#!/bin/bash
########################################################################
####  Script Name: inxi
####  version: 1.4.86
####  Date: April 26 2011
########################################################################
####  SPECIAL THANKS
########################################################################
####  Special thanks to all those in #lsc and #smxi for their tireless 
####  dedication helping test inxi modules.
########################################################################
####  ABOUT INXI
########################################################################
####  inxi is a fork of infobash 3.02, the original bash sys info script by locsmif
####  As time permits functionality improvements and recoding will occur.
####
####  inxi, the universal, portable, system info script for irc.
####  Tested with Irssi, Xchat, Konversation, BitchX, KSirc, ircII,
####  Gaim/Pidgin, Weechat, KVIrc and Kopete.
####  Original infobash author and copyright holder:
####  Copyright (C) 2005-2007  Michiel de Boer a.k.a. locsmif
####  inxi version: Copyright (C) 2008-11 Scott Rogers & Harald Hope
####  Further fixes (listed as known): Horst Tritremmel <hjt at sidux.com>
####  Steven Barrett (aka: damentz) - usb audio patch; swap percent used patch
####
####  Current script home page: http://techpatterns.com/forums/about1131.html
####  Script svn: http://code.google.com/p/inxi
####
####  This program is free software; you can redistribute it and/or modify
####  it under the terms of the GNU General Public License as published by
####  the Free Software Foundation; either version 3 of the License, or
####  (at your option) any later version.
####
####  This program is distributed in the hope that it will be useful,
####  but WITHOUT ANY WARRANTY; without even the implied warranty of
####  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
####  GNU General Public License for more details.
####
####  You should have received a copy of the GNU General Public License
####  along with this program.  If not, see <http://www.gnu.org/licenses/>.
####
####  If you don't understand what Free Software is, please read (or reread)
####  this page: http://www.gnu.org/philosophy/free-sw.html
########################################################################
####  Package names in (...) are the Debian Squeeze package name. Check your 
####  distro for proper package name by doing this: which <application> 
####  then find what package owns that application file.
####  DEPENDENCIES
####  bash >=3.0 (bash); df, readlink, stty, tr, uname, wc (coreutils);
####  gawk (gawk); grep (grep); hostname (hostname); lspci (pciutils);
####  free, ps, uptime (procps); 
####  Also the proc filesystem should be present and mounted
####
####	Apparently unpatched bash 3.0 has arrays broken; bug reports:
####	http://ftp.gnu.org/gnu/bash/bash-3.0-patches/bash30-008
####	http://lists.gnu.org/archive/html/bug-bash/2004-08/msg00144.html
####  Bash 3.1 for proper array use
####
####	Arrays work in bash 2.05b, but "egrep -m" does not
####
####  RECOMMENDS (Needed to run certain features, listed by option)
####  -A - for output of usb audio information: lsusb (usbutils)
####  -Ax - for audio module version: modinfo (module-init-tools)
####  -Dx - for hdd temp output (root only default): hddtemp (hddtemp)
####       For user level hdd temp output: sudo (sudo)
####       Note: requires user action for this feature to run as user (edit /etc/sudoers file)
####  -G - full graphics output requires:  glxinfo (mesa-utils); xdpyinfo (X11-utils);
####       xrandr (x11-xserver-utils)
####  -i - IP information, local/wan - ifconfig (net-tools)
####  -Ix - view current runlevel while not in X window system (or with -x): runlevel (sysvinit)
####  -o - for unmounted file system information in unmounted drives (root only default): file (file)
####       Note: requires user action for this feature to run as user (edit /etc/sudoers file)
####       For user level unmounted file system type output: sudo (sudo)
####  -s   For any sensors output, fan, temp, etc: sensors (lm-sensors)
####       Note: requires setup of lm-sensors (sensors-detect and adding modules/modprobe/reboot,
####       and ideally, pwmconfig) prior to full output being available. 
########################################################################
