platform_build/envsetup.sh

1734 lines
48 KiB
Bash

function hmm() {
cat <<EOF
Invoke ". build/envsetup.sh" from your shell to add the following functions to your environment:
- lunch: lunch <product_name>-<build_variant>
- tapas: tapas [<App1> <App2> ...] [arm|x86|mips|armv5|arm64|x86_64|mips64] [eng|userdebug|user]
- croot: Changes directory to the top of the tree.
- m: Makes from the top of the tree.
- mm: Builds all of the modules in the current directory, but not their dependencies.
- mmm: Builds all of the modules in the supplied directories, but not their dependencies.
To limit the modules being built use the syntax: mmm dir/:target1,target2.
- mma: Builds all of the modules in the current directory, and their dependencies.
- mmma: Builds all of the modules in the supplied directories, and their dependencies.
- cgrep: Greps on all local C/C++ files.
- ggrep: Greps on all local Gradle files.
- jgrep: Greps on all local Java files.
- resgrep: Greps on all local res/*.xml files.
- sgrep: Greps on all local source files.
- godir: Go to the directory containing a file.
Look at the source to view more functions. The complete list is:
EOF
T=$(gettop)
local A
A=""
for i in `cat $T/build/envsetup.sh | sed -n "/^[ \t]*function /s/function \([a-z_]*\).*/\1/p" | sort | uniq`; do
A="$A $i"
done
echo $A
}
# Get the value of a build variable as an absolute path.
function get_abs_build_var()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP." >&2
return
fi
(\cd $T; CALLED_FROM_SETUP=true BUILD_SYSTEM=build/core \
command make --no-print-directory -f build/core/config.mk dumpvar-abs-$1)
}
# Get the exact value of a build variable.
function get_build_var()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP." >&2
return
fi
(\cd $T; CALLED_FROM_SETUP=true BUILD_SYSTEM=build/core \
command make --no-print-directory -f build/core/config.mk dumpvar-$1)
}
# check to see if the supplied product is one we can build
function check_product()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP." >&2
return
fi
TARGET_PRODUCT=$1 \
TARGET_BUILD_VARIANT= \
TARGET_BUILD_TYPE= \
TARGET_BUILD_APPS= \
get_build_var TARGET_DEVICE > /dev/null
# hide successful answers, but allow the errors to show
}
VARIANT_CHOICES=(user userdebug eng)
# check to see if the supplied variant is valid
function check_variant()
{
for v in ${VARIANT_CHOICES[@]}
do
if [ "$v" = "$1" ]
then
return 0
fi
done
return 1
}
function setpaths()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP."
return
fi
##################################################################
# #
# Read me before you modify this code #
# #
# This function sets ANDROID_BUILD_PATHS to what it is adding #
# to PATH, and the next time it is run, it removes that from #
# PATH. This is required so lunch can be run more than once #
# and still have working paths. #
# #
##################################################################
# Note: on windows/cygwin, ANDROID_BUILD_PATHS will contain spaces
# due to "C:\Program Files" being in the path.
# out with the old
if [ -n "$ANDROID_BUILD_PATHS" ] ; then
export PATH=${PATH/$ANDROID_BUILD_PATHS/}
fi
if [ -n "$ANDROID_PRE_BUILD_PATHS" ] ; then
export PATH=${PATH/$ANDROID_PRE_BUILD_PATHS/}
# strip leading ':', if any
export PATH=${PATH/:%/}
fi
# and in with the new
prebuiltdir=$(getprebuilt)
gccprebuiltdir=$(get_abs_build_var ANDROID_GCC_PREBUILTS)
# defined in core/config.mk
targetgccversion=$(get_build_var TARGET_GCC_VERSION)
targetgccversion2=$(get_build_var 2ND_TARGET_GCC_VERSION)
export TARGET_GCC_VERSION=$targetgccversion
# The gcc toolchain does not exists for windows/cygwin. In this case, do not reference it.
export ANDROID_TOOLCHAIN=
export ANDROID_TOOLCHAIN_2ND_ARCH=
local ARCH=$(get_build_var TARGET_ARCH)
case $ARCH in
x86) toolchaindir=x86/x86_64-linux-android-$targetgccversion/bin
;;
x86_64) toolchaindir=x86/x86_64-linux-android-$targetgccversion/bin
;;
arm) toolchaindir=arm/arm-linux-androideabi-$targetgccversion/bin
;;
arm64) toolchaindir=aarch64/aarch64-linux-android-$targetgccversion/bin;
toolchaindir2=arm/arm-linux-androideabi-$targetgccversion2/bin
;;
mips|mips64) toolchaindir=mips/mips64el-linux-android-$targetgccversion/bin
;;
*)
echo "Can't find toolchain for unknown architecture: $ARCH"
toolchaindir=xxxxxxxxx
;;
esac
if [ -d "$gccprebuiltdir/$toolchaindir" ]; then
export ANDROID_TOOLCHAIN=$gccprebuiltdir/$toolchaindir
fi
if [ -d "$gccprebuiltdir/$toolchaindir2" ]; then
export ANDROID_TOOLCHAIN_2ND_ARCH=$gccprebuiltdir/$toolchaindir2
fi
unset ANDROID_KERNEL_TOOLCHAIN_PATH
case $ARCH in
arm)
# Legacy toolchain configuration used for ARM kernel compilation
toolchaindir=arm/arm-eabi-$targetgccversion/bin
if [ -d "$gccprebuiltdir/$toolchaindir" ]; then
export ARM_EABI_TOOLCHAIN="$gccprebuiltdir/$toolchaindir"
ANDROID_KERNEL_TOOLCHAIN_PATH="$ARM_EABI_TOOLCHAIN":
fi
;;
*)
# No need to set ARM_EABI_TOOLCHAIN for other ARCHs
;;
esac
export ANDROID_DEV_SCRIPTS=$T/development/scripts:$T/prebuilts/devtools/tools
export ANDROID_BUILD_PATHS=$(get_build_var ANDROID_BUILD_PATHS):$ANDROID_TOOLCHAIN:$ANDROID_TOOLCHAIN_2ND_ARCH:$ANDROID_KERNEL_TOOLCHAIN_PATH$ANDROID_DEV_SCRIPTS:
# If prebuilts/android-emulator/<system>/ exists, prepend it to our PATH
# to ensure that the corresponding 'emulator' binaries are used.
case $(uname -s) in
Darwin)
ANDROID_EMULATOR_PREBUILTS=$T/prebuilts/android-emulator/darwin-x86_64
;;
Linux)
ANDROID_EMULATOR_PREBUILTS=$T/prebuilts/android-emulator/linux-x86_64
;;
*)
ANDROID_EMULATOR_PREBUILTS=
;;
esac
if [ -n "$ANDROID_EMULATOR_PREBUILTS" -a -d "$ANDROID_EMULATOR_PREBUILTS" ]; then
ANDROID_BUILD_PATHS=$ANDROID_BUILD_PATHS$ANDROID_EMULATOR_PREBUILTS:
export ANDROID_EMULATOR_PREBUILTS
fi
export PATH=$ANDROID_BUILD_PATHS$PATH
unset ANDROID_JAVA_TOOLCHAIN
unset ANDROID_PRE_BUILD_PATHS
if [ -n "$JAVA_HOME" ]; then
export ANDROID_JAVA_TOOLCHAIN=$JAVA_HOME/bin
export ANDROID_PRE_BUILD_PATHS=$ANDROID_JAVA_TOOLCHAIN:
export PATH=$ANDROID_PRE_BUILD_PATHS$PATH
fi
unset ANDROID_PRODUCT_OUT
export ANDROID_PRODUCT_OUT=$(get_abs_build_var PRODUCT_OUT)
export OUT=$ANDROID_PRODUCT_OUT
unset ANDROID_HOST_OUT
export ANDROID_HOST_OUT=$(get_abs_build_var HOST_OUT)
# needed for building linux on MacOS
# TODO: fix the path
#export HOST_EXTRACFLAGS="-I "$T/system/kernel_headers/host_include
}
function printconfig()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP." >&2
return
fi
get_build_var report_config
}
function set_stuff_for_environment()
{
settitle
set_java_home
setpaths
set_sequence_number
export ANDROID_BUILD_TOP=$(gettop)
# With this environment variable new GCC can apply colors to warnings/errors
export GCC_COLORS='error=01;31:warning=01;35:note=01;36:caret=01;32:locus=01:quote=01'
}
function set_sequence_number()
{
export BUILD_ENV_SEQUENCE_NUMBER=10
}
function settitle()
{
if [ "$STAY_OFF_MY_LAWN" = "" ]; then
local arch=$(gettargetarch)
local product=$TARGET_PRODUCT
local variant=$TARGET_BUILD_VARIANT
local apps=$TARGET_BUILD_APPS
if [ -z "$apps" ]; then
export PROMPT_COMMAND="echo -ne \"\033]0;[${arch}-${product}-${variant}] ${USER}@${HOSTNAME}: ${PWD}\007\""
else
export PROMPT_COMMAND="echo -ne \"\033]0;[$arch $apps $variant] ${USER}@${HOSTNAME}: ${PWD}\007\""
fi
fi
}
function addcompletions()
{
local T dir f
# Keep us from trying to run in something that isn't bash.
if [ -z "${BASH_VERSION}" ]; then
return
fi
# Keep us from trying to run in bash that's too old.
if [ ${BASH_VERSINFO[0]} -lt 3 ]; then
return
fi
dir="sdk/bash_completion"
if [ -d ${dir} ]; then
for f in `/bin/ls ${dir}/[a-z]*.bash 2> /dev/null`; do
echo "including $f"
. $f
done
fi
}
function choosetype()
{
echo "Build type choices are:"
echo " 1. release"
echo " 2. debug"
echo
local DEFAULT_NUM DEFAULT_VALUE
DEFAULT_NUM=1
DEFAULT_VALUE=release
export TARGET_BUILD_TYPE=
local ANSWER
while [ -z $TARGET_BUILD_TYPE ]
do
echo -n "Which would you like? ["$DEFAULT_NUM"] "
if [ -z "$1" ] ; then
read ANSWER
else
echo $1
ANSWER=$1
fi
case $ANSWER in
"")
export TARGET_BUILD_TYPE=$DEFAULT_VALUE
;;
1)
export TARGET_BUILD_TYPE=release
;;
release)
export TARGET_BUILD_TYPE=release
;;
2)
export TARGET_BUILD_TYPE=debug
;;
debug)
export TARGET_BUILD_TYPE=debug
;;
*)
echo
echo "I didn't understand your response. Please try again."
echo
;;
esac
if [ -n "$1" ] ; then
break
fi
done
set_stuff_for_environment
}
#
# This function isn't really right: It chooses a TARGET_PRODUCT
# based on the list of boards. Usually, that gets you something
# that kinda works with a generic product, but really, you should
# pick a product by name.
#
function chooseproduct()
{
if [ "x$TARGET_PRODUCT" != x ] ; then
default_value=$TARGET_PRODUCT
else
default_value=full
fi
export TARGET_PRODUCT=
local ANSWER
while [ -z "$TARGET_PRODUCT" ]
do
echo -n "Which product would you like? [$default_value] "
if [ -z "$1" ] ; then
read ANSWER
else
echo $1
ANSWER=$1
fi
if [ -z "$ANSWER" ] ; then
export TARGET_PRODUCT=$default_value
else
if check_product $ANSWER
then
export TARGET_PRODUCT=$ANSWER
else
echo "** Not a valid product: $ANSWER"
fi
fi
if [ -n "$1" ] ; then
break
fi
done
set_stuff_for_environment
}
function choosevariant()
{
echo "Variant choices are:"
local index=1
local v
for v in ${VARIANT_CHOICES[@]}
do
# The product name is the name of the directory containing
# the makefile we found, above.
echo " $index. $v"
index=$(($index+1))
done
local default_value=eng
local ANSWER
export TARGET_BUILD_VARIANT=
while [ -z "$TARGET_BUILD_VARIANT" ]
do
echo -n "Which would you like? [$default_value] "
if [ -z "$1" ] ; then
read ANSWER
else
echo $1
ANSWER=$1
fi
if [ -z "$ANSWER" ] ; then
export TARGET_BUILD_VARIANT=$default_value
elif (echo -n $ANSWER | grep -q -e "^[0-9][0-9]*$") ; then
if [ "$ANSWER" -le "${#VARIANT_CHOICES[@]}" ] ; then
export TARGET_BUILD_VARIANT=${VARIANT_CHOICES[$(($ANSWER-1))]}
fi
else
if check_variant $ANSWER
then
export TARGET_BUILD_VARIANT=$ANSWER
else
echo "** Not a valid variant: $ANSWER"
fi
fi
if [ -n "$1" ] ; then
break
fi
done
}
function choosecombo()
