blob: 78a2f7602db2cb25c49ee6ef5a1c94dc014684e2 [file] [log] [blame]
# IceCream distributed compiling support
#
# Stages directories with symlinks from gcc/g++ to icecc, for both
# native and cross compilers. Depending on each configure or compile,
# the directories are added at the head of the PATH list and ICECC_CXX
# and ICEC_CC are set.
#
# For the cross compiler, creates a tar.gz of our toolchain and sets
# ICECC_VERSION accordingly.
#
# The class now handles all 3 different compile 'stages' (i.e native ,cross-kernel and target) creating the
# necessary environment tar.gz file to be used by the remote machines.
# It also supports meta-toolchain generation
#
# If ICECC_PATH is not set in local.conf then the class will try to locate it using 'bb.utils.which'
# but nothing is sure ;)
#
# If ICECC_ENV_EXEC is set in local.conf, then it should point to the icecc-create-env script provided by the user
# or the default one provided by icecc-create-env.bb will be used
# (NOTE that this is a modified version of the script need it and *not the one that comes with icecc*
#
# User can specify if specific packages or packages belonging to class should not use icecc to distribute
# compile jobs to remote machines, but handled locally, by defining ICECC_USER_CLASS_BL and ICECC_USER_PACKAGE_BL
# with the appropriate values in local.conf. In addition the user can force to enable icecc for packages
# which set an empty PARALLEL_MAKE variable by defining ICECC_USER_PACKAGE_WL.
#
#########################################################################################
#Error checking is kept to minimum so double check any parameters you pass to the class
###########################################################################################
BB_HASHBASE_WHITELIST += "ICECC_PARALLEL_MAKE ICECC_DISABLED ICECC_USER_PACKAGE_BL \
ICECC_USER_CLASS_BL ICECC_USER_PACKAGE_WL ICECC_PATH ICECC_ENV_EXEC \
ICECC_CARET_WORKAROUND ICECC_CFLAGS ICECC_ENV_VERSION \
ICECC_DEBUG ICECC_LOGFILE ICECC_REPEAT_RATE ICECC_PREFERRED_HOST \
ICECC_CLANG_REMOTE_CPP ICECC_IGNORE_UNVERIFIED ICECC_TEST_SOCKET \
ICECC_ENV_DEBUG ICECC_SYSTEM_PACKAGE_BL ICECC_SYSTEM_CLASS_BL \
ICECC_REMOTE_CPP \
"
ICECC_ENV_EXEC ?= "${STAGING_BINDIR_NATIVE}/icecc-create-env"
HOSTTOOLS_NONFATAL += "icecc patchelf"
# This version can be incremented when changes are made to the environment that
# invalidate the version on the compile nodes. Changing it will cause a new
# environment to be created.
#
# A useful thing to do for testing Icecream changes locally is to add a
# subversion in local.conf:
# ICECC_ENV_VERSION_append = "-my-ver-1"
ICECC_ENV_VERSION = "2"
# Default to disabling the caret workaround, If set to "1" in local.conf, icecc
# will locally recompile any files that have warnings, which can adversely
# affect performance.
#
# See: https://github.com/icecc/icecream/issues/190
export ICECC_CARET_WORKAROUND ??= "0"
export ICECC_REMOTE_CPP ??= "0"
ICECC_CFLAGS = ""
CFLAGS += "${ICECC_CFLAGS}"
CXXFLAGS += "${ICECC_CFLAGS}"
# Debug flags when generating environments
ICECC_ENV_DEBUG ??= ""
# "system" recipe blacklist contains a list of packages that can not distribute
# compile tasks for one reason or the other. When adding new entry, please
# document why (how it failed) so that we can re-evaluate it later e.g. when
# there is new version
#
# libgcc-initial - fails with CPP sanity check error if host sysroot contains
# cross gcc built for another target tune/variant
# target-sdk-provides-dummy - ${HOST_PREFIX} is empty which triggers the "NULL
# prefix" error.
ICECC_SYSTEM_PACKAGE_BL += "\
libgcc-initial \
target-sdk-provides-dummy \
"
