function hmm() { cat <- Selects as the product to build, and as the variant to build, and stores those selections in the environment to be read by subsequent invocations of 'm' etc. - tapas: tapas [ ...] [arm|x86|mips|arm64|x86_64|mips64] [eng|userdebug|user] - croot: Changes directory to the top of the tree, or a subdirectory thereof. - m: Makes from the top of the tree. - mm: Builds and installs all of the modules in the current directory, and their dependencies. - mmm: Builds and installs all of the modules in the supplied directories, and their dependencies. To limit the modules being built use the syntax: mmm dir/:target1,target2. - mma: Same as 'mm' - mmma: Same as 'mmm' - provision: Flash device with all required partitions. Options will be passed on to fastboot. - cgrep: Greps on all local C/C++ files. - ggrep: Greps on all local Gradle files. - gogrep: Greps on all local Go files. - jgrep: Greps on all local Java files. - resgrep: Greps on all local res/*.xml files. - mangrep: Greps on all local AndroidManifest.xml files. - mgrep: Greps on all local Makefiles and *.bp files. - owngrep: Greps on all local OWNERS files. - sepgrep: Greps on all local sepolicy files. - sgrep: Greps on all local source files. - godir: Go to the directory containing a file. - allmod: List all modules. - gomod: Go to the directory containing a module. - pathmod: Get the directory containing a module. - refreshmod: Refresh list of modules for allmod/gomod. Environment options: - SANITIZE_HOST: Set to 'address' to use ASAN for all host modules. - ANDROID_QUIET_BUILD: set to 'true' to display only the essential messages. Look at the source to view more functions. The complete list is: EOF local T=$(gettop) local A="" local i for i in `cat $T/build/envsetup.sh | sed -n "/^[[:blank:]]*function /s/function \([a-z_]*\).*/\1/p" | sort | uniq`; do A="$A $i" done echo $A } # Get all the build variables needed by this script in a single call to the build system. function build_build_var_cache() { local T=$(gettop) # Grep out the variable names from the script. cached_vars=(`cat $T/build/envsetup.sh | tr '()' ' ' | awk '{for(i=1;i<=NF;i++) if($i~/get_build_var/) print $(i+1)}' | sort -u | tr '\n' ' '`) cached_abs_vars=(`cat $T/build/envsetup.sh | tr '()' ' ' | awk '{for(i=1;i<=NF;i++) if($i~/get_abs_build_var/) print $(i+1)}' | sort -u | tr '\n' ' '`) # Call the build system to dump the "=" pairs as a shell script. build_dicts_script=`\builtin cd $T; build/soong/soong_ui.bash --dumpvars-mode \ --vars="${cached_vars[*]}" \ --abs-vars="${cached_abs_vars[*]}" \ --var-prefix=var_cache_ \ --abs-var-prefix=abs_var_cache_` local ret=$? if [ $ret -ne 0 ] then unset build_dicts_script return $ret fi # Execute the script to store the "=" pairs as shell variables. eval "$build_dicts_script" ret=$? unset build_dicts_script if [ $ret -ne 0 ] then return $ret fi BUILD_VAR_CACHE_READY="true" } # Delete the build var cache, so that we can still call into the build system # to get build variables not listed in this script. function destroy_build_var_cache() { unset BUILD_VAR_CACHE_READY local v for v in $cached_vars; do unset var_cache_$v done unset cached_vars for v in $cached_abs_vars; do unset abs_var_cache_$v done unset cached_abs_vars } # Get the value of a build variable as an absolute path. function get_abs_build_var() { if [ "$BUILD_VAR_CACHE_READY" = "true" ] then eval "echo \"\${abs_var_cache_$1}\"" return fi local T=$(gettop) if [ ! "$T" ]; then echo "Couldn't locate the