crosstool-ng/scripts/functions
Yann E. MORIN" a586208ab4 In case of error, the error message would be printing in subshells, thus printing as many error message as there were subshells.
Limit printing this message only in the top-level shell.

 /trunk/scripts/functions |    2     2     0     0 ++
 1 file changed, 2 insertions(+)
2008-07-26 09:22:42 +00:00

736 lines
27 KiB
Plaintext

# This file contains some usefull common functions
# Copyright 2007 Yann E. MORIN
# Licensed under the GPL v2. See COPYING in the root of this package
# Prepare the fault handler
CT_OnError() {
ret=$?
# Bail out early in subshell, the upper level shell will act accordingly.
[ ${BASH_SUBSHELL} -eq 0 ] || exit $ret
CT_DoLog ERROR "Build failed in step '${CT_STEP_MESSAGE[${CT_STEP_COUNT}]}'"
for((step=(CT_STEP_COUNT-1); step>1; step--)); do
CT_DoLog ERROR " called in step '${CT_STEP_MESSAGE[${step}]}'"
done
CT_DoLog ERROR "Error happened in '${BASH_SOURCE[1]}' in function '${FUNCNAME[1]}' (line unknown, sorry)"
for((depth=2; ${BASH_LINENO[$((${depth}-1))]}>0; depth++)); do
CT_DoLog ERROR " called from '${BASH_SOURCE[${depth}]}' at line # ${BASH_LINENO[${depth}-1]} in function '${FUNCNAME[${depth}]}'"
done
[ "${CT_LOG_TO_FILE}" = "y" ] && CT_DoLog ERROR "Look at '${CT_LOG_FILE}' for more info on this error."
CT_STEP_COUNT=1
CT_DoEnd ERROR
exit $ret
}
# Install the fault handler
trap CT_OnError ERR
# Inherit the fault handler in subshells and functions
set -E
# Make pipes fail on the _first_ failed command
# Not supported on bash < 3.x, but we need it, so drop the obsoleting bash-2.x
set -o pipefail
# Don't hash commands' locations, and search every time it is requested.
# This is slow, but needed because of the static/shared core gcc which shall
# always match to shared if it exists, and only fallback to static if the
# shared is not found
set +o hashall
# Log policy:
# - first of all, save stdout so we can see the live logs: fd #6
exec 6>&1
# - then point stdout to the log file (temporary for now)
tmp_log_file="${CT_TOP_DIR}/log.$$"
exec >>"${tmp_log_file}"
# The different log levels:
CT_LOG_LEVEL_ERROR=0
CT_LOG_LEVEL_WARN=1
CT_LOG_LEVEL_INFO=2
CT_LOG_LEVEL_EXTRA=3
CT_LOG_LEVEL_DEBUG=4
CT_LOG_LEVEL_ALL=5
# A function to log what is happening
# Different log level are available:
# - ERROR: A serious, fatal error occurred
# - WARN: A non fatal, non serious error occurred, take your responsbility with the generated build
# - INFO: Informational messages
# - EXTRA: Extra informational messages
# - DEBUG: Debug messages
# - ALL: Component's build messages
# Usage: CT_DoLog <level> [message]
# If message is empty, then stdin will be logged.
CT_DoLog() {
local max_level LEVEL level cur_l cur_L
local l
eval max_level="\${CT_LOG_LEVEL_${CT_LOG_LEVEL_MAX}}"
# Set the maximum log level to DEBUG if we have none
[ -z "${max_level}" ] && max_level=${CT_LOG_LEVEL_DEBUG}
LEVEL="$1"; shift
eval level="\${CT_LOG_LEVEL_${LEVEL}}"
if [ $# -eq 0 ]; then
cat -
else
echo "${@}"
fi |( IFS="\n" # We want the full lines, even leading spaces
_prog_bar_cpt=0
_prog_bar[0]='/'
_prog_bar[1]='-'
_prog_bar[2]='\'
_prog_bar[3]='|'
indent=$((2*CT_STEP_COUNT))
while read line; do
case "${CT_LOG_SEE_TOOLS_WARN},${line}" in
y,*"warning:"*) cur_L=WARN; cur_l=${CT_LOG_LEVEL_WARN};;
y,*"WARNING:"*) cur_L=WARN; cur_l=${CT_LOG_LEVEL_WARN};;
*"error:"*) cur_L=ERROR; cur_l=${CT_LOG_LEVEL_ERROR};;
*"make["?*"]:"*"Stop.") cur_L=ERROR; cur_l=${CT_LOG_LEVEL_ERROR};;
*) cur_L="${LEVEL}"; cur_l="${level}";;
esac
# There will always be a log file (stdout, fd #1), be it /dev/null
printf "[%-5s]%*s%s%s\n" "${cur_L}" "${indent}" " " "${line}"