{
choosetype $1
echo
echo
chooseproduct $2
echo
echo
choosevariant $3
echo
set_stuff_for_environment
printconfig
}
# Clear this variable. It will be built up again when the vendorsetup.sh
# files are included at the end of this file.
unset LUNCH_MENU_CHOICES
function add_lunch_combo()
{
local new_combo=$1
local c
for c in ${LUNCH_MENU_CHOICES[@]} ; do
if [ "$new_combo" = "$c" ] ; then
return
fi
done
LUNCH_MENU_CHOICES=(${LUNCH_MENU_CHOICES[@]} $new_combo)
}
# add the default one here
add_lunch_combo aosp_arm-eng
add_lunch_combo aosp_arm64-eng
add_lunch_combo aosp_mips-eng
add_lunch_combo aosp_mips64-eng
add_lunch_combo aosp_x86-eng
add_lunch_combo aosp_x86_64-eng
function print_lunch_menu()
{
local uname=$(uname)
echo
echo "You're building on" $uname
echo
echo "Lunch menu... pick a combo:"
local i=1
local choice
for choice in ${LUNCH_MENU_CHOICES[@]}
do
echo " $i. $choice"
i=$(($i+1))
done
echo
}
function lunch()
{
local answer
if [ "$1" ] ; then
answer=$1
else
print_lunch_menu
echo -n "Which would you like? [aosp_arm-eng] "
read answer
fi
local selection=
if [ -z "$answer" ]
then
selection=aosp_arm-eng
elif (echo -n $answer | grep -q -e "^[0-9][0-9]*$")
then
if [ $answer -le ${#LUNCH_MENU_CHOICES[@]} ]
then
selection=${LUNCH_MENU_CHOICES[$(($answer-1))]}
fi
elif (echo -n $answer | grep -q -e "^[^\-][^\-]*-[^\-][^\-]*$")
then
selection=$answer
fi
if [ -z "$selection" ]
then
echo
echo "Invalid lunch combo: $answer"
return 1
fi
export TARGET_BUILD_APPS=
local product=$(echo -n $selection | sed -e "s/-.*$//")
check_product $product
if [ $? -ne 0 ]
then
echo
echo "** Don't have a product spec for: '$product'"
echo "** Do you have the right repo manifest?"
product=
fi
local variant=$(echo -n $selection | sed -e "s/^[^\-]*-//")
check_variant $variant
if [ $? -ne 0 ]
then
echo
echo "** Invalid variant: '$variant'"
echo "** Must be one of ${VARIANT_CHOICES[@]}"
variant=
fi
if [ -z "$product" -o -z "$variant" ]
then
echo
return 1
fi
export TARGET_PRODUCT=$product
export TARGET_BUILD_VARIANT=$variant
export TARGET_BUILD_TYPE=release
echo
set_stuff_for_environment
printconfig
}
# Tab completion for lunch.
function _lunch()
{
local cur prev opts
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
COMPREPLY=( $(compgen -W "${LUNCH_MENU_CHOICES[*]}" -- ${cur}) )
return 0
}
complete -F _lunch lunch
# Configures the build to build unbundled apps.
# Run tapas with one or more app names (from LOCAL_PACKAGE_NAME)
function tapas()
{
local arch="$(echo $* | xargs -n 1 echo | \grep -E '^(arm|x86|mips|armv5|arm64|x86_64|mips64)$' | xargs)"
local variant="$(echo $* | xargs -n 1 echo | \grep -E '^(user|userdebug|eng)$' | xargs)"
local density="$(echo $* | xargs -n 1 echo | \grep -E '^(ldpi|mdpi|tvdpi|hdpi|xhdpi|xxhdpi|xxxhdpi|alldpi)$' | xargs)"
local apps="$(echo $* | xargs -n 1 echo | \grep -E -v '^(user|userdebug|eng|arm|x86|mips|armv5|arm64|x86_64|mips64|ldpi|mdpi|tvdpi|hdpi|xhdpi|xxhdpi|xxxhdpi|alldpi)$' | xargs)"
if [ $(echo $arch | wc -w) -gt 1 ]; then
echo "tapas: Error: Multiple build archs supplied: $arch"
return
fi
if [ $(echo $variant | wc -w) -gt 1 ]; then
echo "tapas: Error: Multiple build variants supplied: $variant"
return
fi
if [ $(echo $density | wc -w) -gt 1 ]; then
echo "tapas: Error: Multiple densities supplied: $density"
return
fi
local product=full
case $arch in
x86) product=full_x86;;
mips) product=full_mips;;
armv5) product=generic_armv5;;
arm64) product=aosp_arm64;;
x86_64) product=aosp_x86_64;;
mips64) product=aosp_mips64;;
esac
if [ -z "$variant" ]; then
variant=eng
fi
if [ -z "$apps" ]; then
apps=all
fi
if [ -z "$density" ]; then
density=alldpi
fi
export TARGET_PRODUCT=$product
export TARGET_BUILD_VARIANT=$variant
export TARGET_BUILD_DENSITY=$density
export TARGET_BUILD_TYPE=release
export TARGET_BUILD_APPS=$apps
set_stuff_for_environment
printconfig
}
function gettop
{
local TOPFILE=build/core/envsetup.mk
if [ -n "$TOP" -a -f "$TOP/$TOPFILE" ] ; then
# The following circumlocution ensures we remove symlinks from TOP.
(cd $TOP; PWD= /bin/pwd)
else
if [ -f $TOPFILE ] ; then
# The following circumlocution (repeated below as well) ensures
# that we record the true directory name and not one that is
# faked up with symlink names.
PWD= /bin/pwd
else
local HERE=$PWD
T=
while [ \( ! \( -f $TOPFILE \) \) -a \( $PWD != "/" \) ]; do
\cd ..
T=`PWD= /bin/pwd -P`
done
\cd $HERE
if [ -f "$T/$TOPFILE" ]; then
echo $T
fi
fi
fi
}
# Return driver for "make", if any (eg. static analyzer)
function getdriver()
{
local T="$1"
test "$WITH_STATIC_ANALYZER" = "0" && unset WITH_STATIC_ANALYZER
if [ -n "$WITH_STATIC_ANALYZER" ]; then
echo "\
$T/prebuilts/misc/linux-x86/analyzer/tools/scan-build/scan-build \
--use-analyzer $T/prebuilts/misc/linux-x86/analyzer/bin/analyzer \
--status-bugs \
--top=$T"
fi
}
function m()
{
local T=$(gettop)
local DRV=$(getdriver $T)
if [ "$T" ]; then
$DRV make -C $T -f build/core/main.mk $@
else
echo "Couldn't locate the top of the tree. Try setting TOP."
fi
}
function findmakefile()
{
TOPFILE=build/core/envsetup.mk
local HERE=$PWD
T=
while [ \( ! \( -f $TOPFILE \) \) -a \( $PWD != "/" \) ]; do
T=`PWD= /bin/pwd`
if [ -f "$T/Android.mk" ]; then
echo $T/Android.mk
\cd $HERE
return
fi
\cd ..
done
\cd $HERE
}
function mm()
{
local T=$(gettop)
local DRV=$(getdriver $T)
# If we're sitting in the root of the build tree, just do a
# normal make.
if [ -f build/core/envsetup.mk -a -f Makefile ]; then
$DRV make $@
else
# Find the closest Android.mk file.
local M=$(findmakefile)
local MODULES=
local GET_INSTALL_PATH=
local ARGS=
# Remove the path to top as the makefilepath needs to be relative
local M=`echo $M|sed 's:'$T'/::'`
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP."