top of the tree. Try setting TOP." >&2 return fi (\cd $T; build/soong/soong_ui.bash --dumpvar-mode --abs $1) } # Get the exact value of a build variable. function get_build_var() { if [ "$BUILD_VAR_CACHE_READY" = "true" ] then eval "echo \"\${var_cache_$1}\"" return fi local T=$(gettop) if [ ! "$T" ]; then echo "Couldn't locate the top of the tree. Try setting TOP." >&2 return fi (\cd $T; build/soong/soong_ui.bash --dumpvar-mode $1) } # check to see if the supplied product is one we can build function check_product() { local T=$(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() { local v for v in ${VARIANT_CHOICES[@]} do if [ "$v" = "$1" ] then return 0 fi done return 1 } function setpaths() { local T=$(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 local prebuiltdir=$(getprebuilt) local gccprebuiltdir=$(get_abs_build_var ANDROID_GCC_PREBUILTS) # defined in core/config.mk local targetgccversion=$(get_build_var TARGET_GCC_VERSION) local targetgccversion2=$(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) local toolchaindir toolchaindir2= 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/$toolchaindir fi if [ "$toolchaindir2" -a -d "$gccprebuiltdir/$toolchaindir2" ]; then export ANDROID_TOOLCHAIN_2ND_ARCH=$gccprebuiltdir/$toolchaindir2 fi export ANDROID_DEV_SCRIPTS=$T/development/scripts:$T/prebuilts/devtools/tools:$T/external/selinux/prebuilts/bin # add kernel specific binaries case $(uname -s) in Linux) export ANDROID_DEV_SCRIPTS=$ANDROID_DEV_SCRIPTS:$T/prebuilts/misc/linux-x86/dtc:$T/prebuilts/misc/linux-x86/libufdt ;; *) ;; esac ANDROID_BUILD_PATHS=$(get_build_var ANDROID_BUILD_PATHS):$ANDROID_TOOLCHAIN if [ -n "$ANDROID_TOOLCHAIN_2ND_ARCH" ]; then ANDROID_BUILD_PATHS=$ANDROID_BUILD_PATHS:$ANDROID_TOOLCHAIN_2ND_ARCH fi ANDROID_BUILD_PATHS=$ANDROID_BUILD_PATHS:$ANDROID_DEV_SCRIPTS # Append llvm binutils prebuilts path to ANDROID_BUILD_PATHS. local ANDROID_LLVM_BINUTILS=$(get_abs_build_var ANDROID_CLANG_PREBUILTS)/llvm-binutils-stable ANDROID_BUILD_PATHS=$ANDROID_BUILD_PATHS:$ANDROID_LLVM_BINUTILS # Set up ASAN_SYMBOLIZER_PATH for SANITIZE_HOST=address builds. export ASAN_SYMBOLIZER_PATH=$ANDROID_LLVM_BINUTILS/llvm-symbolizer # If prebuilts/android-emulator// 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:$ANDROID_EMULATOR_PREBUILTS export ANDROID_EMULATOR_PREBUILTS fi # Append asuite prebuilts path to ANDROID_BUILD_PATHS. local os_arch=$(get_build_var HOST_PREBUILT_TAG) local ACLOUD_PATH="$T/prebuilts/asuite/acloud/$os_arch" local AIDEGEN_PATH="$T/prebuilts/asuite/aidegen/$os_arch" local ATEST_PATH="$T/prebuilts/asuite/atest/$os_arch" export ANDROID_BUILD_PATHS=$ANDROID_BUILD_PATHS:$ACLOUD_PATH:$AIDEGEN_PATH:$ATEST_PATH: export PATH=$ANDROID_BUILD_PATHS$PATH # out with the duplicate old if [ -n $ANDROID_PYTHONPATH ]; then export PYTHONPATH=${PYTHONPATH//$ANDROID_PYTHONPATH/} fi # and in with the new export ANDROID_PYTHONPATH=$T/development/python-packages: if [ -n $VENDOR_PYTHONPATH ]; then ANDROID_PYTHONPATH=$ANDROID_PYTHONPATH$VENDOR_PYTHONPATH fi export PYTHONPATH=$ANDROID_PYTHONPATH$PYTHONPATH export ANDROID_JAVA_HOME=$(get_abs_build_var ANDROID_JAVA_HOME) export JAVA_HOME=$ANDROID_JAVA_HOME export ANDROID_JAVA_TOOLCHAIN=$(get_abs_build_var ANDROID_JAVA_TOOLCHAIN) export ANDROID_PRE_BUILD_PATHS=$ANDROID_JAVA_TOOLCHAIN: export PATH=$ANDROID_PRE_BUILD_PATHS$PATH unset ANDROID_PRODUCT_OUT export ANDROID_PRODUCT_OUT=$(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) unset ANDROID_HOST_OUT_TESTCASES export