if [ ${cur_l} -le ${max_level} ]; then
# Only print to console (fd #6) if log level is high enough.
printf "\r[%-5s]%*s%s%s\n" "${cur_L}" "${indent}" " " "${line}" >&6
fi
if [ "${CT_LOG_PROGRESS_BAR}" = "y" ]; then
printf "\r[%02d:%02d] %s " $((SECONDS/60)) $((SECONDS%60)) "${_prog_bar[$((_prog_bar_cpt/10))]}" >&6
_prog_bar_cpt=$(((_prog_bar_cpt+1)%40))
fi
done
)
return 0
}
# Execute an action, and log its messages
# Usage: CT_DoExecLog <level> <[VAR=val...] command [parameters...]>
CT_DoExecLog() {
local level="$1"
shift
CT_DoLog DEBUG "==> Executing: '${@}'"
"${@}" 2>&1 |CT_DoLog "${level}"
}
# Tail message to be logged whatever happens
# Usage: CT_DoEnd <level>
CT_DoEnd()
{
local level="$1"
CT_STOP_DATE=$(CT_DoDate +%s%N)
CT_STOP_DATE_HUMAN=$(CT_DoDate +%Y%m%d.%H%M%S)
if [ "${level}" != "ERROR" ]; then
CT_DoLog "${level:-INFO}" "Build completed at ${CT_STOP_DATE_HUMAN}"
fi
elapsed=$((CT_STOP_DATE-CT_STAR_DATE))
elapsed_min=$((elapsed/(60*1000*1000*1000)))
elapsed_sec=$(printf "%02d" $(((elapsed%(60*1000*1000*1000))/(1000*1000*1000))))
elapsed_csec=$(printf "%02d" $(((elapsed%(1000*1000*1000))/(10*1000*1000))))
CT_DoLog ${level:-INFO} "(elapsed: ${elapsed_min}:${elapsed_sec}.${elapsed_csec})"
}
# Abort the execution with an error message
# Usage: CT_Abort <message>
CT_Abort() {
CT_DoLog ERROR "$1"
exit 1
}
# Test a condition, and print a message if satisfied
# Usage: CT_Test <message> <tests>
CT_Test() {
local ret
local m="$1"
shift
test "$@" && CT_DoLog WARN "$m"
return 0
}
# Test a condition, and abort with an error message if satisfied
# Usage: CT_TestAndAbort <message> <tests>
CT_TestAndAbort() {
local m="$1"
shift
test "$@" && CT_Abort "$m"
return 0
}
# Test a condition, and abort with an error message if not satisfied
# Usage: CT_TestAndAbort <message> <tests>
CT_TestOrAbort() {
local m="$1"
shift
test "$@" || CT_Abort "$m"
return 0
}
# Test the presence of a tool, or abort if not found
# Usage: CT_HasOrAbort <tool>
CT_HasOrAbort() {
CT_TestAndAbort "'${1}' not found and needed for successful toolchain build." -z ""$(CT_Which "${1}")