# "system" classes that should be blacklisted. When adding new entry, please
# document why (how it failed) so that we can re-evaluate it later
#
# image - Image aren't compiling, but the testing framework for images captures
# PARALLEL_MAKE as part of the test environment. Many tests won't use
# icecream, but leaving the high level of parallelism can cause them to
# consume an unnecessary amount of resources.
ICECC_SYSTEM_CLASS_BL += "\
image \
"
def icecc_dep_prepend(d):
# INHIBIT_DEFAULT_DEPS doesn't apply to the patch command. Whether or not
# we need that built is the responsibility of the patch function / class, not
# the application.
if not d.getVar('INHIBIT_DEFAULT_DEPS'):
return "icecc-create-env-native"
return ""
DEPENDS_prepend += "${@icecc_dep_prepend(d)} "
get_cross_kernel_cc[vardepsexclude] += "KERNEL_CC"
def get_cross_kernel_cc(bb,d):
if not icecc_is_kernel(bb, d):
return None
# evaluate the expression by the shell if necessary
kernel_cc = d.getVar('KERNEL_CC')
if '`' in kernel_cc or '$(' in kernel_cc:
import subprocess
kernel_cc = subprocess.check_output("echo %s" % kernel_cc, shell=True).decode("utf-8")[:-1]
kernel_cc = kernel_cc.replace('ccache', '').strip()
kernel_cc = kernel_cc.split(' ')[0]
kernel_cc = kernel_cc.strip()
return kernel_cc
def get_icecc(d):
return d.getVar('ICECC_PATH') or bb.utils.which(os.getenv("PATH"), "icecc")
def use_icecc(bb,d):
if d.getVar('ICECC_DISABLED') == "1":
# don't even try it, when explicitly disabled
return "no"
# allarch recipes don't use compiler
if icecc_is_allarch(bb, d):
return "no"
if icecc_is_cross_canadian(bb, d):
return "no"
pn = d.getVar('PN')
bpn = d.getVar('BPN')
# Blacklist/whitelist checks are made against BPN, because there is a good
# chance that if icecc should be skipped for a recipe, it should be skipped
# for all the variants of that recipe. PN is still checked in case a user
# specified a more specific recipe.
check_pn = set([pn, bpn])
system_class_blacklist = (d.getVar('ICECC_SYSTEM_CLASS_BL') or "").split()
user_class_blacklist = (d.getVar('ICECC_USER_CLASS_BL') or "none").split()
package_class_blacklist = system_class_blacklist + user_class_blacklist
for black in package_class_blacklist:
if bb.data.inherits_class(black, d):
bb.debug(1, "%s: class %s found in blacklist, disable icecc" % (pn, black))
return "no"
system_package_blacklist = (d.getVar('ICECC_SYSTEM_PACKAGE_BL') or "").split()
user_package_blacklist = (d.getVar('ICECC_USER_PACKAGE_BL') or "").split()
user_package_whitelist = (d.getVar('ICECC_USER_PACKAGE_WL') or "").split()
package_blacklist = system_package_blacklist + user_package_blacklist
if check_pn & set(package_blacklist):
bb.debug(1, "%s: found in blacklist, disable icecc" % pn)
return "no"
if check_pn & set(user_package_whitelist):
bb.debug(1, "%s: found in whitelist, enable icecc" % pn)
return "yes"
if d.getVar('PARALLEL_MAKE') == "":
bb.debug(1, "%s: has empty PARALLEL_MAKE, disable icecc" % pn)
return "no"
return "yes"
def icecc_is_allarch(bb, d):
return d.getVar("PACKAGE_ARCH") == "all"
def icecc_is_kernel(bb, d):
return \
bb.data.inherits_class("kernel", d);
def icecc_is_native(bb, d):
return \
bb.data.inherits_class("cross", d) or \
bb.data.inherits_class("native", d);
def icecc_is_cross_canadian(bb, d):
return bb.data.inherits_class("cross-canadian", d)