ANDROID_HOST_OUT_TESTCASES=$(get_abs_build_var HOST_OUT_TESTCASES) unset ANDROID_TARGET_OUT_TESTCASES export ANDROID_TARGET_OUT_TESTCASES=$(get_abs_build_var TARGET_OUT_TESTCASES) # needed for building linux on MacOS # TODO: fix the path #export HOST_EXTRACFLAGS="-I "$T/system/kernel_headers/host_include } function printconfig() { local T=$(gettop) if [ ! "$T" ]; then echo "Couldn't locate the top of the tree. Try setting TOP." >&2 return fi get_build_var report_config } function set_stuff_for_environment() { setpaths set_sequence_number export ANDROID_BUILD_TOP=$(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=13 } # Takes a command name, and check if it's in ENVSETUP_NO_COMPLETION or not. function should_add_completion() { local cmd="$(basename $1| sed 's/_completion//' |sed 's/\.\(.*\)*sh$//')" case :"$ENVSETUP_NO_COMPLETION": in *:"$cmd":*) return 1 ;; esac return 0 } function addcompletions() { local T dir f # Keep us from trying to run in something that's neither bash nor zsh. if [ -z "$BASH_VERSION" -a -z "$ZSH_VERSION" ]; then return fi # Keep us from trying to run in bash that's too old. if [ -n "$BASH_VERSION" -a ${BASH_VERSINFO[0]} -lt 3 ]; then return fi local completion_files=( system/core/adb/adb.bash system/core/fastboot/fastboot.bash tools/asuite/asuite.sh ) # Completion can be disabled selectively to allow users to use non-standard completion. # e.g. # ENVSETUP_NO_COMPLETION=adb # -> disable adb completion # ENVSETUP_NO_COMPLETION=adb:bit # -> disable adb and bit completion for f in ${completion_files[*]}; do if [ -f "$f" ] && should_add_completion "$f"; then . $f fi done if should_add_completion bit ; then complete -C "bit --tab" bit fi if [ -z "$ZSH_VERSION" ]; then # Doesn't work in zsh. complete -o nospace -F _croot croot fi complete -F _lunch lunch complete -F _complete_android_module_names gomod complete -F _complete_android_module_names m } 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 "$1" ] ; then break fi done build_build_var_cache set_stuff_for_environment destroy_build_var_cache } # # This function isn't really right: It chooses a TARGET_PRODUCT # based on the list of boards. Usually, that gets you something # that kinda works with a generic product, but really, you should # pick a product by name. # function chooseproduct() { local default_value if [ "x$TARGET_PRODUCT" != x ] ; then default_value=$TARGET_PRODUCT else default_value=aosp_arm fi export TARGET_BUILD_APPS= export TARGET_PRODUCT= local ANSWER while [ -z "$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 build_build_var_cache set_stuff_for_environment destroy_build_var_cache } 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)):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 $3 echo build_build_var_cache set_stuff_for_environment printconfig destroy_build_var_cache } function add_lunch_combo() { if [ -n "$ZSH_VERSION" ]; then echo -n "${funcfiletrace[1]}: " else echo -n "${BASH_SOURCE[1]}:${BASH_LINENO[0]}: " fi echo "add_lunch_combo is obsolete. Use COMMON_LUNCH_CHOICES in your AndroidProducts.mk instead." } function print_lunch_menu() { local uname=$(uname) local choices=$(TARGET_BUILD_APPS= get_build_var COMMON_LUNCH_CHOICES) echo echo "You're building on" $uname echo echo "Lunch menu... pick a combo:" local i=1 local choice for choice in $(echo $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 local choices=($(TARGET_BUILD_APPS= get_build_var COMMON_LUNCH_CHOICES)) if [ $answer -le ${#choices[@]} ] then # array