return 0
}
# Search a program: wrap "which" for those system where
# "which" verbosely says there is no match (Mdk are such
# suckers...)
# Usage: CT_Which <filename>
CT_Which() {
which "$1" 2>/dev/null || true
}
# Get current date with nanosecond precision
# On those system not supporting nanosecond precision, faked with rounding down
# to the highest entire second
# Usage: CT_DoDate <fmt>
CT_DoDate() {
date "$1" |sed -r -e 's/%N$/000000000/;'
}
CT_STEP_COUNT=1
CT_STEP_MESSAGE[${CT_STEP_COUNT}]="<none>"
# Memorise a step being done so that any error is caught
# Usage: CT_DoStep <loglevel> <message>
CT_DoStep() {
local start=$(CT_DoDate +%s%N)
CT_DoLog "$1" "================================================================="
CT_DoLog "$1" "$2"
CT_STEP_COUNT=$((CT_STEP_COUNT+1))
CT_STEP_LEVEL[${CT_STEP_COUNT}]="$1"; shift
CT_STEP_START[${CT_STEP_COUNT}]="${start}"
CT_STEP_MESSAGE[${CT_STEP_COUNT}]="$1"
return 0
}
# End the step just being done
# Usage: CT_EndStep
CT_EndStep() {
local stop=$(CT_DoDate +%s%N)
local duration=$(printf "%032d" $((stop-${CT_STEP_START[${CT_STEP_COUNT}]})) |sed -r -e 's/([[:digit:]]{2})[[:digit:]]{7}$/\.\1/; s/^0+//; s/^\./0\./;')
local elapsed=$(printf "%02d:%02d" $((SECONDS/60)) $((SECONDS%60)))
local level="${CT_STEP_LEVEL[${CT_STEP_COUNT}]}"
local message="${CT_STEP_MESSAGE[${CT_STEP_COUNT}]}"
CT_STEP_COUNT=$((CT_STEP_COUNT-1))
CT_DoLog "${level}" "${message}: done in ${duration}s (at ${elapsed})"
return 0
}
# Pushes into a directory, and pops back
CT_Pushd() {
pushd "$1" >/dev/null 2>&1
}
CT_Popd() {
popd >/dev/null 2>&1
}
# Makes a path absolute
# Usage: CT_MakeAbsolutePath path
CT_MakeAbsolutePath() {
# Try to cd in that directory
if [ -d "$1" ]; then
CT_Pushd "$1"
pwd
CT_Popd
else
# No such directory, fail back to guessing
case "$1" in
/*) echo "$1";;
*) echo "$(pwd)/$1";;
esac
fi
return 0
}
# Creates a temporary directory
# $1: variable to assign to
# Usage: CT_MktempDir foo
CT_MktempDir() {
# Some mktemp do not allow more than 6 Xs
eval "$1"=$(mktemp -q -d "${CT_BUILD_DIR}/.XXXXXX")
CT_TestOrAbort "Could not make temporary directory" -n "${!1}" -a -d "${!1}"
}
# Echoes the specified string on stdout until the pipe breaks.
# Doesn't fail
# $1: string to echo
# Usage: CT_DoYes "" |make oldconfig
CT_DoYes() {
yes "$1" || true
}
# Get the file name extension of a component
# Usage: CT_GetFileExtension <component_name-component_version> [extension]
# If found, echoes the extension to stdout
# If not found, echoes nothing on stdout.
CT_GetFileExtension() {
local ext
local file="$1"
shift
local first_ext="$1"
CT_Pushd "${CT_TARBALLS_DIR}"
# we need to also check for an empty extension for those very
# peculiar components that don't have one (such as sstrip from
# buildroot).
for ext in ${first_ext} .tar.gz .tar.bz2 .tgz .tar ''; do
if [ -f "${file}${ext}" ]; then
echo "${ext}"