####  CONVENTIONS:
####  Indentation: TABS
####  Do not use `....` (back quotes), those are totally non-reabable, use $(....).
####  Do not use one liner flow controls. 
####  The ONLY time you should use ';' (semi-colon) is in this single case: if [[ condition ]];then.
####  Never use compound 'if': ie, if [[ condition ]] && statement.
####  Note: [[ -n $something ]] - double brackets does not require quotes for variables: ie, "$something".
####  Always use quotes, double or single, for all string values.
####
####  All new code/methods must be in a function.
####  For all boolean tests, use 'true' / 'false'.
####  !! Do NOT use 0 or 1 unless it's a function return. 
####  Avoid complicated tests in the if condition itself.
####  To 'return' a value in a function, use 'echo <var>'.
####
####  For gawk: use always if ( num_of_cores > 1 ) { hanging { starter for all blocks
####  This lets us use one method for all gawk structures, including BEGIN/END, if, for, etc
####
####  VARIABLE/FUNCTION NAMING:
####  All functions should follow standard naming--verb adjective noun. 
####	ie, get_cpu_data
####  All variables MUST be initialized / declared explicitly.
####  All variables should clearly explain what they are, except counters like i, j.
####  Each word of variable must be separated by '_' (underscore) (camel form).
####  Global variables are 'UPPER CASE', at top of script.
####	ie, SOME_VARIABLE=''
####  Local variables are 'lower case' and declared at the top of the function.
####	ie, some_variable=''
####  Locals that will be inherited by child functions have first char capitalized (so you know they are inherited).
####	ie, Some_Variable 
####
####  Booleans should start with b_ (local) or B_ (global) and state clearly what is being tested.
####  Arrays should start with a_ (local) or A_ (global).
####
####  SPECIAL NOTES:
####  The color variable ${C2} must always be followed by a space unless you know what
####  character is going to be next for certain. Otherwise irc color codes can be accidentally
####  activated or altered.
####
####  For native script konversation support (check distro for correct konvi scripts path):
####  ln -s <path to inxi> /usr/share/apps/konversation/scripts/inxi
####  DCOP doesn't like \n, so avoid using it for most output unless required, as in error messages.
####
####  As with all 'rules' there are acceptions, these are noted where used.
####
####  print_screen_output " " # requires space, not null, to avoid error in for example in irssi
####
###################################################################################
####	KDE Konversation information.  Moving from dcop(qt3/KDE3) to dbus(qt4/KDE4)
###################################################################################
####	dcop and dbus	-- these talk back to Konversation from this script
####	
####	Scripting info	-- http://konversation.berlios.de/docs/scripting.html
####			-- http://www.kde.org.uk/apps/konversation/
####
####	dbus info	-- http://dbus.freedesktop.org/doc/dbus-tutorial.html
####	view dbus info	-- https://fedorahosted.org/d-feet/
####			-- or run qdbus
####	Konvi dbus/usage-- qdbus org.kde.konversation /irc say <server> <target-channel> <output>
####
####	Python usage	-- http://wiki.python.org/moin/DbusExamples  (just in case)
####
####	Because webpages come and go, the above information needs to be moved to inxi's wiki
####	
########################################################################
####  Valuable Resources
####  gawk arrays: http://www.math.utah.edu/docs/info/gawk_12.html
########################################################################
####  TESTING FLAGS
####  inxi supports advanced testing triggers to do various things, using -! <arg>
####  -! 1  - triggers default B_TESTING_1='true' to trigger some test or other
####  -! 2  - triggers default B_TESTING_2='true' to trigger some test or other
####  -! 3  - triggers B_TESTING_1='true' and B_TESTING_2='true'
####  -! 10 - triggers an update from the primary dev download server instead of svn
####  -! 11 - triggers an update from svn branch one - if present, of course
####  -! 12 - triggers an update from svn branch two - if present, of course
####  -! 13 - triggers an update from svn branch three - if present, of course
####  -! 14 - triggers an update from svn branch four - if present, of course
####  -! <http://......> - Triggers an update from whatever server you list.
#### LOG FLAGS (logs to $HOME/.inxi/inxi.log with rotate 3 total)
####  -@ 8  - Basic data logging of generated data / array values
####  -@ 9  - Full logging of all data used, including cat of files and system data
####  -@ 10 - Basic data logging plus color code logging
########################################################################
#### VARIABLES
########################################################################

