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# no need for shebang - this file is included from other scripts
# SPDX-License-Identifier: GPL-3.0-or-later

LOOPSLEEP_DATE="$(which date 2>/dev/null || command -v date 2>/dev/null)"
if [ -z "$LOOPSLEEP_DATE" ]; then
	echo >&2 "$0: ERROR: Cannot find the command 'date' in the system path."
	exit 1
fi

# -----------------------------------------------------------------------------
# use the date command as a high resolution timer

# macOS 'date' doesn't support '%N' precision
# echo $(/bin/date +"%N") is "N"
if [ "$($LOOPSLEEP_DATE +"%N")" = "N" ]; then
  LOOPSLEEP_DATE_FORMAT="%s * 1000"
else
  LOOPSLEEP_DATE_FORMAT="%s * 1000 + 10#%-N / 1000000"
fi

now_ms=
LOOPSLEEPMS_HIGHRES=1
test "$($LOOPSLEEP_DATE +%N)" = "%N" && LOOPSLEEPMS_HIGHRES=0
test -z "$($LOOPSLEEP_DATE +%N)" && LOOPSLEEPMS_HIGHRES=0
current_time_ms_from_date() {
  if [ $LOOPSLEEPMS_HIGHRES -eq 0 ]; then
    now_ms="$($LOOPSLEEP_DATE +'%s')000"
  else
    now_ms="$(($($LOOPSLEEP_DATE +"$LOOPSLEEP_DATE_FORMAT")))"
  fi
}

# -----------------------------------------------------------------------------
# use /proc/uptime as a high resolution timer

current_time_ms_from_date
current_time_ms_from_uptime_started="${now_ms}"
current_time_ms_from_uptime_last="${now_ms}"
current_time_ms_from_uptime_first=0
current_time_ms_from_uptime() {
	local up rest arr=() n

	read up rest </proc/uptime
	if [ $? -ne 0 ]; then
		echo >&2 "$0: Cannot read /proc/uptime - falling back to current_time_ms_from_date()."
		current_time_ms="current_time_ms_from_date"
		current_time_ms_from_date
		current_time_ms_accuracy=1
		return
	fi

	arr=(${up//./ })

	if [ ${#arr[1]} -lt 1 ]; then
		n="${arr[0]}000"
	elif [ ${#arr[1]} -lt 2 ]; then
		n="${arr[0]}${arr[1]}00"
	elif [ ${#arr[1]} -lt 3 ]; then
		n="${arr[0]}${arr[1]}0"
	else
		n="${arr[0]}${arr[1]}"
	fi

	now_ms=$((current_time_ms_from_uptime_started - current_time_ms_from_uptime_first + n))

	if [ "${now_ms}" -lt "${current_time_ms_from_uptime_last}" ]; then
		echo >&2 "$0: Cannot use current_time_ms_from_uptime() - new time ${now_ms} is older than the last ${current_time_ms_from_uptime_last} - falling back to current_time_ms_from_date()."
		current_time_ms="current_time_ms_from_date"
		current_time_ms_from_date
		current_time_ms_accuracy=1
	fi

	current_time_ms_from_uptime_last="${now_ms}"
}
current_time_ms_from_uptime
current_time_ms_from_uptime_first="$((now_ms - current_time_ms_from_uptime_started))"
current_time_ms_from_uptime_last="${current_time_ms_from_uptime_first}"
current_time_ms="current_time_ms_from_uptime"
current_time_ms_accuracy=10
if [ "${current_time_ms_from_uptime_first}" -eq 0 ]; then
	echo >&2 "$0: Invalid setup for current_time_ms_from_uptime() - falling back to current_time_ms_from_date()."
	current_time_ms="current_time_ms_from_date"
	current_time_ms_accuracy=1
fi

# -----------------------------------------------------------------------------
# use read with timeout for sleep

mysleep=""

mysleep_fifo="${NETDATA_CACHE_DIR-/tmp}/.netdata_bash_sleep_timer_fifo"
[ -f "${mysleep_fifo}" ] && rm "${mysleep_fifo}"
[ ! -p "${mysleep_fifo}" ] && mkfifo "${mysleep_fifo}"
[ -p "${mysleep_fifo}" ] && mysleep="mysleep_read"

mysleep_read() {
	read -t "${1}" <>"${mysleep_fifo}"
	ret=$?
	if [ $ret -le 128 ]; then
		echo >&2 "$0: Cannot use read for sleeping (return code ${ret})."
		mysleep="sleep"
		${mysleep} "${1}"
	fi
}