elif [ ! "$M" ]; then
echo "Couldn't locate a makefile from the current directory."
else
for ARG in $@; do
case $ARG in
GET-INSTALL-PATH) GET_INSTALL_PATH=$ARG;;
esac
done
if [ -n "$GET_INSTALL_PATH" ]; then
MODULES=
ARGS=GET-INSTALL-PATH
else
MODULES=all_modules
ARGS=$@
fi
ONE_SHOT_MAKEFILE=$M $DRV make -C $T -f build/core/main.mk $MODULES $ARGS
fi
fi
}
function mmm()
{
local T=$(gettop)
local DRV=$(getdriver $T)
if [ "$T" ]; then
local MAKEFILE=
local MODULES=
local ARGS=
local DIR TO_CHOP
local GET_INSTALL_PATH=
local DASH_ARGS=$(echo "$@" | awk -v RS=" " -v ORS=" " '/^-.*$/')
local DIRS=$(echo "$@" | awk -v RS=" " -v ORS=" " '/^[^-].*$/')
for DIR in $DIRS ; do
MODULES=`echo $DIR | sed -n -e 's/.*:\(.*$\)/\1/p' | sed 's/,/ /'`
if [ "$MODULES" = "" ]; then
MODULES=all_modules
fi
DIR=`echo $DIR | sed -e 's/:.*//' -e 's:/$::'`
if [ -f $DIR/Android.mk ]; then
local TO_CHOP=`(\cd -P -- $T && pwd -P) | wc -c | tr -d ' '`
local TO_CHOP=`expr $TO_CHOP + 1`
local START=`PWD= /bin/pwd`
local MFILE=`echo $START | cut -c${TO_CHOP}-`
if [ "$MFILE" = "" ] ; then
MFILE=$DIR/Android.mk
else
MFILE=$MFILE/$DIR/Android.mk
fi
MAKEFILE="$MAKEFILE $MFILE"
else
case $DIR in
showcommands | snod | dist | incrementaljavac) ARGS="$ARGS $DIR";;
GET-INSTALL-PATH) GET_INSTALL_PATH=$DIR;;
*) echo "No Android.mk in $DIR."; return 1;;
esac
fi
done
if [ -n "$GET_INSTALL_PATH" ]; then
ARGS=$GET_INSTALL_PATH
MODULES=
fi
ONE_SHOT_MAKEFILE="$MAKEFILE" $DRV make -C $T -f build/core/main.mk $DASH_ARGS $MODULES $ARGS
else
echo "Couldn't locate the top of the tree. Try setting TOP."
fi
}
function mma()
{
local T=$(gettop)
local DRV=$(getdriver $T)
if [ -f build/core/envsetup.mk -a -f Makefile ]; then
$DRV make $@
else
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP."
fi
local MY_PWD=`PWD= /bin/pwd|sed 's:'$T'/::'`
$DRV make -C $T -f build/core/main.mk $@ all_modules BUILD_MODULES_IN_PATHS="$MY_PWD"
fi
}
function mmma()
{
local T=$(gettop)
local DRV=$(getdriver $T)
if [ "$T" ]; then
local DASH_ARGS=$(echo "$@" | awk -v RS=" " -v ORS=" " '/^-.*$/')
local DIRS=$(echo "$@" | awk -v RS=" " -v ORS=" " '/^[^-].*$/')
local MY_PWD=`PWD= /bin/pwd`
if [ "$MY_PWD" = "$T" ]; then
MY_PWD=
else
MY_PWD=`echo $MY_PWD|sed 's:'$T'/::'`
fi
local DIR=
local MODULE_PATHS=
local ARGS=
for DIR in $DIRS ; do
if [ -d $DIR ]; then
if [ "$MY_PWD" = "" ]; then
MODULE_PATHS="$MODULE_PATHS $DIR"
else
MODULE_PATHS="$MODULE_PATHS $MY_PWD/$DIR"
fi
else
case $DIR in
showcommands | snod | dist | incrementaljavac) ARGS="$ARGS $DIR";;
*) echo "Couldn't find directory $DIR"; return 1;;
esac
fi
done
$DRV make -C $T -f build/core/main.mk $DASH_ARGS $ARGS all_modules BUILD_MODULES_IN_PATHS="$MODULE_PATHS"
else
echo "Couldn't locate the top of the tree. Try setting TOP."
fi
}
function croot()
{
T=$(gettop)
if [ "$T" ]; then
\cd $(gettop)
else
echo "Couldn't locate the top of the tree. Try setting TOP."
fi
}
function cproj()
{
TOPFILE=build/core/envsetup.mk
local HERE=$PWD
T=
while [ \( ! \( -f $TOPFILE \) \) -a \( $PWD != "/" \) ]; do
T=$PWD
if [ -f "$T/Android.mk" ]; then
\cd $T
return
fi
\cd ..
done
\cd $HERE
echo "can't find Android.mk"
}
# simplified version of ps; output in the form
# <pid> <procname>
function qpid() {
local prepend=''
local append=''
if [ "$1" = "--exact" ]; then
prepend=' '
append='$'
shift
elif [ "$1" = "--help" -o "$1" = "-h" ]; then
echo "usage: qpid [[--exact] <process name|pid>"
return 255
fi
local EXE="$1"
if [ "$EXE" ] ; then
qpid | \grep "$prepend$EXE$append"
else
adb shell ps \
| tr -d '\r' \
| sed -e 1d -e 's/^[^ ]* *\([0-9]*\).* \([^ ]*\)$/\1 \2/'
fi
}
function pid()
{
local prepend=''
local append=''
if [ "$1" = "--exact" ]; then
prepend=' '
append='$'
shift
fi
local EXE="$1"
if [ "$EXE" ] ; then
local PID=`adb shell ps \
| tr -d '\r' \
| \grep "$prepend$EXE$append" \
| sed -e 's/^[^ ]* *\([0-9]*\).*$/\1/'`
echo "$PID"
else
echo "usage: pid [--exact] <process name>"
return 255
fi
}
# coredump_setup - enable core dumps globally for any process
# that has the core-file-size limit set correctly
#
# NOTE: You must call also coredump_enable for a specific process
# if its core-file-size limit is not set already.
# NOTE: Core dumps are written to ramdisk; they will not survive a reboot!
function coredump_setup()
{
echo "Getting root...";
adb root;
adb wait-for-device;
echo "Remounting root parition read-write...";
adb shell mount -w -o remount -t rootfs rootfs;
sleep 1;
adb wait-for-device;
adb shell mkdir -p /cores;
adb shell mount -t tmpfs tmpfs /cores;
adb shell chmod 0777 /cores;
echo "Granting SELinux permission to dump in /cores...";
adb shell restorecon -R /cores;
echo "Set core pattern.";
adb shell 'echo /cores/core.%p > /proc/sys/kernel/core_pattern';
echo "Done."