def icecc_dir(bb, d):
return d.expand('${TMPDIR}/work-shared/ice')
# Don't pollute allarch signatures with TARGET_FPU
icecc_version[vardepsexclude] += "TARGET_FPU"
def icecc_version(bb, d):
if use_icecc(bb, d) == "no":
return ""
parallel = d.getVar('ICECC_PARALLEL_MAKE') or ""
if not d.getVar('PARALLEL_MAKE') == "" and parallel:
d.setVar("PARALLEL_MAKE", parallel)
# Disable showing the caret in the GCC compiler output if the workaround is
# disabled
if d.getVar('ICECC_CARET_WORKAROUND') == '0':
d.setVar('ICECC_CFLAGS', '-fno-diagnostics-show-caret')
if icecc_is_native(bb, d):
archive_name = "local-host-env"
elif d.expand('${HOST_PREFIX}') == "":
bb.fatal(d.expand("${PN}"), " NULL prefix")
else:
prefix = d.expand('${HOST_PREFIX}' )
distro = d.expand('${DISTRO}')
target_sys = d.expand('${TARGET_SYS}')
float = d.getVar('TARGET_FPU') or "hard"
archive_name = prefix + distro + "-" + target_sys + "-" + float
if icecc_is_kernel(bb, d):
archive_name += "-kernel"
import socket
ice_dir = icecc_dir(bb, d)
tar_file = os.path.join(ice_dir, "{archive}-{version}-@VERSION@-{hostname}.tar.gz".format(
archive=archive_name,
version=d.getVar('ICECC_ENV_VERSION'),
hostname=socket.gethostname()
))
return tar_file
def icecc_path(bb,d):
if use_icecc(bb, d) == "no":
# don't create unnecessary directories when icecc is disabled
return
staging = os.path.join(d.expand('${STAGING_BINDIR}'), "ice")
if icecc_is_kernel(bb, d):
staging += "-kernel"
return staging
def icecc_get_external_tool(bb, d, tool):
external_toolchain_bindir = d.expand('${EXTERNAL_TOOLCHAIN}${bindir_cross}')
target_prefix = d.expand('${TARGET_PREFIX}')
return os.path.join(external_toolchain_bindir, '%s%s' % (target_prefix, tool))
def icecc_get_tool_link(tool, d):
import subprocess
try:
return subprocess.check_output("readlink -f %s" % tool, shell=True).decode("utf-8")[:-1]
except subprocess.CalledProcessError as e:
bb.note("icecc: one of the tools probably disappeared during recipe parsing, cmd readlink -f %s returned %d:\n%s" % (tool, e.returncode, e.output.decode("utf-8")))
return tool
def icecc_get_path_tool(tool, d):
# This is a little ugly, but we want to make sure we add an actual
# compiler to the toolchain, not ccache. Some distros (e.g. Fedora)
# have ccache enabled by default using symlinks PATH, meaning ccache
# would be found first when looking for the compiler.
paths = os.getenv("PATH").split(':')
while True:
p, hist = bb.utils.which(':'.join(paths), tool, history=True)
if not p or os.path.basename(icecc_get_tool_link(p, d)) != 'ccache':
return p
paths = paths[len(hist):]
return ""
# Don't pollute native signatures with target TUNE_PKGARCH through STAGING_BINDIR_TOOLCHAIN
icecc_get_tool[vardepsexclude] += "STAGING_BINDIR_TOOLCHAIN"
def icecc_get_tool(bb, d, tool):
if icecc_is_native(bb, d):
return icecc_get_path_tool(tool, d)
elif icecc_is_kernel(bb, d):
return icecc_get_path_tool(get_cross_kernel_cc(bb, d), d)
else:
ice_dir = d.expand('${STAGING_BINDIR_TOOLCHAIN}')
target_sys = d.expand('${TARGET_SYS}')
for p in ice_dir.split(':'):
tool_bin = os.path.join(p, "%s-%s" % (target_sys, tool))
if os.path.isfile(tool_bin):
return tool_bin
external_tool_bin = icecc_get_external_tool(bb, d, tool)
if os.path.isfile(external_tool_bin):
return external_tool_bin
return ""
def icecc_get_and_check_tool(bb, d, tool):
