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platform_build/envsetup.sh
Nick Kralevich 9948b1e9ed runhat: use /data/local/tmp 
Use /data/local/tmp for runhat reports, instead of the sdcard.
system_server isn't allowed to handle sdcard file descriptors, since
the sdcard could be ejected at any time, causing the kernel to kill the
system process.

This addresses the following SELinux denial:

  W/main    ( 9906): type=1400 audit(0.0:16): avc: denied { read write } for path="/mnt/shell/emulated/0/hprof-600" dev="fuse" ino=3077890536 scontext=u:r:system_server:s0 tcontext=u:object_r:fuse:s0 tclass=file

Bug: 16375996
Change-Id: I4c2053c327526c2f8e6812f4ed911a712ae9a9b8
2014-07-18 15:45:38 -07:00

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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.
- 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 "/^function /s/function \([a-z_]*\).*/\1/p" | sort`; 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) toolchaindir=mips/mipsel-linux-android-$targetgccversion/bin
;;
mips64) toolchaindir=mips/mips64el-linux-android-$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)
# 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 "$ANDROID_EMULATOR_PREBUILTS" ]; then
PATH=$ANDROID_EMULATOR_PREBUILTS:$PATH
export ANDROID_EMULATOR_PREBUILTS
fi
# needed for building linux on MacOS
# TODO: fix the path
#export HOST_EXTRACFLAGS="-I "$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[@]} $new_combo)
}
# add the default one here
add_lunch_combo aosp_arm-eng
add_lunch_combo aosp_arm64-eng
add_lunch_combo aosp_mips-eng
add_lunch_combo aosp_mips64-eng
add_lunch_combo aosp_x86-eng
add_lunch_combo aosp_x86_64-eng
add_lunch_combo vbox_x86-eng
function print_lunch_menu()
{
local uname=$(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 apps="$(echo $* | xargs -n 1 echo | \grep -E -v '^(user|userdebug|eng|arm|x86|mips|armv5|arm64|x86_64|mips64)$' | 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
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 "$apps" ]; then
apps=all
fi
export TARGET_PRODUCT=$product
export TARGET_BUILD_VARIANT=$variant
export TARGET_BUILD_TYPE=release
export TARGET_BUILD_APPS=$apps
set_stuff_for_environment
printconfig
}
function gettop
{
local TOPFILE=build/core/envsetup.mk
if [ -n "$TOP" -a -f "$TOP/$TOPFILE" ] ; then
echo $TOP
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
}
# 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
}
# 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()
{
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) GDB=mipsel-linux-android-gdb;;
mips64) GDB=mipsel-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 $PORT"
echo >>"$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|cpp|S|java|xml|sh|mk)' -print0 | xargs -0 grep --color -n "$@"
}
;;
*)
function sgrep()
{
find . -name .repo -prune -o -name .git -prune -o -type f -iregex '.*\.\(c\|h\|cpp\|S\|java\|xml\|sh\|mk\)' -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 or java 1.6 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
if [ -n "$LEGACY_USE_JAVA6" ]; then
case `uname -s` in
Darwin)
export JAVA_HOME=/System/Library/Frameworks/JavaVM.framework/Versions/1.6/Home
;;
*)
export JAVA_HOME=/usr/lib/jvm/java-6-sun
;;
esac
else
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
fi
# 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 make()
{
local start_time=$(date +"%s")
command make "$@"
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
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