## NOTE: we can use hwinfo if it's available in all systems, or most, to get
## a lot more data and verbosity levels going
# set to default LANG to avoid locales errors with , or .
LANG=C
### Variable initializations: null values
CMDL_MAX=''
COLOR_SCHEME=''
# override in user config if desired, seems like less than .3 doesn't work as reliably
CPU_SLEEP='0.3' 
DEV_DISK_LABEL=''
DEV_DISK_UUID=''
IRC_CLIENT=''
IRC_CLIENT_VERSION=''
PS_COUNT=5
PS_THROTTLED=''
REPO_DATA=''
REPO_FILE_ID=''

### primary data array holders	## usage: 'A_<var>'
A_AUDIO_DATA=''
A_CMDL=''
A_CPU_CORE_DATA=''
A_CPU_DATA=''
A_CPU_TYPE_PCNT_CCNT=''
A_DEBUG_BUFFER=''
A_GFX_CARD_DATA=''
A_GLX_DATA=''
A_HDD_DATA=''
A_INTERFACES_DATA=''
A_NETWORK_DATA=''
A_PARTITION_DATA=''
A_PS_DATA=''
A_SENSORS_DATA=''
A_UNMOUNTED_PARTITION_DATA=''
A_X_DATA=''

### Boolean true/false globals	## usage: 'B_<var>'
# flag to allow distro maintainers to turn off update features. If false, turns off
# -U and -! testing/advanced update options, as well as removing the -U help menu item
B_ALLOW_UPDATE='true'
B_COLOR_SCHEME_SET='false'
B_CONSOLE_IRC='false'
# triggers full display of cpu flags
B_CPU_FLAGS_FULL='false'
# test for dbus irc client
B_DBUS_CLIENT='false'
# kde dcop
B_DCOP='false'
# Debug flood override: make 'true' to allow long debug output
B_DEBUG_FLOOD='false'
# show extra output data
B_EXTRA_DATA='false'
# override certain errors due to currupted data
B_HANDLE_CORRUPT_DATA='false'
B_LABEL_SET='false'
B_LOG_COLORS='false'
B_LOG_FULL_DATA='false'
# kde qdbus
B_QDBUS='false'
B_ROOT='false'
B_RUN_COLOR_SELECTOR='false'
# Running in a shell? Defaults to false, and is determined later.
B_RUNNING_IN_SHELL='false'
# this sets the debug buffer
B_SCRIPT_UP='false'
B_SHOW_ADVANCED_NETWORK='false'
# Show sound card data
B_SHOW_AUDIO='false'
B_SHOW_CPU='false'
B_SHOW_DISK='false'
# Show full hard disk output
B_SHOW_FULL_HDD='false'
B_SHOW_GRAPHICS='false'
# Set this to 'false' to avoid printing the hostname
B_SHOW_HOST='true'
B_SHOW_INFO='false'
B_SHOW_IP='false'
B_SHOW_LABELS='false'
B_SHOW_NETWORK='false'
# either -v > 3 or -P will show partitions
B_SHOW_PARTITIONS='false'
B_SHOW_PARTITIONS_FULL='false'
B_SHOW_PS_CPU_DATA='false'
B_SHOW_PS_MEM_DATA='false'
B_SHOW_REPOS='false'
B_SHOW_SENSORS='false'
# triggers only short inxi output
B_SHOW_SHORT_OUTPUT='false'
B_SHOW_SYSTEM='false'
B_SHOW_UNMOUNTED_PARTITIONS='false'
B_SHOW_UUIDS='false'
# triggers various debugging and new option testing
B_TESTING_1='false'
B_TESTING_2='false'
# set to true here for debug logging from script start
B_USE_LOGGING='false'
B_UUID_SET='false'
# Test for X running
B_X_RUNNING='false'

### Directory/file exist flags; test as [[ $(boolean) ]] not [[ $boolean ]]
B_ASOUND_DEVICE_FILE='false'
B_ASOUND_VERSION_FILE='false'
B_BASH_ARRAY='false'
B_CPUINFO_FILE='false'
B_LSB_FILE='false'
B_MEMINFO_FILE='false'
B_MODULES_FILE='false' #
B_MOUNTS_FILE='false'
B_PARTITIONS_FILE='false' #
B_PROC_DIR='false'
B_SCSI_FILE='false'

### File's used when present
FILE_ASOUND_DEVICE='/proc/asound/cards'
FILE_ASOUND_VERSION='/proc/asound/version'
FILE_CPUINFO='/proc/cpuinfo'
FILE_LSB_RELEASE='/etc/lsb-release'
FILE_MEMINFO='/proc/meminfo'
FILE_MODULES='/proc/modules'
FILE_MOUNTS='/proc/mounts'
FILE_PARTITIONS='/proc/partitions'
FILE_SCSI='/proc/scsi/scsi'

## app tested for and present, to avoid repeat tests
B_FILE_TESTED='false'
B_HDDTEMP_TESTED='false'
B_MODINFO_TESTED='false'
B_SUDO_TESTED='false'
FILE_PATH=''
HDDTEMP_PATH=''
MODINFO_PATH=''
SUDO_PATH=''

### Variable initializations: constants
DCOPOBJ="default"
DEBUG=0 # Set debug levels from 1-10 (8-10 trigger logging levels)
# Debug Buffer Index, index into a debug buffer storing debug messages until inxi is 'all up'
DEBUG_BUFFER_INDEX=0
## note: the debugger rerouting to /dev/null has been moved to the end of the get_parameters function
## so -@[number] debug levels can be set if there is a failure, otherwise you can't even see the errors

# Defaults to 2, make this 1 for normal, 0 for no colorcodes at all. Use following variables in config 
# files to change defaults for each type, or global
# Same as runtime parameter.
DEFAULT_COLOR_SCHEME=2
# Always leave these blank, these are only going to be set in inxi.conf files, that makes testing
# for user changes easier after sourcing the files
GLOBAL_COLOR_SCHEME=''
IRC_COLOR_SCHEME=''
IRC_CONS_COLOR_SCHEME=''
IRC_X_TERM_COLOR_SCHEME=''
CONSOLE_COLOR_SCHEME=''
VIRT_TERM_COLOR_SCHEME=''

# Default indentation level
INDENT=10

# logging eval variables, start and end function: Insert to LOGFS LOGFE when debug level >= 8
LOGFS_STRING='log_function_data fs $FUNCNAME "$( echo $@ )"'
LOGFE_STRING='log_function_data fe $FUNCNAME'
LOGFS=''
LOGFE=''
# uncomment for debugging from script start
# LOGFS=$LOGFS_STRING
# LOGFE=$LOGFE_STRING

# default to false, no konversation found, 1 is native konvi (qt3/KDE3) script mode, 2 is /cmd inxi start,
##	3 is Konversation > 1.2 (qt4/KDE4) 
KONVI=0
# NO_CPU_COUNT=0	# Wether or not the string "dual" or similar is found in cpuinfo output. If so, avoid dups.
# This is a variable that controls how many parameters inxi will parse in a /proc/<pid>/cmdline file before stopping.
PARAMETER_LIMIT=30
SCHEME=0 # set default scheme - do not change this, it's set dynamically
# this is set in user prefs file, to override dynamic temp1/temp2 determination of sensors output in case
# cpu runs colder than mobo
SENSORS_CPU_NO=''
# SHOW_IRC=1 to avoid showing the irc client version number, or SHOW_IRC=0 to disable client information completely.
SHOW_IRC=2
# Verbosity level defaults to 0, this can also be set with -v0, -v2, -v3, etc as a parameter.
VERBOSITY_LEVEL=0
# Supported number of verbosity levels, including 0
VERBOSITY_LEVELS=5