in zsh starts from 1 instead of 0. if [ -n "$ZSH_VERSION" ] then selection=${choices[$(($answer))]} else selection=${choices[$(($answer-1))]} fi fi else selection=$answer fi export TARGET_BUILD_APPS= local product variant_and_version variant version product=${selection%%-*} # Trim everything after first dash variant_and_version=${selection#*-} # Trim everything up to first dash if [ "$variant_and_version" != "$selection" ]; then variant=${variant_and_version%%-*} if [ "$variant" != "$variant_and_version" ]; then version=${variant_and_version#*-} fi fi if [ -z "$product" ] then echo echo "Invalid lunch combo: $selection" return 1 fi TARGET_PRODUCT=$product \ TARGET_BUILD_VARIANT=$variant \ TARGET_PLATFORM_VERSION=$version \ build_build_var_cache if [ $? -ne 0 ] then return 1 fi export TARGET_PRODUCT=$(get_build_var TARGET_PRODUCT) export TARGET_BUILD_VARIANT=$(get_build_var TARGET_BUILD_VARIANT) if [ -n "$version" ]; then export TARGET_PLATFORM_VERSION=$(get_build_var TARGET_PLATFORM_VERSION) else unset TARGET_PLATFORM_VERSION fi export TARGET_BUILD_TYPE=release echo set_stuff_for_environment printconfig destroy_build_var_cache } unset COMMON_LUNCH_CHOICES_CACHE # Tab completion for lunch. function _lunch() { local cur prev opts COMPREPLY=() cur="${COMP_WORDS[COMP_CWORD]}" prev="${COMP_WORDS[COMP_CWORD-1]}" if [ -z "$COMMON_LUNCH_CHOICES_CACHE" ]; then COMMON_LUNCH_CHOICES_CACHE=$(TARGET_BUILD_APPS= get_build_var COMMON_LUNCH_CHOICES) fi COMPREPLY=( $(compgen -W "${COMMON_LUNCH_CHOICES_CACHE}" -- ${cur}) ) return 0 } # Configures the build to build unbundled apps. # Run tapas with one or more app names (from LOCAL_PACKAGE_NAME) function tapas() { local showHelp="$(echo $* | xargs -n 1 echo | \grep -E '^(help)$' | xargs)" local arch="$(echo $* | xargs -n 1 echo | \grep -E '^(arm|x86|mips|arm64|x86_64|mips64)$' | 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 $* | xargs -n 1 echo | \grep -E -v '^(user|userdebug|eng|arm|x86|mips|arm64|x86_64|mips64|ldpi|mdpi|tvdpi|hdpi|xhdpi|xxhdpi|xxxhdpi|alldpi)$' | xargs)" if [ "$showHelp" != "" ]; then $(gettop)/build/make/tapasHelp.sh return fi 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=aosp_arm case $arch in x86) product=aosp_x86;; mips) product=aosp_mips;; arm64) product=aosp_arm64;; x86_64) product=aosp_x86_64;; mips64) product=aosp_mips64;; esac if [ -z "$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 build_build_var_cache set_stuff_for_environment printconfig destroy_build_var_cache } function gettop { local TOPFILE=build/make/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 local T= while [ \( ! \( -f $TOPFILE \) \) -a \( $PWD != "/" \) ]; do \cd .. T=`PWD= /bin/pwd -P` done \cd $HERE if [ -f "$T/$TOPFILE" ]; then echo $T fi fi fi } function croot() { local T=$(gettop) if [ "$T" ]; then if [ "$1" ]; then \cd $(gettop)/$1 else \cd $(gettop) fi else echo "Couldn't locate the top of the tree. Try setting TOP." fi } function _croot() { local T=$(gettop) if [ "$T" ]; then local cur="${COMP_WORDS[COMP_CWORD]}" k=0 for c in $(compgen -d ${T}/${cur}); do COMPREPLY[k++]=${c#${T}/}/ done fi } function cproj() { local TOPFILE=build/make/core/envsetup.mk local HERE=$PWD local 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 # function qpid() { local prepend='' local append='' if [ "$1" = "--exact" ]; then prepend=' ' append='$' shift elif [ "$1" = "--help" -o "$1" = "-h" ]; then echo "usage: qpid [[--exact] " 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 } # 