}
# coredump_enable - enable core dumps for the specified process
# $1 = PID of process (e.g., $(pid mediaserver))
#
# NOTE: coredump_setup must have been called as well for a core
# dump to actually be generated.
function coredump_enable()
{
local PID=$1;
if [ -z "$PID" ]; then
printf "Expecting a PID!\n";
return;
fi;
echo "Setting core limit for $PID to infinite...";
adb shell prlimit $PID 4 -1 -1
}
# core - send SIGV and pull the core for process
# $1 = PID of process (e.g., $(pid mediaserver))
#
# NOTE: coredump_setup must be called once per boot for core dumps to be
# enabled globally.
function core()
{
local PID=$1;
if [ -z "$PID" ]; then
printf "Expecting a PID!\n";
return;
fi;
local CORENAME=core.$PID;
local COREPATH=/cores/$CORENAME;
local SIG=SEGV;
coredump_enable $1;
local done=0;
while [ $(adb shell "[ -d /proc/$PID ] && echo -n yes") ]; do
printf "\tSending SIG%s to %d...\n" $SIG $PID;
adb shell kill -$SIG $PID;
sleep 1;
done;
adb shell "while [ ! -f $COREPATH ] ; do echo waiting for $COREPATH to be generated; sleep 1; done"
echo "Done: core is under $COREPATH on device.";
}
# systemstack - dump the current stack trace of all threads in the system process
# to the usual ANR traces file
function systemstack()
{
stacks system_server
}
function stacks()
{
if [[ $1 =~ ^[0-9]+$ ]] ; then
local PID="$1"
elif [ "$1" ] ; then
local PIDLIST="$(pid $1)"
if [[ $PIDLIST =~ ^[0-9]+$ ]] ; then
local PID="$PIDLIST"
elif [ "$PIDLIST" ] ; then
echo "more than one process: $1"
else
echo "no such process: $1"
fi
else
echo "usage: stacks [pid|process name]"
fi
if [ "$PID" ] ; then
# Determine whether the process is native
if adb shell ls -l /proc/$PID/exe | grep -q /system/bin/app_process ; then
# Dump stacks of Dalvik process
local TRACES=/data/anr/traces.txt
local ORIG=/data/anr/traces.orig
local TMP=/data/anr/traces.tmp
# Keep original traces to avoid clobbering
adb shell mv $TRACES $ORIG
# Make sure we have a usable file
adb shell touch $TRACES
adb shell chmod 666 $TRACES
# Dump stacks and wait for dump to finish
adb shell kill -3 $PID
adb shell notify $TRACES >/dev/null
# Restore original stacks, and show current output
adb shell mv $TRACES $TMP
adb shell mv $ORIG $TRACES
adb shell cat $TMP
else
# Dump stacks of native process
local USE64BIT="$(is64bit $PID)"
adb shell debuggerd$USE64BIT -b $PID
fi
fi
}
function gdbwrapper()
{
local GDB_CMD="$1"
shift 1
$GDB_CMD -x "$@"
}
function get_symbols_directory()
{
echo $(get_abs_build_var TARGET_OUT_UNSTRIPPED)
}
# Read the ELF header from /proc/$PID/exe to determine if the process is
# 64-bit.
function is64bit()
{
local PID="$1"
if [ "$PID" ] ; then
if [[ "$(adb shell cat /proc/$PID/exe | xxd -l 1 -s 4 -ps)" -eq "02" ]] ; then
echo "64"
else
echo ""
fi
else
echo ""
fi
}
function adb_get_product_device() {
echo `adb shell getprop ro.product.device | sed s/.$//`
}
# returns 0 when process is not traced
function adb_get_traced_by() {
echo `adb shell cat /proc/$1/status | grep -e "^TracerPid:" | sed "s/^TracerPid:\t//" | sed s/.$//`
}
function gdbclient() {
# TODO:
# 1. Check for ANDROID_SERIAL/multiple devices
local PROCESS_NAME="n/a"
local PID=$1
local PORT=5039
if [ -z "$PID" ]; then
echo "Usage: gdbclient <pid|processname> [port number]"
return -1
fi
local DEVICE=$(adb_get_product_device)
if [ -z "$DEVICE" ]; then
echo "Error: Unable to get device name. Please check if device is connected and ANDROID_SERIAL is set."
return -2
fi
if [ -n "$2" ]; then
PORT=$2
fi
local ROOT=$(gettop)
if [ -z "$ROOT" ]; then
# This is for the situation with downloaded symbols (from the build server)
# we check if they are available.
ROOT=`realpath .`
fi
local OUT_ROOT="$ROOT/out/target/product/$DEVICE"
local SYMBOLS_DIR="$OUT_ROOT/symbols"
if [ ! -d $SYMBOLS_DIR ]; then
echo "Error: couldn't find symbols: $SYMBOLS_DIR does not exist or is not a directory."
return -3
fi
# let's figure out which executable we are about to debug
# check if user specified a name -> resolve to pid
if [[ ! "$PID" =~ ^[0-9]+$ ]] ; then
PROCESS_NAME=$PID
PID=$(pid --exact $PROCESS_NAME)
if [ -z "$PID" ]; then
echo "Error: couldn't resolve pid by process name: $PROCESS_NAME"
return -4
fi
fi
local EXE=`adb shell readlink /proc/$PID/exe | sed s/.$//`
# TODO: print error in case there is no such pid
local LOCAL_EXE_PATH=$SYMBOLS_DIR$EXE
if [ ! -f $LOCAL_EXE_PATH ]; then
echo "Error: unable to find symbols for executable $EXE: file $LOCAL_EXE_PATH does not exist"
return -5
fi
local USE64BIT=""
if [[ "$(file $LOCAL_EXE_PATH)" =~ 64-bit ]]; then
USE64BIT="64"
fi
local GDB=
local GDB64=
local CPU_ABI=`adb shell getprop ro.product.cpu.abilist | sed s/.$//`
# TODO: we assume these are available via $PATH
if [[ $CPU_ABI =~ (^|,)arm64 ]]; then
GDB=arm-linux-androideabi-gdb
GDB64=aarch64-linux-android-gdb
elif [[ $CPU_ABI =~ (^|,)arm ]]; then
GDB=arm-linux-androideabi-gdb
elif [[ $CPU_ABI =~ (^|,)x86_64 ]]; then
GDB=x86_64-linux-androideabi-gdb
elif [[ $CPU_ABI =~ (^|,)x86 ]]; then
GDB=x86_64-linux-androideabi-gdb
elif [[ $CPU_ABI =~ (^|,)mips64 ]]; then
GDB=mipsel-linux-android-gdb
GDB64=mips64el-linux-android-gdb
elif [[ $CPU_ABI =~ (^|,)mips ]]; then
GDB=mipsel-linux-android-gdb
else
echo "Error: unrecognized cpu.abilist: $CPU_ABI"
return -6
fi
# TODO: check if tracing process is gdbserver and not some random strace...
if [ $(adb_get_traced_by $PID) -eq 0 ]; then
# start gdbserver
echo "Starting gdbserver..."