# Clear nullglob, because it creates unpredictable situations with IFS=$'\n' ARR=($VAR) IFS="$ORIGINAL_IFS"
# type constructs. Stuff like [rev a1] is now seen as a glob expansion pattern, and fails, and
# therefore results in nothing.
shopt -u nullglob
## info on bash built in: $IFS - http://tldp.org/LDP/abs/html/internalvariables.html
# Backup the current Internal Field Separator
ORIGINAL_IFS="$IFS"

# These two determine separators in single line output, to force irc clients not to break off sections
SEP1='~'
SEP2=' '

### Script names/paths - must be non root writable
SCRIPT_DATA_DIR="$HOME/.inxi"
LOG_FILE="$SCRIPT_DATA_DIR/inxi.log"
LOG_FILE_1="$SCRIPT_DATA_DIR/inxi.1.log"
LOG_FILE_2="$SCRIPT_DATA_DIR/inxi.2.log"
SCRIPT_NAME="inxi"
SCRIPT_PATH=""			#filled-in in Main
SCRIPT_VERSION_NUMBER=""	#filled-in in Main
SCRIPT_DOWNLOAD='http://inxi.googlecode.com/svn/trunk/'
SCRIPT_DOWNLOAD_BRANCH_1='http://inxi.googlecode.com/svn/branches/one/'
SCRIPT_DOWNLOAD_BRANCH_2='http://inxi.googlecode.com/svn/branches/two/'
SCRIPT_DOWNLOAD_BRANCH_3='http://inxi.googlecode.com/svn/branches/three/'
SCRIPT_DOWNLOAD_BRANCH_4='http://inxi.googlecode.com/svn/branches/four/'
SCRIPT_DOWNLOAD_DEV='http://smxi.org/test/'
KONVI_CFG="konversation/scripts/$SCRIPT_NAME.conf" # relative path to $(kde-config --path data)

### Script Localization
# Make sure every program speaks English.
LC_ALL="C"
export LC_ALL

### Output Colors
# A more elegant way to have a scheme that doesn't print color codes (neither ANSI nor mIRC) at all. See below.
unset EMPTY
#             DGREY   BLACK   RED     DRED    GREEN   DGREEN  YELLOW  DYELLOW
ANSI_COLORS="       "
IRC_COLORS="  \x0314  \x0301  \x0304  \x0305  \x0309  \x0303  \x0308  \x0307"
#                          BLUE    DBLUE   MAGENTA DMAGENTA CYAN   DCYAN   WHITE   GREY    NORMAL
ANSI_COLORS="$ANSI_COLORS         "
IRC_COLORS=" $IRC_COLORS    \x0312 \x0302  \x0313  \x0306  \x0311  \x0310  \x0300  \x0315  \x03"

#ANSI_COLORS=($ANSI_COLORS); IRC_COLORS=($IRC_COLORS)
A_COLORS_AVAILABLE=( DGREY BLACK RED DRED GREEN DGREEN YELLOW DYELLOW BLUE DBLUE MAGENTA DMAGENTA CYAN DCYAN WHITE GREY NORMAL )

# See above for notes on EMPTY
## note: group 1: 0, 1 are null/normal
## Following: group 2: generic, light/dark or dark/light; group 3: dark on light; group 4 light on dark; 
A_COLOR_SCHEMES=( 
EMPTY,EMPTY,EMPTY 
NORMAL,NORMAL,NORMAL 

BLUE,NORMAL,NORMAL
DCYAN,NORMAL,NORMAL
MAGENTA,NORMAL,NORMAL
RED,NORMAL,NORMAL
DGREEN,NORMAL,NORMAL 
GREEN,DGREEN,NORMAL 
DYELLOW,NORMAL,NORMAL 
DCYAN,BLUE,NORMAL 
DCYAN,RED,NORMAL 
BLUE,NORMAL,NORMAL

BLACK,DGREY,NORMAL
DBLUE,DGREY,NORMAL 
DBLUE,DMAGENTA,NORMAL
DBLUE,DRED,NORMAL 
DBLUE,BLACK,NORMAL
DGREEN,DYELLOW,NORMAL 
DYELLOW,BLACK,NORMAL
DMAGENTA,BLACK,NORMAL
DCYAN,DBLUE,NORMAL

WHITE,GREY,NORMAL
GREY,WHITE,NORMAL
CYAN,GREY,NORMAL 
GREEN,WHITE,NORMAL 
GREEN,YELLOW,NORMAL 
YELLOW,WHITE,NORMAL 
MAGENTA,CYAN,NORMAL 
MAGENTA,YELLOW,NORMAL
RED,CYAN,NORMAL
RED,WHITE,NORMAL 
)