break
fi
done
CT_Popd
return 0
}
# Download an URL using wget
# Usage: CT_DoGetFileWget <URL>
CT_DoGetFileWget() {
# Need to return true because it is legitimate to not find the tarball at
# some of the provided URLs (think about snapshots, different layouts for
# different gcc versions, etc...)
# Some (very old!) FTP server might not support the passive mode, thus
# retry without
# With automated download as we are doing, it can be very dangerous to use
# -c to continue the downloads. It's far better to simply overwrite the
# destination file
# Some company networks have firewalls to connect to the internet, but it's
# not easy to detect them, and wget does not timeout by default while
# connecting, so force a global ${CT_CONNECT_TIMEOUT}-second timeout.
wget -T ${CT_CONNECT_TIMEOUT} -nc --progress=dot:binary --tries=3 --passive-ftp "$1" \
|| wget -T ${CT_CONNECT_TIMEOUT} -nc --progress=dot:binary --tries=3 "$1" \
|| true
}
# Download an URL using curl
# Usage: CT_DoGetFileCurl <URL>
CT_DoGetFileCurl() {
# Note: comments about wget method (above) are also valid here
# Plus: no good progress indicator is available with curl,
# so output is consigned to oblivion
curl --ftp-pasv -O --retry 3 "$1" --connect-timeout ${CT_CONNECT_TIMEOUT} >/dev/null \
|| curl -O --retry 3 "$1" --connect-timeout ${CT_CONNECT_TIMEOUT} >/dev/null \
|| true
}
_wget=$(CT_Which wget)
_curl=$(CT_Which curl)
# Wrapper function to call one of curl or wget
# Usage: CT_DoGetFile <URL>
CT_DoGetFile() {
case "${_wget},${_curl}" in
,) CT_DoError "Could find neither wget nor curl";;
,*) CT_DoGetFileCurl "$1" 2>&1 |CT_DoLog ALL;;
*) CT_DoGetFileWget "$1" 2>&1 |CT_DoLog ALL;;
esac
}
# Download the file from one of the URLs passed as argument
# Usage: CT_GetFile <filename> [extension] <url> [url ...]
CT_GetFile() {
local ext
local url
local file="$1"
local first_ext=""
shift
# If next argument starts with a dot, then this is not an URL,
# and we can consider that it is a preferred extension.
case "$1" in
.*) first_ext="$1"
shift
;;
esac
# Do we already have it?
ext=$(CT_GetFileExtension "${file}" ${first_ext})
if [ -n "${ext}" ]; then
CT_DoLog DEBUG "Already have '${file}'"
return 0
fi
CT_Pushd "${CT_TARBALLS_DIR}"
# We'd rather have a bzip2'ed tarball, then gzipped tarball, plain tarball,
# or, as a failover, a file without extension.
# Try local copy first, if it exists
for ext in ${first_ext} .tar.bz2 .tar.gz .tgz .tar ''; do
CT_DoLog DEBUG "Trying '${CT_LOCAL_TARBALLS_DIR}/${file}${ext}'"
if [ -r "${CT_LOCAL_TARBALLS_DIR}/${file}${ext}" -a \
"${CT_FORCE_DOWNLOAD}" != "y" ]; then
CT_DoLog EXTRA "Using '${file}' from local storage"
ln -sv "${CT_LOCAL_TARBALLS_DIR}/${file}${ext}" "${file}${ext}" |CT_DoLog ALL
return 0
fi
done
# Not found locally, try from the network
CT_DoLog EXTRA "Retrieving '${file}' from network"
# Start with LAN mirror
if [ "${CT_USE_LAN_MIRROR}" = "y" ]; then
LAN_URLs=
for pat in ${CT_LAN_MIRROR_PATTERNS}; do
# Please note: we just have the file's basename in a single piece.
# So we have to just try and split it back into name and version... :-(
pat="${pat//\%pkg/${file%-*}}"
pat="${pat//\%ver/${file##*-}}"
LAN_URLs="${LAN_URLs} ${CT_LAN_MIRROR_SCHEME}://${CT_LAN_MIRROR_HOSTNAME}/${pat}"
done
for ext in ${first_ext} .tar.bz2 .tar.gz .tgz .tar ''; do
for url in ${LAN_URLs}; do
CT_DoLog DEBUG "Trying '${url}/${file}${ext}'"
CT_DoGetFile "${url}/${file}${ext}"
if [ -f "${file}${ext}" ]; then
if [ "${CT_SAVE_TARBALLS}" = "y" ]; then
# No need to test if the file already exists because
# it does NOT. If it did exist, we'd have been stopped
# above, when looking for local copies.
CT_DoLog EXTRA "Saving '${file}' to local storage"
mv "${file}${ext}" "${CT_LOCAL_TARBALLS_DIR}" |CT_DoLog ALL
ln -sv "${CT_LOCAL_TARBALLS_DIR}/${file}${ext}" "${file}${ext}" |CT_DoLog ALL
fi
return 0
fi
done
done
fi
# OK, available neither localy, nor from the LAN mirror (if any).
for ext in ${first_ext} .tar.bz2 .tar.gz .tgz .tar ''; do
# Try all urls in turn
for url in "$@"; do
CT_DoLog DEBUG "Trying '${url}/${file}${ext}'"
CT_DoGetFile "${url}/${file}${ext}"