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 partition 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 /system/bin/ulimit -p $PID -c unlimited } # 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 $COREPATH on device."; } # systemstack - dump the current stack trace of all threads in the system process # to the usual ANR traces file function systemstack() { stacks system_server } # Read the ELF header from /proc/$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 -p)" -eq "02" ]] ; then echo "64" else echo "" fi else echo "" 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|hpp|S|java|xml|sh|mk|aidl|vts)' \ -exec grep --color -n "$@" {} + } ;; *) function sgrep() { find . -name .repo -prune -o -name .git -prune -o -type f -iregex '.*\.\(c\|h\|cc\|cpp\|hpp\|S\|java\|xml\|sh\|mk\|aidl\|vts\)' \ -exec grep --color -n "$@" {} + } ;; esac function gettargetarch { get_build_var TARGET_ARCH } function ggrep() { find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f -name "*\.gradle" \ -exec grep --color -n "$@" {} + } function gogrep() { find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f -name "*\.go" \ -exec grep --color -n "$@" {} + } function jgrep() { find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f -name "*\.java" \ -exec grep --color -n "$@" {} + } function cgrep() { find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f \( -name '*.c' -o -name '*.cc' -o -name '*.cpp' -o -name '*.h' -o -name '*.hpp' \) \ -exec grep --color -n "$@" {} + } function resgrep() { local dir for dir in `find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -name res -type d`; do find $dir -type f -name '*\.xml' -exec grep --color -n "$@" {} + done } function mangrep() { find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -type f -name 'AndroidManifest.xml' \ -exec grep --color -n "$@" {} + } function owngrep() { find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -type f -name 'OWNERS' \ -exec grep --color -n "$@" {} + } function sepgrep() { find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o -name sepolicy -type d \ -exec grep --color -n -r --exclude-dir=\.git "$@" {} + } function rcgrep() { find . -name .repo -prune -o -name .git -prune -o -name out -prune -o -type f -name "*\.rc*" \ -exec grep --color -n "$@" {} + } case `uname -s` in Darwin) function mgrep() { find -E . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o \( -iregex '.*/(Makefile|Makefile\..*|.*\.make|.*\.mak|.*\.mk|.*\.bp)' -o -regex '(.*/)?(build|soong)/.*[^/]*\.go' \) -type f \ -exec grep --color -n "$@" {} + } function treegrep() { find -E . -name .repo -prune -o -name .git -prune -o -type f -iregex '.*\.(c|h|cpp|hpp|S|java|xml)' \ -exec grep --color -n -i "$@" {} + } ;; *) function mgrep() { find . -name .repo -prune -o -name .git -prune -o -path ./out -prune -o \( -regextype posix-egrep -iregex '(.*\/Makefile|.*\/Makefile\..*|.*\.make|.*\.mak|.*\.mk|.*\.bp)' -o -regextype posix-extended -regex '(.*/)?(build|soong)/.*[^/]*\.go' \) -type f \ -exec grep --color -n "$@" {} + } function treegrep() { find . -name .repo -prune -o -name .git -prune -o -regextype posix-egrep -iregex '.*\.