## Actual color variables
C1=''
C2=''
CN=''

### Distro Data
# In cases of derived distros where the version file of the base distro can also be found under /etc,
# the derived distro's version file should go first. (Such as with Sabayon / Gentoo)
DISTROS_DERIVED="antix-version kanotix-version knoppix-version mandrake-release pardus-release sabayon-release sidux-version turbolinux-release zenwalk-version"
# debian_version excluded from DISTROS_PRIMARY so Debian can fall through to /etc/issue detection. Same goes for Ubuntu.
DISTROS_EXCLUDE_LIST="debian_version ubuntu_version"
DISTROS_PRIMARY="gentoo-release redhat-release slackware-version SuSE-release"
DISTROS_LSB_GOOD="mandrake-release mandriva-release mandrakelinux-release"
## Distros with known problems
# DSL (Bash 2.05b: grep -m doesn't work; arrays won't work) --> unusable output
# Puppy Linux 4.1.2 (Bash 3.0: arrays won't work) --> works partially

### Bans Data
# Precede a banword with $'\2' to prevent it from being subject to automated escaping by the make_ban_lists routine
# $'\1' gets weird results :
# user@host $ ARR=($'\x01'"one two" three four); echo ${ARR[0]} | hd -v
# 00000000  01 01 6f 6e 65 20 74 77  6f 0a                    |..one two.|
A_NORMAL_BANS=( corporation communications gmbh technologies technology group $'\2'"\<ltd\>" ltd. $'\2'"\<inc\>" inc. $'\2'\<co\> co. "(tm)" "(r)" "®" $'\2'"\(rev ..\)" )
A_CPU_BANS=( @ cpu deca 'dual core' dual-core 'tri core' tri-core 'quad core' quad-core ennea genuine hepta hexa multi octa penta 'processor' processor single triple $'\2'"[0-9.]+ *[MmGg][Hh][Zz]" )
# after processing, the ban arrays will be put into these:
BAN_LIST_NORMAL=''
BAN_LIST_CPU=''

# WARNING: In the main part below (search for 'KONVI')
# there's a check for Konversation-specific config files.
# Any one of these can override the above if inxi is run
# from Konversation!

########################################################################
#### MAIN: Where it all begins
########################################################################
main()
{
	eval $LOGFS
	
	local color_scheme=''
	
	# This function just initializes variables
	initialize_script_data

	# Check for dependencies BEFORE running ANYTHING else except above functions
	# Not all distro's have these depends installed by default
	check_script_depends
	check_script_suggested_apps
	
	# note: this needs to go AFTER depends check because these use gawk
	# Do this after sourcing of config overrides so user can customize banwords
	# Contrary to my previous belief, "${ARR[@]}" passes a quoted list, not one string
	BAN_LIST_NORMAL=$( make_ban_lists "${A_NORMAL_BANS[@]}" ) 
	BAN_LIST_CPU=$( make_ban_lists "${A_CPU_BANS[@]}" )
	##echo "BAN_LIST_NORMAL='$BAN_LIST_NORMAL'"

	# first init function must be set first for colors etc. Remember, no debugger
	# stuff works on this function unless you set the debugging flag manually.
	# Debugging flag -@ [number] will not work until get_parameters runs.
	
	### Only continue if depends ok
	SCRIPT_PATH=$( dirname $0 )
	SCRIPT_VERSION_NUMBER=$( grep -im 1 'version:' $SCRIPT_PATH/$SCRIPT_NAME | gawk '{print $3}' )
	
	### Source global config overrides
	if [[ -s /etc/$SCRIPT_NAME.conf ]];then
		source /etc/$SCRIPT_NAME.conf
	fi
	# Source user config variables override /etc/inxi.conf variables
	if [[ -s $HOME/.$SCRIPT_NAME/$SCRIPT_NAME.conf ]];then
		source $HOME/.$SCRIPT_NAME/$SCRIPT_NAME.conf
	fi

	## this needs to run before the KONVI stuff is set below
	## Konversation 1.2 apparently does not like the $PPID test in get_start_client
	## So far there is no known way to detect if qt4_konvi is the parent process
	## this method will infer qt4_konvi as parent
	get_start_client

	# note: this only works if it's run from inside konversation as a script builtin or something
	# only do this if inxi has been started as a konversation script, otherwise bypass this	
#	KONVI=3 ## for testing puroses
	if [[ $KONVI -eq 1 || $KONVI -eq 3 ]];then
		
		if [[ $KONVI -eq 1 ]]; then ## dcop Konversation (ie 1.x < 1.2(qt3))	
			DCPORT="$1"
			DCSERVER="$2"
			DCTARGET="$3"
			shift 3
		elif [[ $KONVI -eq 3 ]]; then ## dbus Konversation (> 1.2 (qt4))
			DCSERVER="$1" ##dbus testing
			DCTARGET="$2" ##dbus testing
			shift 2
		fi

		# The section below is on request of Argonel from the Konversation developer team:
		# it sources config files like $HOME/.kde/share/apps/konversation/scripts/inxi.conf
		IFS=":"
		for kde_config in $( kde-config --path data )
		do
			if [[ -r ${kde_config}${KONVI_CFG} ]];then
				source "${kde_config}${KONVI_CFG}"
				break
			fi
		done
		IFS="$ORIGINAL_IFS"
	fi