# -----------------------------------------------------------------------------
# use bash loadable module for sleep

mysleep_builtin() {
	builtin sleep "${1}"
	ret=$?
	if [ $ret -ne 0 ]; then
		echo >&2 "$0: Cannot use builtin sleep for sleeping (return code ${ret})."
		mysleep="sleep"
		${mysleep} "${1}"
	fi
}

if [ -z "${mysleep}" -a "$((BASH_VERSINFO[0] + 0))" -ge 3 -a "${NETDATA_BASH_LOADABLES}" != "DISABLE" ]; then
	# enable modules only for bash version 3+

	for bash_modules_path in ${BASH_LOADABLES_PATH//:/ } "$(pkg-config bash --variable=loadablesdir 2>/dev/null)" "/usr/lib/bash" "/lib/bash" "/lib64/bash" "/usr/local/lib/bash" "/usr/local/lib64/bash"; do
		[ -z "${bash_modules_path}" -o ! -d "${bash_modules_path}" ] && continue

		# check for sleep
		for bash_module_sleep in "sleep" "sleep.so"; do
			if [ -f "${bash_modules_path}/${bash_module_sleep}" ]; then
				if enable -f "${bash_modules_path}/${bash_module_sleep}" sleep 2>/dev/null; then
					mysleep="mysleep_builtin"
					# echo >&2 "$0: Using bash loadable ${bash_modules_path}/${bash_module_sleep} for sleep"
					break
				fi
			fi

		done

		[ ! -z "${mysleep}" ] && break
	done
fi

# -----------------------------------------------------------------------------
# fallback to external sleep

[ -z "${mysleep}" ] && mysleep="sleep"

# -----------------------------------------------------------------------------
# this function is used to sleep a fraction of a second
# it calculates the difference between every time is called
# and tries to align the sleep time to give you exactly the
# loop you need.

LOOPSLEEPMS_LASTRUN=0
LOOPSLEEPMS_NEXTRUN=0
LOOPSLEEPMS_LASTSLEEP=0
LOOPSLEEPMS_LASTWORK=0

loopsleepms() {
	local tellwork=0 t="${1}" div s m now mstosleep

	if [ "${t}" = "tellwork" ]; then
		tellwork=1
		shift
		t="${1}"
	fi

	# $t = the time in seconds to wait

	# if high resolution is not supported
	# just sleep the time requested, in seconds
	if [ ${LOOPSLEEPMS_HIGHRES} -eq 0 ]; then
		sleep ${t}
		return
	fi

	# get the current time, in ms in ${now_ms}
	${current_time_ms}

	# calculate ms since last run
	[ ${LOOPSLEEPMS_LASTRUN} -gt 0 ] &&
		LOOPSLEEPMS_LASTWORK=$((now_ms - LOOPSLEEPMS_LASTRUN - LOOPSLEEPMS_LASTSLEEP + current_time_ms_accuracy))
	# echo "# last loop's work took $LOOPSLEEPMS_LASTWORK ms"

	# remember this run
	LOOPSLEEPMS_LASTRUN=${now_ms}

	# calculate the next run
	LOOPSLEEPMS_NEXTRUN=$(((now_ms - (now_ms % (t * 1000))) + (t * 1000)))

	# calculate ms to sleep
	mstosleep=$((LOOPSLEEPMS_NEXTRUN - now_ms + current_time_ms_accuracy))
	# echo "# mstosleep is $mstosleep ms"

	# if we are too slow, sleep some time
	test ${mstosleep} -lt 200 && mstosleep=200

	s=$((mstosleep / 1000))
	m=$((mstosleep - (s * 1000)))
	[ "${m}" -lt 100 ] && m="0${m}"
	[ "${m}" -lt 10 ] && m="0${m}"

	test $tellwork -eq 1 && echo >&2 " >>> PERFORMANCE >>> WORK TOOK ${LOOPSLEEPMS_LASTWORK} ms ( $((LOOPSLEEPMS_LASTWORK * 100 / 1000)).$((LOOPSLEEPMS_LASTWORK % 10))% cpu ) >>> SLEEPING ${mstosleep} ms"

	# echo "# sleeping ${s}.${m}"
	# echo
	${mysleep} ${s}.${m}

	# keep the values we need
	# for our next run
	LOOPSLEEPMS_LASTSLEEP=$mstosleep
}

# test it
#while [ 1 ]
#do
#    r=$(( (RANDOM * 2000 / 32767) ))
#    s=$((r / 1000))
#    m=$((r - (s * 1000)))
#    [ "${m}" -lt 100 ] && m="0${m}"
#    [ "${m}" -lt 10  ] && m="0${m}"
#    echo "${r} = ${s}.${m}"
#
#    # the work
#    ${mysleep} ${s}.${m}
#
#    # the alignment loop
#    loopsleepms tellwork 1
#done