# TODO: check if adb is already listening $PORT
# to avoid unnecessary calls
echo ". adb forward for port=$PORT..."
adb forward tcp:$PORT tcp:$PORT
echo ". starting gdbserver to attach to pid=$PID..."
adb shell gdbserver$USE64BIT :$PORT --attach $PID &
echo ". give it couple of seconds to start..."
sleep 2
echo ". done"
else
echo "It looks like gdbserver is already attached to $PID (process is traced), trying to connect to it using local port=$PORT"
fi
local OUT_SO_SYMBOLS=$SYMBOLS_DIR/system/lib$USE64BIT
local OUT_VENDOR_SO_SYMBOLS=$SYMBOLS_DIR/vendor/lib$USE64BIT
local ART_CMD=""
echo >|"$OUT_ROOT/gdbclient.cmds" "set solib-absolute-prefix $SYMBOLS_DIR"
echo >>"$OUT_ROOT/gdbclient.cmds" "set solib-search-path $OUT_SO_SYMBOLS:$OUT_SO_SYMBOLS/hw:$OUT_SO_SYMBOLS/ssl/engines:$OUT_SO_SYMBOLS/drm:$OUT_SO_SYMBOLS/egl:$OUT_SO_SYMBOLS/soundfx:$OUT_VENDOR_SO_SYMBOLS:$OUT_VENDOR_SO_SYMBOLS/hw:$OUT_VENDOR_SO_SYMBOLS/egl"
local DALVIK_GDB_SCRIPT=$ROOT/development/scripts/gdb/dalvik.gdb
if [ -f $DALVIK_GDB_SCRIPT ]; then
echo >>"$OUT_ROOT/gdbclient.cmds" "source $DALVIK_GDB_SCRIPT"
ART_CMD="art-on"
else
echo "Warning: couldn't find $DALVIK_GDB_SCRIPT - ART debugging options will not be available"
fi
echo >>"$OUT_ROOT/gdbclient.cmds" "target remote :$PORT"
if [[ $EXE =~ (^|/)(app_process|dalvikvm)(|32|64)$ ]]; then
echo >> "$OUT_ROOT/gdbclient.cmds" $ART_CMD
fi
echo >>"$OUT_ROOT/gdbclient.cmds" ""
local WHICH_GDB=$GDB
if [ -n "$USE64BIT" -a -n "$GDB64" ]; then
WHICH_GDB=$GDB64
fi
gdbwrapper $WHICH_GDB "$OUT_ROOT/gdbclient.cmds" "$LOCAL_EXE_PATH"
}
# gdbclient now determines whether the user wants to debug a 32-bit or 64-bit
# executable, set up the approriate gdbserver, then invokes the proper host
# gdb.
function gdbclient_old()
{
local OUT_ROOT=$(get_abs_build_var PRODUCT_OUT)
local OUT_SYMBOLS=$(get_abs_build_var TARGET_OUT_UNSTRIPPED)
local OUT_SO_SYMBOLS=$(get_abs_build_var TARGET_OUT_SHARED_LIBRARIES_UNSTRIPPED)
local OUT_VENDOR_SO_SYMBOLS=$(get_abs_build_var TARGET_OUT_VENDOR_SHARED_LIBRARIES_UNSTRIPPED)
local OUT_EXE_SYMBOLS=$(get_symbols_directory)
local PREBUILTS=$(get_abs_build_var ANDROID_PREBUILTS)
local ARCH=$(get_build_var TARGET_ARCH)
local GDB
case "$ARCH" in
arm) GDB=arm-linux-androideabi-gdb;;
arm64) GDB=arm-linux-androideabi-gdb; GDB64=aarch64-linux-android-gdb;;
mips|mips64) GDB=mips64el-linux-android-gdb;;
x86) GDB=x86_64-linux-android-gdb;;
x86_64) GDB=x86_64-linux-android-gdb;;
*) echo "Unknown arch $ARCH"; return 1;;
esac
if [ "$OUT_ROOT" -a "$PREBUILTS" ]; then
local EXE="$1"
if [ "$EXE" ] ; then
EXE=$1
if [[ $EXE =~ ^[^/].* ]] ; then
EXE="system/bin/"$EXE
fi
else
EXE="app_process"
fi
local PORT="$2"
if [ "$PORT" ] ; then
PORT=$2
else
PORT=":5039"
fi
local PID="$3"
if [ "$PID" ] ; then
if [[ ! "$PID" =~ ^[0-9]+$ ]] ; then
PID=`pid $3`
if [[ ! "$PID" =~ ^[0-9]+$ ]] ; then
# that likely didn't work because of returning multiple processes
# try again, filtering by root processes (don't contain colon)
PID=`adb shell ps | \grep $3 | \grep -v ":" | awk '{print $2}'`
if [[ ! "$PID" =~ ^[0-9]+$ ]]
then
echo "Couldn't resolve '$3' to single PID"
return 1
else
echo ""
echo "WARNING: multiple processes matching '$3' observed, using root process"
echo ""
fi
fi
fi
adb forward "tcp$PORT" "tcp$PORT"
local USE64BIT="$(is64bit $PID)"
adb shell gdbserver$USE64BIT $PORT --attach $PID &
sleep 2
else
echo ""
echo "If you haven't done so already, do this first on the device:"
echo " gdbserver $PORT /system/bin/$EXE"
echo " or"
echo " gdbserver $PORT --attach <PID>"
echo ""
fi
OUT_SO_SYMBOLS=$OUT_SO_SYMBOLS$USE64BIT
OUT_VENDOR_SO_SYMBOLS=$OUT_VENDOR_SO_SYMBOLS$USE64BIT
echo >|"$OUT_ROOT/gdbclient.cmds" "set solib-absolute-prefix $OUT_SYMBOLS"
echo >>"$OUT_ROOT/gdbclient.cmds" "set solib-search-path $OUT_SO_SYMBOLS:$OUT_SO_SYMBOLS/hw:$OUT_SO_SYMBOLS/ssl/engines:$OUT_SO_SYMBOLS/drm:$OUT_SO_SYMBOLS/egl:$OUT_SO_SYMBOLS/soundfx:$OUT_VENDOR_SO_SYMBOLS:$OUT_VENDOR_SO_SYMBOLS/hw:$OUT_VENDOR_SO_SYMBOLS/egl"
echo >>"$OUT_ROOT/gdbclient.cmds" "source $ANDROID_BUILD_TOP/development/scripts/gdb/dalvik.gdb"
echo >>"$OUT_ROOT/gdbclient.cmds" "target remote $PORT"