	## leave this for debugging dcop stuff if we get that working
	# 	print_screen_output "DCPORT: $DCPORT"
	# 	print_screen_output "DCSERVER: $DCSERVER"
	# 	print_screen_output "DCTARGET: $DCTARGET"

	# "$@" passes every parameter separately quoted, "$*" passes all parameters as one quoted parameter.
	# must be here to allow debugger and other flags to be set.
	get_parameters "$@"

	# If no colorscheme was set in the parameter handling routine, then set the default scheme
	if [[ $B_COLOR_SCHEME_SET != 'true' ]];then
		# This let's user pick their color scheme. For IRC, only shows the color schemes, no interactive
		# The override value only will be placed in user config files. /etc/inxi.conf can also override
		if [[ $B_RUN_COLOR_SELECTOR == 'true' ]];then 
			select_default_color_scheme
		else
			# set the default, then override as required
			color_scheme=$DEFAULT_COLOR_SCHEME
			if [[ -n $GLOBAL_COLOR_SCHEME ]];then
				color_scheme=$GLOBAL_COLOR_SCHEME
			else
				if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
					if [[ -n $CONSOLE_COLOR_SCHEME && -z $DISPLAY ]];then
						color_scheme=$CONSOLE_COLOR_SCHEME
					elif [[ -n $VIRT_TERM_COLOR_SCHEME ]];then
						color_scheme=$VIRT_TERM_COLOR_SCHEME
					fi
				else
					if [[ -n $IRC_X_TERM_COLOR_SCHEME && $B_CONSOLE_IRC == 'true' && -n $DISPLAY ]];then
						color_scheme=$IRC_X_TERM_COLOR_SCHEME
					elif [[ -n $IRC_CONS_COLOR_SCHEME && -z $DISPLAY ]];then
						color_scheme=$IRC_CONS_COLOR_SCHEME
					elif [[ -n $IRC_COLOR_SCHEME ]];then
						color_scheme=$IRC_COLOR_SCHEME
					fi
				fi
			fi
			set_color_scheme $color_scheme
		fi
	fi

	# all the pre-start stuff is in place now
	B_SCRIPT_UP='true'
	script_debugger "Debugger: $SCRIPT_NAME is up and running..."
	
	# then create the output
	print_it_out

	## last steps
	if [[ $B_RUNNING_IN_SHELL == 'true' && $SCHEME -gt 0 ]];then
		echo -n ""
	fi
	eval $LOGFE
	# weechat's executor plugin forced me to do this, and rightfully so, because else the exit code
	# from the last command is taken..
	exit 0
}

#### -------------------------------------------------------------------
#### basic tests: set script data, booleans, PATH
#### -------------------------------------------------------------------

# Set PATH data so we can access all programs as user. Set BAN lists.
# initialize some boleans, these directories are used throughout the script
# some apps are used for extended functions any directory used, should be
# checked here first.
# No args taken.
initialize_script_data()
{
	eval $LOGFS
	local path='' sys_path='' added_path='' b_path_found=''
	# Extra path variable to make execute failures less likely, merged below
	local extra_paths="/bin:/sbin:/usr/bin:/usr/sbin:/usr/local/bin:/usr/local/sbin"

	# Fallback paths put into $extra_paths; This might, among others, help on gentoo.
	# Now, create a difference of $PATH and $extra_paths and add that to $PATH:
	IFS=":"
	for path in $extra_paths
	do
		b_path_found='false'
		for sys_path in $PATH
		do
			if [[ $path == $sys_path ]];then
				b_path_found='true'
			fi
		done
		if [[ $b_path_found == 'false' ]];then
			added_path="$added_path:$path"
		fi
	done

	IFS="$ORIGINAL_IFS"
	PATH="${PATH}${added_path}"
	##echo "PATH='$PATH'"
	##/bin/sh -c 'echo "PATH in subshell=\"$PATH\""'

	# now set the script BOOLEANS for files required to run features
	if [[ -d "/proc/" ]];then
		B_PROC_DIR='true'
	else
		error_handler 6
	fi

	if [[ -e $FILE_CPUINFO ]]; then
		B_CPUINFO_FILE='true'
	fi

	if [[ -e $FILE_MEMINFO ]];then
		B_MEMINFO_FILE='true'
	fi

	if [[ -e $FILE_ASOUND_DEVICE ]];then
		B_ASOUND_DEVICE_FILE='true'
	fi

	if [[ -e $FILE_ASOUND_VERSION ]];then
		B_ASOUND_VERSION_FILE='true'
	fi

	if [[ -f $FILE_LSB_RELEASE ]];then
		B_LSB_FILE='true'
	fi

	if [[ -e $FILE_SCSI ]];then
		B_SCSI_FILE='true'
	fi

	if [[ -n $DISPLAY ]];then
		B_X_RUNNING='true'
	fi

	if [[ -e $FILE_MODULES ]];then
		B_MODULES_FILE='true'
	fi

	if [[ -e $FILE_MOUNTS ]];then
		B_MOUNTS_FILE='true'
	fi

	if [[ -e $FILE_PARTITIONS ]];then
		B_PARTITIONS_FILE='true'
	fi
	# gfx output will require this flag
	if [[ $( whoami ) == 'root' ]];then
		B_ROOT='true'
	fi
	eval $LOGFE
}