if [ -f "${file}${ext}" ]; then
if [ "${CT_SAVE_TARBALLS}" = "y" ]; then
# No need to test if the file already exists because
# it does NOT. If it did exist, we'd have been stopped
# above, when looking for local copies.
CT_DoLog EXTRA "Saving '${file}' to local storage"
mv "${file}${ext}" "${CT_LOCAL_TARBALLS_DIR}" |CT_DoLog ALL
ln -sv "${CT_LOCAL_TARBALLS_DIR}/${file}${ext}" "${file}${ext}" |CT_DoLog ALL
fi
return 0
fi
done
done
CT_Popd
CT_Abort "Could not download '${file}', and not present in '${CT_LOCAL_TARBALLS_DIR}'"
}
# Extract a tarball and patch the resulting sources if necessary.
# Some tarballs need to be extracted in specific places. Eg.: glibc addons
# must be extracted in the glibc directory; uCLibc locales must be extracted
# in the extra/locale sub-directory of uClibc.
CT_ExtractAndPatch() {
local file="$1"
local base_file=$(echo "${file}" |cut -d - -f 1)
local ver_file=$(echo "${file}" |cut -d - -f 2-)
local official_patch_dir
local custom_patch_dir
local libc_addon
local ext=$(CT_GetFileExtension "${file}")
CT_TestAndAbort "'${file}' not found in '${CT_TARBALLS_DIR}'" -z "${ext}"
local full_file="${CT_TARBALLS_DIR}/${file}${ext}"
CT_Pushd "${CT_SRC_DIR}"
# Add-ons need a little love, really.
case "${file}" in
glibc-[a-z]*-*)
CT_TestAndAbort "Trying to extract the C-library addon/locales '${file}' when C-library not yet extracted" ! -d "${CT_LIBC_FILE}"
cd "${CT_LIBC_FILE}"
libc_addon=y
[ -f ".${file}.extracted" ] && return 0
touch ".${file}.extracted"
;;
uClibc-locale-*)
CT_TestAndAbort "Trying to extract the C-library addon/locales '${file}' when C-library not yet extracted" ! -d "${CT_LIBC_FILE}"
cd "${CT_LIBC_FILE}/extra/locale"
libc_addon=y
[ -f ".${file}.extracted" ] && return 0
touch ".${file}.extracted"
;;
esac
# If the directory exists, then consider extraction and patching done
if [ -d "${file}" ]; then
CT_DoLog DEBUG "Already extracted '${file}'"
return 0
fi
CT_DoLog EXTRA "Extracting '${file}'"
case "${ext}" in
.tar.bz2) tar xvjf "${full_file}" |CT_DoLog ALL;;
.tar.gz|.tgz) tar xvzf "${full_file}" |CT_DoLog ALL;;
.tar) tar xvf "${full_file}" |CT_DoLog ALL;;
*) CT_Abort "Don't know how to handle '${file}': unknown extension" ;;
esac
# Snapshots might not have the version number in the extracted directory
# name. This is also the case for some (odd) packages, such as D.U.M.A.
# Overcome this issue by symlink'ing the directory.
if [ ! -d "${file}" -a "${libc_addon}" != "y" ]; then
case "${ext}" in
.tar.bz2) base=$(tar tjf "${full_file}" |head -n 1 |cut -d / -f 1 || true);;
.tar.gz|.tgz) base=$(tar tzf "${full_file}" |head -n 1 |cut -d / -f 1 || true);;
.tar) base=$(tar tf "${full_file}" |head -n 1 |cut -d / -f 1 || true);;
esac
CT_TestOrAbort "There was a problem when extracting '${file}'" -d "${base}" -o "${base}" != "${file}"
ln -s "${base}" "${file}"
fi
# Kludge: outside this function, we wouldn't know if we had just extracted
# a libc addon, or a plain package. Apply patches now.
CT_DoLog EXTRA "Patching '${file}'"
