1 fi # If we are debugging 64-bit app, then we need to pull linker64, # app_process64 and libc.so from lib64 directory LINKER_NAME=linker LIBDIR_NAME=lib APP_PROCESS_NAME=app_process32 if [ "$COMPAT_ABI_BITS" = 64 ] ; then LINKER_NAME=linker64 LIBDIR_NAME=lib64 APP_PROCESS_NAME=app_process64 else # Old 32-bit devices do not have app_process32. Pull # app_process in this case adb_var_shell2 DUMMY test -e /system/bin/$APP_PROCESS_NAME if [ $? != 0 ] ; then APP_PROCESS_NAME=app_process fi fi # Get the app_server binary from the device APP_PROCESS=$APP_OUT/app_process run adb_cmd pull /system/bin/$APP_PROCESS_NAME `native_path $APP_PROCESS` log "Pulled $APP_PROCESS_NAME from device/emulator." run adb_cmd pull /system/bin/$LINKER_NAME `native_path $APP_OUT/$LINKER_NAME` log "Pulled $LINKER_NAME from device/emulator." run adb_cmd pull /system/$LIBDIR_NAME/libc.so `native_path $APP_OUT/libc.so` log "Pulled /system/$LIBDIR_NAME/libc.so from device/emulator." # Setup JDB connection, for --start or --launch if [ "$OPTION_START" = "yes" ] || [ -n "$OPTION_LAUNCH" ] ; then if [ -n "$JDB_PORT" ]; then log "Setup JDB connection" run adb_cmd forward tcp:$JDB_PORT jdwp:$PID sleep 1 $JDB_CMD -connect com.sun.jdi.SocketAttach:hostname=localhost,port=$JDB_PORT & sleep 1 fi fi # If we are debugging UNKNOWN_ABI, download compiled *.so from device. # if [ "$COMPAT_ABI" = "$UNKNOWN_ABI" ]; then for bc in $BCFILES; do log "Pulled $(basename $bc .bc).so from device/emulator." adb pull $DATA_DIR/lib/$(basename $bc .bc).so $PROJECT/obj/local/$UNKNOWN_ABI/ done fi # Now launch the appropriate gdb client with the right init commands # GDBCLIENT=${TOOLCHAIN_PREFIX}gdb GDBSETUP=$APP_OUT/gdb.setup cp -f $GDBSETUP_INIT $GDBSETUP #uncomment the following to debug the remote connection only #echo "set debug remote 1" >> $GDBSETUP echo "file `native_path $APP_PROCESS`" >> $GDBSETUP echo "target remote :$DEBUG_PORT" >> $GDBSETUP if [ -n "$OPTION_EXEC" ] ; then cat $OPTION_EXEC >> $GDBSETUP fi $GDBCLIENT -x `native_path $GDBSETUP`