# No args taken.
check_script_suggested_apps()
{
	eval $LOGFS
	local bash_array_test=( "one" "two" )

	# check for array ability of bash, this is only good for the warning at this time
	# the boolean could be used later
	# bash version 2.05b is used in DSL
	# bash version 3.0 is used in Puppy Linux; it has a known array bug <reference to be placed here>
	# versions older than 3.1 don't handle arrays
	# distro's using below 2.05b are unknown, released in 2002
	if [[ ${bash_array_test[1]} -eq "two" ]];then
		B_BASH_ARRAY='true'
	else
		script_debugger "Suggestion: update to Bash v3.1 for optimal inxi output"
	fi
	# now setting qdbus/dcop for first run, some systems can have both by the way
	if [[ -n $( type -p qdbus ) ]];then
		B_QDBUS='true'
	fi
	if [[ -n $( type -p dcop ) ]];then
		B_DCOP='true'
	fi
	eval $LOGFE
}

# Determine if any of the absolutely necessary tools are absent
# No args taken.
check_script_depends()
{
	eval $LOGFS
	local app_name='' app_path=''
	# bc removed from deps for now
	local depends="df free gawk grep hostname lspci ps readlink tr uname uptime wc"
	local x_apps="xrandr xdpyinfo glxinfo"

	if [[ $B_X_RUNNING == 'true' ]];then
		for app_name in $x_apps
		do
			app_path=$( type -p $app_name )
			if [[ -z $app_path ]];then
				script_debugger "Resuming in non X mode: $app_name not found in path"
				B_X_RUNNING='false'
				break
			fi
		done
	fi

	app_name=''

	for app_name in $depends
	do
		app_path=$( type -p $app_name )
		if [[ -z $app_path ]];then
			error_handler 5 "$app_name"
		fi
	done
	eval $LOGFE
}

## note: this is now running inside each gawk sequence directly to avoid exiting gawk
## looping in bash through arrays, then re-entering gawk to clean up, then writing back to array
## in bash. For now I'll leave this here because there's still some interesting stuff to get re methods
# Enforce boilerplate and buzzword filters
# args: $1 - BAN_LIST_NORMAL/BAN_LIST_CPU; $2 - string to sanitize
sanitize_characters()
{
	eval $LOGFS
	# Cannot use strong quotes to unquote a string with pipes in it!
	# bash will interpret the |'s as usual and try to run a subshell!
	# Using weak quotes instead, or use '"..."'
	echo "$2" | gawk "
	BEGIN {
		IGNORECASE=1
	}
	{
		gsub(/${!1}/,\"\")
		gsub(/ [ ]+/,\" \")    ## ([ ]+) with (space)
		gsub(/^ +| +$/,\"\")   ## (pipe char) with (nothing)
		print                  ## prints (returns) cleaned input
	}"
	eval $LOGFE
}

# Filter boilerplate & buzzwords.
# args: $1 - quoted: "$@" array of ban terms
make_ban_lists()
{
	eval $LOGFS
	local ban_list=''
	# Iterate over $@
	## note: this is a weird, non-intuitive method, needs some documentation or rewriting
	## if you declare ban_string it stops working, have to read up on this
	for ban_string
	do
		# echo "term=\"$ban_string\"" # >&2
		if [[ ${ban_string:0:1} = $'\2' ]];then
			ban_list="${ban_list}${ban_list+|}${ban_string:1:${#ban_string}-1}"
		else
			# Automatically escapes [ ] ( ) . and +
			ban_list="${ban_list}${ban_list+|}$( echo "$ban_string" | gawk '{
				gsub(/([\[\]+().])/,"\\\\&")
				print
			}' )"
		fi
	done

	echo "$ban_list"
	eval $LOGFS
}
# make_ban_lists "${A_CPU_BANS[@]}";exit

# Set the colorscheme
# args: $1 = <scheme number>|<"none">
set_color_scheme()
{
	eval $LOGFS
	local i='' a_script_colors='' a_color_codes=''

	if [[ $1 -ge ${#A_COLOR_SCHEMES[@]} ]];then
		set -- 1
	fi
	# Set a global variable to allow checking for chosen scheme later
	SCHEME="$1"
	if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
		a_color_codes=( $ANSI_COLORS )
	else
		a_color_codes=( $IRC_COLORS )
	fi
	for (( i=0; i < ${#A_COLORS_AVAILABLE[@]}; i++ ))
	do
		eval "${A_COLORS_AVAILABLE[i]}=\"${a_color_codes[i]}\""
	done
	IFS=","
	a_script_colors=( ${A_COLOR_SCHEMES[$1]} )
	IFS="$ORIGINAL_IFS"
	# then assign the colors globally
	C1="${!a_script_colors[0]}"
	C2="${!a_script_colors[1]}"
	CN="${!a_script_colors[2]}"
	# ((COLOR_SCHEME++)) ## note: why is this? ##
	eval $LOGFE
}

select_default_color_scheme()
{
	eval $LOGFS
	local spacer='  ' options='' user_selection='' config_variable=''
	local config_file="$HOME/.$SCRIPT_NAME/$SCRIPT_NAME.conf"
	local irc_clear=""
	