if [ "${libc_addon}" = "y" ]; then
# Some addon tarballs directly contain the correct addon directory,
# while others have the addon directory named after the tarball.
# Fix that by always using the short name (eg: linuxthreads, ports, etc...)
addon_short_name=$(echo "${file}" |sed -r -e 's/^[^-]+-//; s/-[^-]+$//;')
[ -d "${addon_short_name}" ] || ln -s "${file}" "${addon_short_name}"
# If libc addon, we're already in the correct place
else
cd "${file}"
fi
official_patch_dir=
custom_patch_dir=
[ "${CUSTOM_PATCH_ONLY}" = "y" ] || official_patch_dir="${CT_LIB_DIR}/patches/${base_file}/${ver_file}"
[ "${CT_CUSTOM_PATCH}" = "y" ] && custom_patch_dir="${CT_CUSTOM_PATCH_DIR}/${base_file}/${ver_file}"
for patch_dir in "${official_patch_dir}" "${custom_patch_dir}"; do
if [ -n "${patch_dir}" -a -d "${patch_dir}" ]; then
for p in "${patch_dir}"/*.patch; do
if [ -f "${p}" ]; then
CT_DoLog DEBUG "Applying patch '${p}'"
patch -g0 -F1 -p1 -f <"${p}" |CT_DoLog ALL
CT_TestAndAbort "Failed while applying patch file '${p}'" ${PIPESTATUS[0]} -ne 0
fi
done
fi
done
if [ "${CT_OVERIDE_CONFIG_GUESS_SUB}" = "y" ]; then
CT_DoLog ALL "Overiding config.guess and config.sub"
for cfg in config_guess config_sub; do
eval ${cfg}="${CT_LIB_DIR}/tools/${cfg/_/.}"
[ -e "${CT_TOP_DIR}/tools/${cfg/_/.}" ] && eval ${cfg}="${CT_TOP_DIR}/tools/${cfg/_/.}"
find . -type f -name "${cfg/_/.}" -exec cp -v "${!cfg}" {} \; |CT_DoLog ALL
done
fi
CT_Popd
}
# Two wrappers to call config.(guess|sub) either from CT_TOP_DIR or CT_LIB_DIR.
# Those from CT_TOP_DIR, if they exist, will be be more recent than those from CT_LIB_DIR.
CT_DoConfigGuess() {
if [ -x "${CT_TOP_DIR}/tools/config.guess" ]; then
"${CT_TOP_DIR}/tools/config.guess"
else
"${CT_LIB_DIR}/tools/config.guess"
fi
}
CT_DoConfigSub() {
if [ -x "${CT_TOP_DIR}/tools/config.sub" ]; then
"${CT_TOP_DIR}/tools/config.sub" "$@"
else
"${CT_LIB_DIR}/tools/config.sub" "$@"
fi
}
# Compute the target tuple from what is provided by the user
# Usage: CT_DoBuildTargetTuple
# In fact this function takes the environment variables to build the target
# tuple. It is needed both by the normal build sequence, as well as the
# sample saving sequence.
CT_DoBuildTargetTuple() {
# Set the endianness suffix, and the default endianness gcc option
case "${CT_ARCH_BE},${CT_ARCH_LE}" in
y,) target_endian_eb=eb
target_endian_el=
CT_ARCH_ENDIAN_CFLAG="-mbig-endian"
CT_ARCH_ENDIAN_LDFLAG="-EB"
;;
,y) target_endian_eb=
target_endian_el=el
CT_ARCH_ENDIAN_CFLAG="-mlittle-endian"
CT_ARCH_ENDIAN_LDFLAG="-EL"
;;
esac
# Set defaults for the system part of the tuple. Can be overriden
# by architecture-specific values.
case "${CT_LIBC}" in
glibc) CT_TARGET_SYS=gnu;;
uClibc) CT_TARGET_SYS=uclibc;;
esac
# Transform the ARCH into a kernel-understandable ARCH
CT_KERNEL_ARCH="${CT_ARCH}"
# Set the default values for ARCH, ABI, CPU, TUNE, FPU and FLOAT
unset CT_ARCH_ARCH_CFLAG CT_ARCH_ABI_CFLAG CT_ARCH_CPU_CFLAG CT_ARCH_TUNE_CFLAG CT_ARCH_FPU_CFLAG CT_ARCH_FLOAT_CFLAG
unset CT_ARCH_WITH_ARCH CT_ARCH_WITH_ABI CT_ARCH_WITH_CPU CT_ARCH_WITH_TUNE CT_ARCH_WITH_FPU CT_ARCH_WITH_FLOAT
[ "${CT_ARCH_ARCH}" ] && { CT_ARCH_ARCH_CFLAG="-march=${CT_ARCH_ARCH}"; CT_ARCH_WITH_ARCH="--with-arch=${CT_ARCH_ARCH}"; }
[ "${CT_ARCH_ABI}" ] && { CT_ARCH_ABI_CFLAG="-mabi=${CT_ARCH_ABI}"; CT_ARCH_WITH_ABI="--with-abi=${CT_ARCH_ABI}"; }
[ "${CT_ARCH_CPU}" ] && { CT_ARCH_CPU_CFLAG="-mcpu=${CT_ARCH_CPU}"; CT_ARCH_WITH_CPU="--with-cpu=${CT_ARCH_CPU}"; }