(c|h|cpp|hpp|S|java|xml)' -type f \ -exec grep --color -n -i "$@" {} + } ;; esac function getprebuilt { get_abs_build_var ANDROID_PREBUILTS } function tracedmdump() { local 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 local 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() { local 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 " return fi local T=$(gettop) local FILELIST if [ ! "$OUT_DIR" = "" ]; then mkdir -p $OUT_DIR FILELIST=$OUT_DIR/filelist else FILELIST=$T/filelist fi if [[ ! -f $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" $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)):1} done else pathname=${lines[@]:0:1} fi \cd $T/$pathname } # Update module-info.json in out. function refreshmod() { if [ ! "$ANDROID_PRODUCT_OUT" ]; then echo "No ANDROID_PRODUCT_OUT. Try running 'lunch' first." >&2 return 1 fi echo "Refreshing modules (building module-info.json). Log at $ANDROID_PRODUCT_OUT/module-info.json.build.log." >&2 # for the output of the next command mkdir -p $ANDROID_PRODUCT_OUT || return 1 # Note, can't use absolute path because of the way make works. m out/target/product/$(get_build_var TARGET_DEVICE)/module-info.json \ > $ANDROID_PRODUCT_OUT/module-info.json.build.log 2>&1 } # List all modules for the current device, as cached in module-info.json. If any build change is # made and it should be reflected in the output, you should run 'refreshmod' first. function allmod() { if [ ! "$ANDROID_PRODUCT_OUT" ]; then echo "No ANDROID_PRODUCT_OUT. Try running 'lunch' first." >&2 return 1 fi if [ ! -f "$ANDROID_PRODUCT_OUT/module-info.json" ]; then echo "Could not find module-info.json. It will only be built once, and it can be updated with 'refreshmod'" >&2 refreshmod || return 1 fi python -c "import json; print('\n'.join(sorted(json.load(open('$ANDROID_PRODUCT_OUT/module-info.json')).keys())))" } # Get the path of a specific module in the android tree, as cached in module-info.json. If any build change # is made, and it should be reflected in the output, you should run 'refreshmod' first. function pathmod() { if [ ! "$ANDROID_PRODUCT_OUT" ]; then echo "No ANDROID_PRODUCT_OUT. Try running 'lunch' first." >&2 return 1 fi if [[ $# -ne 1 ]]; then echo "usage: pathmod " >&2 return 1 fi if [ ! -f "$ANDROID_PRODUCT_OUT/module-info.json" ]; then echo "Could not find module-info.json. It will only be built once, and it can be updated with 'refreshmod'" >&2 refreshmod || return 1 fi local relpath=$(python -c "import json, os module = '$1' module_info = json.load(open('$ANDROID_PRODUCT_OUT/module-info.json')) if module not in module_info: exit(1) print(module_info[module]['path'][0])" 2>/dev/null) if [ -z "$relpath" ]; then echo "Could not find module '$1' (try 'refreshmod' if there have been build changes?)." >&2 return 1 else echo "$ANDROID_BUILD_TOP/$relpath" fi } # Go to a specific module in the android tree, as cached in module-info.json. If any build change # is made, and it should be reflected in the output, you should run 'refreshmod' first. function gomod() { if [[ $# -ne 1 ]]; then echo "usage: gomod " >&2 return 1 fi local path="$(pathmod $@)" if [ -z "$path" ]; then return 1 fi cd $path } function _complete_android_module_names() { local word=${COMP_WORDS[COMP_CWORD]} COMPREPLY=( $(allmod | grep -E "^$word") ) } # Print colored exit condition function pez { "$@" local retval=$? if [ $retval -ne 0 ] then echo $'\E'"[0;31mFAILURE\e[00m" else echo $'\E'"[0;32mSUCCESS\e[00m" fi return $retval } function get_make_command() { # If we're in the top of an Android tree, use soong_ui.bash instead of make if [ -f build/soong/soong_ui.bash ]; then # Always use the real make if -C is passed in for arg in "$@"; do if [[ $arg == -C* ]]; then echo command make return fi done echo build/soong/soong_ui.bash --make-mode else echo command make fi } function _wrap_build() { if [[ "${ANDROID_QUIET_BUILD:-}" == true ]]; then "$@" return $? fi local start_time=$(date +"%s") "$@" 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)) local ncolors=$(tput colors 2>/dev/null) if [ -n "$ncolors" ] && [ $ncolors -ge 8 ]; then color_failed=$'\E'"[0;31m" color_success=$'\E'"[0;32m" color_reset=$'\E'"[00m" else color_failed="" color_success="" color_reset="" fi echo if [ $ret -eq 0 ] ; then echo -n "${color_success}#### build completed successfully " else echo -n "${color_failed}#### 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 " ####${color_reset}" echo return $ret } function _trigger_build() ( local -r bc="$1"; shift if T="$(gettop)"; then _wrap_build "$T/build/soong/soong_ui.bash" --build-mode --${bc} --dir="$(pwd)" "$@" else echo "Couldn't locate the top of the tree. Try setting TOP." fi ) function m() ( _trigger_build "all-modules" "$@" ) function mm() ( _trigger_build "modules-in-a-dir-no-deps" "$@" ) function mmm() ( _trigger_build "modules-in-dirs-no-deps" "$@" ) function mma() ( _trigger_build "modules-in-a-dir" "$@" ) function mmma() ( _trigger_build "modules-in-dirs" "$@" ) function make() { _wrap_build $(get_make_command "$@") "$@" } function provision() { if [ ! "$ANDROID_PRODUCT_OUT" ]; then echo "Couldn't locate output files. Try running 'lunch' first." >&2 return 1 fi if [ ! -e "$ANDROID_PRODUCT_OUT/provision-device" ]; then echo "There is no provisioning script for the device." >&2 return 1 fi # Check if user really wants to do this. if [ "$1" = "--no-confirmation" ]; then shift 1 else echo "This action will reflash your device." echo "" echo "ALL DATA ON THE DEVICE WILL BE IRREVOCABLY ERASED." echo "" echo -n "Are you sure you want to do this (yes/no)? " read if [[ "${REPLY}" != "yes" ]] ; then echo "Not taking any action. Exiting." >&2 return 1 fi fi "$ANDROID_PRODUCT_OUT/provision-device" "$@" } # Zsh needs bashcompinit called to support bash-style completion. function enable_zsh_completion() { # Don't override user's options if bash-style completion is already enabled. if ! declare -f complete >/dev/null; then autoload -U compinit && compinit autoload -U bashcompinit && bashcompinit fi } function validate_current_shell() { local current_sh="$(ps -o command -p $$)" case "$current_sh" in *bash*) function check_type() { type -t "$1"; } ;; *zsh*) function check_type() { type "$1"; } enable_zsh_completion ;; *) echo -e "WARNING: Only bash and zsh are supported.\nUse of other shell would lead to erroneous results." ;; esac } # Execute the contents of any vendorsetup.sh files we can find. # Unless we find an allowed-vendorsetup_sh-files file, in which case we'll only # load those. # # This allows loading only approved vendorsetup.sh files function source_vendorsetup() { unset VENDOR_PYTHONPATH allowed= for f in $(find -L device vendor product -maxdepth 4 -name 'allowed-vendorsetup_sh-files' 2>/dev/null | sort); do if [ -n "$allowed" ]; then echo "More than one 'allowed_vendorsetup_sh-files' file found, not including any vendorsetup.sh files:" echo " $allowed" echo " $f" return fi allowed="$f" done allowed_files= [ -n "$allowed" ] && allowed_files=$(cat "$allowed") for dir in device vendor product; do for f in $(test -d $dir && \ find -L $dir -maxdepth 4 -name 'vendorsetup.sh' 2>/dev/null | sort); do if [[ -z "$allowed" || "$allowed_files" =~ $f ]]; then echo "including $f"; . "$f" else echo "ignoring $f, not in $allowed" fi done done } validate_current_shell source_vendorsetup addcompletions