# Check that g++ or gcc is not a symbolic link to icecc binary in
# PATH or icecc-create-env script will silently create an invalid
# compiler environment package.
t = icecc_get_tool(bb, d, tool)
if t:
link_path = icecc_get_tool_link(t, d)
if link_path == get_icecc(d):
bb.error("%s is a symlink to %s in PATH and this prevents icecc from working" % (t, link_path))
return ""
else:
return t
else:
return t
wait_for_file() {
local TIME_ELAPSED=0
local FILE_TO_TEST=$1
local TIMEOUT=$2
until [ -f "$FILE_TO_TEST" ]
do
TIME_ELAPSED=`expr $TIME_ELAPSED + 1`
if [ $TIME_ELAPSED -gt $TIMEOUT ]
then
return 1
fi
sleep 1
done
}
def set_icecc_env():
# dummy python version of set_icecc_env
return
set_icecc_env[vardepsexclude] += "KERNEL_CC"
set_icecc_env() {
if [ "${@use_icecc(bb, d)}" = "no" ]
then
return
fi
ICECC_VERSION="${@icecc_version(bb, d)}"
if [ "x${ICECC_VERSION}" = "x" ]
then
bbwarn "Cannot use icecc: could not get ICECC_VERSION"
return
fi
ICE_PATH="${@icecc_path(bb, d)}"
if [ "x${ICE_PATH}" = "x" ]
then
bbwarn "Cannot use icecc: could not get ICE_PATH"
return
fi
ICECC_BIN="${@get_icecc(d)}"
if [ -z "${ICECC_BIN}" ]; then
bbwarn "Cannot use icecc: icecc binary not found"
return
fi
if [ -z "$(which patchelf patchelf-uninative)" ]; then
bbwarn "Cannot use icecc: patchelf not found"
return
fi
# Create symlinks to icecc in the recipe-sysroot directory
mkdir -p ${ICE_PATH}
if [ -n "${KERNEL_CC}" ]; then
compilers="${@get_cross_kernel_cc(bb,d)}"
else
compilers="${HOST_PREFIX}gcc ${HOST_PREFIX}g++"
fi
for compiler in $compilers; do
ln -sf ${ICECC_BIN} ${ICE_PATH}/$compiler
done
ICECC_CC="${@icecc_get_and_check_tool(bb, d, "gcc")}"
ICECC_CXX="${@icecc_get_and_check_tool(bb, d, "g++")}"
# cannot use icecc_get_and_check_tool here because it assumes as without target_sys prefix
ICECC_WHICH_AS="${@bb.utils.which(os.getenv('PATH'), 'as')}"
if [ ! -x "${ICECC_CC}" -o ! -x "${ICECC_CXX}" ]
then
bbwarn "Cannot use icecc: could not get ICECC_CC or ICECC_CXX"
return
fi
ICE_VERSION=`$ICECC_CC -dumpversion`
ICECC_VERSION=`echo ${ICECC_VERSION} | sed -e "s/@VERSION@/$ICE_VERSION/g"`
if [ ! -x "${ICECC_ENV_EXEC}" ]
then
bbwarn "Cannot use icecc: invalid ICECC_ENV_EXEC"
return
fi
ICECC_AS="`${ICECC_CC} -print-prog-name=as`"
# for target recipes should return something like:
# /OE/tmp-eglibc/sysroots/x86_64-linux/usr/libexec/arm920tt-oe-linux-gnueabi/gcc/arm-oe-linux-gnueabi/4.8.2/as
# and just "as" for native, if it returns "as" in current directory (for whatever reason) use "as" from PATH
if [ "`dirname "${ICECC_AS}"`" = "." ]
then
ICECC_AS="${ICECC_WHICH_AS}"
fi
if [ ! -f "${ICECC_VERSION}.done" ]
then
mkdir -p "`dirname "${ICECC_VERSION}"`"
# the ICECC_VERSION generation step must be locked by a mutex
# in order to prevent race conditions
if flock -n "${ICECC_VERSION}.lock" \
${ICECC_ENV_EXEC} ${ICECC_ENV_DEBUG} "${ICECC_CC}" "${ICECC_CXX}" "${ICECC_AS}" "${ICECC_VERSION}"
then
touch "${ICECC_VERSION}.done"
elif ! wait_for_file "${ICECC_VERSION}.done" 30
then
# locking failed so wait for ${ICECC_VERSION}.done to appear
bbwarn "Timeout waiting for ${ICECC_VERSION}.done"
return
fi
fi
# Don't let ccache find the icecream compiler links that have been created, otherwise
# it can end up invoking icecream recursively.
export CCACHE_PATH="$PATH"
export CCACHE_DISABLE="1"
export ICECC_VERSION ICECC_CC ICECC_CXX
export PATH="$ICE_PATH:$PATH"
bbnote "Using icecc path: $ICE_PATH"
bbnote "Using icecc tarball: $ICECC_VERSION"
}
do_configure_prepend() {
set_icecc_env
}
do_compile_prepend() {
set_icecc_env
}
do_compile_kernelmodules_prepend() {
set_icecc_env
}
do_install_prepend() {
set_icecc_env
}
# IceCream is not (currently) supported in the extensible SDK
ICECC_SDK_HOST_TASK = "nativesdk-icecc-toolchain"
ICECC_SDK_HOST_TASK_task-populate-sdk-ext = ""
# Don't include IceCream in uninative tarball
ICECC_SDK_HOST_TASK_pn-uninative-tarball = ""
# Add the toolchain scripts to the SDK
TOOLCHAIN_HOST_TASK_append = " ${ICECC_SDK_HOST_TASK}"