[ "${CT_ARCH_TUNE}" ] && { CT_ARCH_TUNE_CFLAG="-mtune=${CT_ARCH_TUNE}"; CT_ARCH_WITH_TUNE="--with-tune=${CT_ARCH_TUNE}"; }
[ "${CT_ARCH_FPU}" ] && { CT_ARCH_FPU_CFLAG="-mfpu=${CT_ARCH_FPU}"; CT_ARCH_WITH_FPU="--with-fpu=${CT_ARCH_FPU}"; }
[ "${CT_ARCH_FLOAT_SW}" ] && { CT_ARCH_FLOAT_CFLAG="-msoft-float"; CT_ARCH_WITH_FLOAT="--with-float=soft"; }
# Call the architecture specific settings
CT_DoArchValues
# Finish the target tuple construction
case "${CT_KERNEL}" in
linux*) CT_TARGET_KERNEL=linux;;
esac
CT_TARGET=$(CT_DoConfigSub "${CT_TARGET_ARCH}-${CT_TARGET_VENDOR:-unknown}-${CT_TARGET_KERNEL}-${CT_TARGET_SYS}")
# Prepare the target CFLAGS
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_ENDIAN_CFLAG}"
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_ARCH_ARCH_CFLAG}"
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_ARCH_ABI_CFLAG}"
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_ARCH_CPU_CFLAG}"
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_ARCH_TUNE_CFLAG}"
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_ARCH_FPU_CFLAG}"
CT_ARCH_TARGET_CFLAGS="${CT_ARCH_TARGET_CFLAGS} ${CT_ARCH_FLOAT_CFLAG}"
# Now on for the target LDFLAGS
CT_ARCH_TARGET_LDFLAGS="${CT_ARCH_ENDIAN_LDFLAG}"
}
# This function does pause the build until the user strikes "Return"
# Usage: CT_DoPause [optional_message]
CT_DoPause() {
local foo
local message="${1:-Pausing for your pleasure}"
CT_DoLog INFO "${message}"
read -p "Press 'Enter' to continue, or Ctrl-C to stop..." foo >&6
return 0
}
# This function saves the state of the toolchain to be able to restart
# at any one point
# Usage: CT_DoSaveState <next_step_name>
CT_DoSaveState() {
[ "${CT_DEBUG_CT_SAVE_STEPS}" = "y" ] || return 0
local state_name="$1"
local state_dir="${CT_STATE_DIR}/${state_name}"
CT_DoLog DEBUG "Saving state to restart at step '${state_name}'..."
rm -rf "${state_dir}"
mkdir -p "${state_dir}"
case "${CT_DEBUG_CT_SAVE_STEPS_GZIP}" in
y) tar_opt=z; tar_ext=.gz;;
*) tar_opt=; tar_ext=;;
esac
CT_DoLog DEBUG " Saving environment and aliases"
# We must omit shell functions
set |awk '
BEGIN { _p = 1; }
$0~/^[^ ]+ \(\)/ { _p = 0; }
_p == 1
$0 == "}" { _p = 1; }
' >"${state_dir}/env.sh"
CT_DoLog DEBUG " Saving CT_CC_CORE_STATIC_PREFIX_DIR='${CT_CC_CORE_STATIC_PREFIX_DIR}'"
CT_Pushd "${CT_CC_CORE_STATIC_PREFIX_DIR}"
tar cv${tar_opt}f "${state_dir}/cc_core_static_prefix_dir.tar${tar_ext}" . |CT_DoLog DEBUG
CT_Popd
CT_DoLog DEBUG " Saving CT_CC_CORE_SHARED_PREFIX_DIR='${CT_CC_CORE_SHARED_PREFIX_DIR}'"
CT_Pushd "${CT_CC_CORE_SHARED_PREFIX_DIR}"
tar cv${tar_opt}f "${state_dir}/cc_core_shared_prefix_dir.tar${tar_ext}" . |CT_DoLog DEBUG
CT_Popd
CT_DoLog DEBUG " Saving CT_PREFIX_DIR='${CT_PREFIX_DIR}'"
CT_Pushd "${CT_PREFIX_DIR}"
tar cv${tar_opt}f "${state_dir}/prefix_dir.tar${tar_ext}" --exclude '*.log' . |CT_DoLog DEBUG
CT_Popd
if [ "${CT_LOG_TO_FILE}" = "y" ]; then
CT_DoLog DEBUG " Saving log file"
exec >/dev/null
case "${CT_DEBUG_CT_SAVE_STEPS_GZIP}" in
y) gzip -3 -c "${CT_LOG_FILE}" >"${state_dir}/log.gz";;
*) cat "${CT_LOG_FILE}" >"${state_dir}/log";;
esac
exec >>"${CT_LOG_FILE}"
fi
}
# This function restores a previously saved state
# Usage: CT_DoLoadState <state_name>
CT_DoLoadState(){
local state_name="$1"
local state_dir="${CT_STATE_DIR}/${state_name}"
local old_RESTART="${CT_RESTART}"
local old_STOP="${CT_STOP}"
CT_TestOrAbort "The previous build did not reach the point where it could be restarted at '${CT_RESTART}'" -d "${state_dir}"