# Enable special debugging for ART processes.
if [[ $EXE =~ (^|/)(app_process|dalvikvm)(|32|64)$ ]]; then
echo >> "$OUT_ROOT/gdbclient.cmds" "art-on"
fi
echo >>"$OUT_ROOT/gdbclient.cmds" ""
local WHICH_GDB=
# 64-bit exe found
if [ "$USE64BIT" != "" ] ; then
WHICH_GDB=$ANDROID_TOOLCHAIN/$GDB64
# 32-bit exe / 32-bit platform
elif [ "$(get_build_var TARGET_2ND_ARCH)" = "" ]; then
WHICH_GDB=$ANDROID_TOOLCHAIN/$GDB
# 32-bit exe / 64-bit platform
else
WHICH_GDB=$ANDROID_TOOLCHAIN_2ND_ARCH/$GDB
fi
gdbwrapper $WHICH_GDB "$OUT_ROOT/gdbclient.cmds" "$OUT_EXE_SYMBOLS/$EXE"
else
echo "Unable to determine build system output dir."
fi
}
case `uname -s` in
Darwin)
function sgrep()
{
find -E . -name .repo -prune -o -name .git -prune -o -type f -iregex '.*\.(c|h|cc|cpp|S|java|xml|sh|mk|aidl)' -print0 | xargs -0 grep --color -n "$@"
}
;;
*)
function sgrep()
{
find . -name .repo -prune -o -name .git -prune -o -type f -iregex '.*\.\(c\|h\|cc\|cpp\|S\|java\|xml\|sh\|mk\|aidl\)' -print0 | xargs -0 grep --color -n "$@"
}
;;
esac
function gettargetarch
{
get_build_var TARGET_ARCH
}
function ggrep()
{
find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f -name "*\.gradle" -print0 | xargs -0 grep --color -n "$@"
}
function jgrep()
{
find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f -name "*\.java" -print0 | xargs -0 grep --color -n "$@"
}
function cgrep()
{
find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f \( -name '*.c' -o -name '*.cc' -o -name '*.cpp' -o -name '*.h' \) -print0 | xargs -0 grep --color -n "$@"
}
function resgrep()
{
for dir in `find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -name res -type d`; do find $dir -type f -name '*\.xml' -print0 | xargs -0 grep --color -n "$@"; done;
}
function mangrep()
{
find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -type f -name 'AndroidManifest.xml' -print0 | xargs -0 grep --color -n "$@"
}
function sepgrep()
{
find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -name sepolicy -type d -print0 | xargs -0 grep --color -n -r --exclude-dir=\.git "$@"
}
case `uname -s` in
Darwin)
function mgrep()
{
find -E . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -type f -iregex '.*/(Makefile|Makefile\..*|.*\.make|.*\.mak|.*\.mk)' -print0 | xargs -0 grep --color -n "$@"
}
function treegrep()
{
find -E . -name .repo -prune -o -name .git -prune -o -type f -iregex '.*\.(c|h|cpp|S|java|xml)' -print0 | xargs -0 grep --color -n -i "$@"
}
;;
*)
function mgrep()
{
find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -regextype posix-egrep -iregex '(.*\/Makefile|.*\/Makefile\..*|.*\.make|.*\.mak|.*\.mk)' -type f -print0 | xargs -0 grep --color -n "$@"
}
function treegrep()
{
find . -name .repo -prune -o -name .git -prune -o -regextype posix-egrep -iregex '.*\.(c|h|cpp|S|java|xml)' -type f -print0 | xargs -0 grep --color -n -i "$@"
}
;;
esac
function getprebuilt
{
get_abs_build_var ANDROID_PREBUILTS
}
function tracedmdump()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP."
return
fi
local prebuiltdir=$(getprebuilt)
local arch=$(gettargetarch)
local KERNEL=$T/prebuilts/qemu-kernel/$arch/vmlinux-qemu
local TRACE=$1
if [ ! "$TRACE" ] ; then
echo "usage: tracedmdump tracename"
return
fi
if [ ! -r "$KERNEL" ] ; then
echo "Error: cannot find kernel: '$KERNEL'"
return
fi
local BASETRACE=$(basename $TRACE)
if [ "$BASETRACE" = "$TRACE" ] ; then
TRACE=$ANDROID_PRODUCT_OUT/traces/$TRACE
fi
echo "post-processing traces..."
rm -f $TRACE/qtrace.dexlist
post_trace $TRACE
if [ $? -ne 0 ]; then
echo "***"
echo "*** Error: malformed trace. Did you remember to exit the emulator?"
echo "***"
return
fi
echo "generating dexlist output..."
/bin/ls $ANDROID_PRODUCT_OUT/system/framework/*.jar $ANDROID_PRODUCT_OUT/system/app/*.apk $ANDROID_PRODUCT_OUT/data/app/*.apk 2>/dev/null | xargs dexlist > $TRACE/qtrace.dexlist
echo "generating dmtrace data..."
q2dm -r $ANDROID_PRODUCT_OUT/symbols $TRACE $KERNEL $TRACE/dmtrace || return
echo "generating html file..."
dmtracedump -h $TRACE/dmtrace >| $TRACE/dmtrace.html || return
echo "done, see $TRACE/dmtrace.html for details"
echo "or run:"
echo " traceview $TRACE/dmtrace"
}
# communicate with a running device or emulator, set up necessary state,
# and run the hat command.
function runhat()
{
# process standard adb options
local adbTarget=""
if [ "$1" = "-d" -o "$1" = "-e" ]; then
adbTarget=$1
shift 1
elif [ "$1" = "-s" ]; then
adbTarget="$1 $2"
shift 2
fi
local adbOptions=${adbTarget}
#echo adbOptions = ${adbOptions}
# runhat options
local targetPid=$1
if [ "$targetPid" = "" ]; then
echo "Usage: runhat [ -d | -e | -s serial ] target-pid"
return
fi
# confirm hat is available
if [ -z $(which hat) ]; then
echo "hat is not available in this configuration."
return
fi
# issue "am" command to cause the hprof dump
local devFile=/data/local/tmp/hprof-$targetPid
echo "Poking $targetPid and waiting for data..."
echo "Storing data at $devFile"
adb ${adbOptions} shell am dumpheap $targetPid $devFile
echo "Press enter when logcat shows \"hprof: heap dump completed\""
echo -n "> "
read
local localFile=/tmp/$$-hprof
echo "Retrieving file $devFile..."