# We need to do something special with the log file!
if [ "${CT_LOG_TO_FILE}" = "y" ]; then
exec >"${state_dir}/tail.log"
fi
CT_DoLog INFO "Restoring state at step '${state_name}', as requested."
case "${CT_DEBUG_CT_SAVE_STEPS_GZIP}" in
y) tar_opt=z; tar_ext=.gz;;
*) tar_opt=; tar_ext=;;
esac
CT_DoLog DEBUG " Removing previous build directories"
chmod -R u+rwX "${CT_PREFIX_DIR}" "${CT_CC_CORE_SHARED_PREFIX_DIR}" "${CT_CC_CORE_STATIC_PREFIX_DIR}"
rm -rf "${CT_PREFIX_DIR}" "${CT_CC_CORE_SHARED_PREFIX_DIR}" "${CT_CC_CORE_STATIC_PREFIX_DIR}"
mkdir -p "${CT_PREFIX_DIR}" "${CT_CC_CORE_SHARED_PREFIX_DIR}" "${CT_CC_CORE_STATIC_PREFIX_DIR}"
CT_DoLog DEBUG " Restoring CT_PREFIX_DIR='${CT_PREFIX_DIR}'"
CT_Pushd "${CT_PREFIX_DIR}"
tar xv${tar_opt}f "${state_dir}/prefix_dir.tar${tar_ext}" |CT_DoLog DEBUG
CT_Popd
CT_DoLog DEBUG " Restoring CT_CC_CORE_SHARED_PREFIX_DIR='${CT_CC_CORE_SHARED_PREFIX_DIR}'"
CT_Pushd "${CT_CC_CORE_SHARED_PREFIX_DIR}"
tar xv${tar_opt}f "${state_dir}/cc_core_shared_prefix_dir.tar${tar_ext}" |CT_DoLog DEBUG
CT_Popd
CT_DoLog DEBUG " Restoring CT_CC_CORE_STATIC_PREFIX_DIR='${CT_CC_CORE_STATIC_PREFIX_DIR}'"
CT_Pushd "${CT_CC_CORE_STATIC_PREFIX_DIR}"
tar xv${tar_opt}f "${state_dir}/cc_core_static_prefix_dir.tar${tar_ext}" |CT_DoLog DEBUG
CT_Popd
# Restore the environment, discarding any error message
# (for example, read-only bash internals)
CT_DoLog DEBUG " Restoring environment"
. "${state_dir}/env.sh" >/dev/null 2>&1 || true
# Restore the new RESTART and STOP steps
CT_RESTART="${old_RESTART}"
CT_STOP="${old_STOP}"
unset old_stop old_restart
if [ "${CT_LOG_TO_FILE}" = "y" ]; then
CT_DoLog DEBUG " Restoring log file"
exec >/dev/null
case "${CT_DEBUG_CT_SAVE_STEPS_GZIP}" in
y) zcat "${state_dir}/log.gz" >"${CT_LOG_FILE}";;
*) cat "${state_dir}/log" >"${CT_LOG_FILE}";;
esac
cat "${state_dir}/tail.log" >>"${CT_LOG_FILE}"
exec >>"${CT_LOG_FILE}"
rm -f "${state_dir}/tail.log"
fi
}