adb ${adbOptions} pull $devFile $localFile
adb ${adbOptions} shell rm $devFile
echo "Running hat on $localFile"
echo "View the output by pointing your browser at http://localhost:7000/"
echo ""
hat -JXmx512m $localFile
}
function getbugreports()
{
local reports=(`adb shell ls /sdcard/bugreports | tr -d '\r'`)
if [ ! "$reports" ]; then
echo "Could not locate any bugreports."
return
fi
local report
for report in ${reports[@]}
do
echo "/sdcard/bugreports/${report}"
adb pull /sdcard/bugreports/${report} ${report}
gunzip ${report}
done
}
function getsdcardpath()
{
adb ${adbOptions} shell echo -n \$\{EXTERNAL_STORAGE\}
}
function getscreenshotpath()
{
echo "$(getsdcardpath)/Pictures/Screenshots"
}
function getlastscreenshot()
{
local screenshot_path=$(getscreenshotpath)
local screenshot=`adb ${adbOptions} ls ${screenshot_path} | grep Screenshot_[0-9-]*.*\.png | sort -rk 3 | cut -d " " -f 4 | head -n 1`
if [ "$screenshot" = "" ]; then
echo "No screenshots found."
return
fi
echo "${screenshot}"
adb ${adbOptions} pull ${screenshot_path}/${screenshot}
}
function startviewserver()
{
local port=4939
if [ $# -gt 0 ]; then
port=$1
fi
adb shell service call window 1 i32 $port
}
function stopviewserver()
{
adb shell service call window 2
}
function isviewserverstarted()
{
adb shell service call window 3
}
function key_home()
{
adb shell input keyevent 3
}
function key_back()
{
adb shell input keyevent 4
}
function key_menu()
{
adb shell input keyevent 82
}
function smoketest()
{
if [ ! "$ANDROID_PRODUCT_OUT" ]; then
echo "Couldn't locate output files. Try running 'lunch' first." >&2
return
fi
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP." >&2
return
fi
(\cd "$T" && mmm tests/SmokeTest) &&
adb uninstall com.android.smoketest > /dev/null &&
adb uninstall com.android.smoketest.tests > /dev/null &&
adb install $ANDROID_PRODUCT_OUT/data/app/SmokeTestApp.apk &&
adb install $ANDROID_PRODUCT_OUT/data/app/SmokeTest.apk &&
adb shell am instrument -w com.android.smoketest.tests/android.test.InstrumentationTestRunner
}
# simple shortcut to the runtest command
function runtest()
{
T=$(gettop)
if [ ! "$T" ]; then
echo "Couldn't locate the top of the tree. Try setting TOP." >&2
return
fi
("$T"/development/testrunner/runtest.py $@)
}
function godir () {
if [[ -z "$1" ]]; then
echo "Usage: godir <regex>"
return
fi
T=$(gettop)
if [[ ! -f $T/filelist ]]; then
echo -n "Creating index..."
(\cd $T; find . -wholename ./out -prune -o -wholename ./.repo -prune -o -type f > filelist)
echo " Done"
echo ""
fi
local lines
lines=($(\grep "$1" $T/filelist | sed -e 's/\/[^/]*$//' | sort | uniq))
if [[ ${#lines[@]} = 0 ]]; then
echo "Not found"
return
fi
local pathname
local choice
if [[ ${#lines[@]} > 1 ]]; then
while [[ -z "$pathname" ]]; do
local index=1
local line
for line in ${lines[@]}; do
printf "%6s %s\n" "[$index]" $line
index=$(($index + 1))
done
echo
echo -n "Select one: "
unset choice
read choice
if [[ $choice -gt ${#lines[@]} || $choice -lt 1 ]]; then
echo "Invalid choice"
continue
fi
pathname=${lines[$(($choice-1))]}
done
else
pathname=${lines[0]}
fi
\cd $T/$pathname
}
# Force JAVA_HOME to point to java 1.7 if it isn't already set.
#
# Note that the MacOS path for java 1.7 includes a minor revision number (sigh).
# For some reason, installing the JDK doesn't make it show up in the
# JavaVM.framework/Versions/1.7/ folder.
function set_java_home() {
# Clear the existing JAVA_HOME value if we set it ourselves, so that
# we can reset it later, depending on the version of java the build
# system needs.
#
# If we don't do this, the JAVA_HOME value set by the first call to
# build/envsetup.sh will persist forever.
if [ -n "$ANDROID_SET_JAVA_HOME" ]; then
export JAVA_HOME=""
fi
if [ ! "$JAVA_HOME" ]; then
case `uname -s` in
Darwin)
export JAVA_HOME=$(/usr/libexec/java_home -v 1.7)
;;
*)
export JAVA_HOME=/usr/lib/jvm/java-7-openjdk-amd64
;;
esac
# Keep track of the fact that we set JAVA_HOME ourselves, so that
# we can change it on the next envsetup.sh, if required.
export ANDROID_SET_JAVA_HOME=true
fi
}
# Print colored exit condition
function pez {
"$@"
local retval=$?
if [ $retval -ne 0 ]
then
echo -e "\e[0;31mFAILURE\e[00m"
else
echo -e "\e[0;32mSUCCESS\e[00m"
fi
return $retval
}
function get_make_command()
{
echo command make
}
function make()
{
local start_time=$(date +"%s")
$(get_make_command) "$@"
local ret=$?
local end_time=$(date +"%s")
local tdiff=$(($end_time-$start_time))
local hours=$(($tdiff / 3600 ))
local mins=$((($tdiff % 3600) / 60))
local secs=$(($tdiff % 60))
echo
if [ $ret -eq 0 ] ; then
echo -n -e "#### make completed successfully "
else
echo -n -e "#### make failed to build some targets "
fi
if [ $hours -gt 0 ] ; then
printf "(%02g:%02g:%02g (hh:mm:ss))" $hours $mins $secs
elif [ $mins -gt 0 ] ; then
printf "(%02g:%02g (mm:ss))" $mins $secs
elif [ $secs -gt 0 ] ; then
printf "(%s seconds)" $secs
fi
echo -e " ####"
echo
return $ret
}
if [ "x$SHELL" != "x/bin/bash" ]; then
case `ps -o command -p $$` in
*bash*)
;;
*)
echo "WARNING: Only bash is supported, use of other shell would lead to erroneous results"
;;
esac
fi
# Execute the contents of any vendorsetup.sh files we can find.
for f in `test -d device && find -L device -maxdepth 4 -name 'vendorsetup.sh' 2> /dev/null` \
`test -d vendor && find -L vendor -maxdepth 4 -name 'vendorsetup.sh' 2> /dev/null`
do
echo "including $f"
. $f
done
unset f
addcompletions