	# don't want these printing in irc since they show literally
	if [[ $B_RUNNING_IN_SHELL != 'true' ]];then
		irc_clear=''
	fi
	# first make output neutral so it's just plain default for console client
	set_color_scheme "0"
	if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
		print_screen_output "Welcome to $SCRIPT_NAME! Please select the default $COLOR_SELECTION color scheme."
		# print_screen_output "You will see this message only one time per user account, unless you set preferences in: /etc/$SCRIPT_NAME.conf"
		print_screen_output " "
	fi
	print_screen_output "Because there is no way to know your $COLOR_SELECTION foreground/background colors, you can"
	print_screen_output "set your color preferences from color scheme option list below. 0 is no colors, 1 neutral."
	print_screen_output "After these, there are 3 sets: 1-dark or light backgrounds; 2-light backgrounds; 3-dark backgrounds."
	if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
		print_screen_output "Please note that this will set the $COLOR_SELECTION preferences only for user: $(whoami)"
	fi
	print_screen_output "------------------------------------------------------------------------------"
	for (( i=0; i < ${#A_COLOR_SCHEMES[@]}; i++ ))
	do
		if [[ $i -gt 9 ]];then
			spacer=' '
		fi
		set_color_scheme $i
		print_screen_output "$irc_clear $i)$spacer${C1}Card:${C2} nVidia G86 [GeForce 8400 GS] ${C1}X.Org${C2} 1.7.7"
	done
	set_color_scheme 0
	
	if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
		echo -n ""
		print_screen_output "$irc_clear $i)$spacer Remove all color settings. Restore $SCRIPT_NAME default."
		print_screen_output "$irc_clear $(($i+1)))$spacer Continue, no changes or config file setting."
		print_screen_output "$irc_clear $(($i+2)))$spacer Exit, use another terminal, or set manually."
		print_screen_output "------------------------------------------------------------------------------"
		print_screen_output "Simply type the number for the color scheme that looks best to your eyes for your $COLOR_SELECTION settings"
		print_screen_output "and hit ENTER. NOTE: You can bring this option list up by starting $SCRIPT_NAME with option: -c plus one of these numbers:"
		print_screen_output "94 (console, no X); 95 (terminal, X); 96 (irc, X); 97 (irc, X, in terminal); 98 (irc, no X); 99 (global)."
		print_screen_output "Your selection(s) will be stored here: $config_file"
		print_screen_output "Global overrides all individual color schemes. Individual schemes remove the global setting."
		print_screen_output "------------------------------------------------------------------------------"
		read user_selection
		if [[ -n $( grep -Es '^([0-9]+)$' <<< "$user_selection" ) && $user_selection -lt $i ]];then
			case $COLOR_SELECTION in
				irc)
					config_variable='IRC_COLOR_SCHEME'
					;;
				irc-console)
					config_variable='IRC_CONS_COLOR_SCHEME'
					;;
				irc-virtual-terminal)
					config_variable='IRC_X_TERM_COLOR_SCHEME'
					;;
				console)
					config_variable='CONSOLE_COLOR_SCHEME'
					;;
				virtual-terminal)
					config_variable='VIRT_TERM_COLOR_SCHEME'
					;;
				global)
					config_variable='GLOBAL_COLOR_SCHEME'
					;;
			esac
			set_color_scheme $user_selection
			# make file/directory first if missing
			if [[ ! -f $config_file ]];then
				if [[ ! -d $HOME/.$SCRIPT_NAME ]];then
					mkdir $HOME/.$SCRIPT_NAME
				fi
				touch $config_file
			fi
			if [[ -z $( grep -s "$config_variable=" $config_file ) ]];then
				print_screen_output "Creating and updating config file for $COLOR_SELECTION color scheme now..."
				echo "$config_variable=$user_selection" >> $config_file
			else
				print_screen_output "Updating config file for $COLOR_SELECTION color scheme now..."
				sed -i "s/$config_variable=.*/$config_variable=$user_selection/" $config_file
			fi
			# file exists now so we can go on to cleanup
			case $COLOR_SELECTION in
				irc|irc-console|irc-virtual-terminal|console|virtual-terminal)
					sed -i '/GLOBAL_COLOR_SCHEME=/d' $config_file
					;;
				global)
					sed -i -e '/VIRT_TERM_COLOR_SCHEME=/d' -e '/CONSOLE_COLOR_SCHEME=/d' -e '/IRC_COLOR_SCHEME=/d' \
					-e '/IRC_CONS_COLOR_SCHEME=/d' -e '/IRC_X_TERM_COLOR_SCHEME=/d' $config_file
					;;
			esac
		elif [[ $user_selection == $i ]];then
			print_screen_output "Removing all color settings from config file now..."
			sed -i -e '/VIRT_TERM_COLOR_SCHEME=/d' -e '/GLOBAL_COLOR_SCHEME=/d' -e '/CONSOLE_COLOR_SCHEME=/d' \
			-e '/IRC_COLOR_SCHEME=/d' -e '/IRC_CONS_COLOR_SCHEME=/d' -e '/IRC_X_TERM_COLOR_SCHEME=/d' $config_file
			set_color_scheme $DEFAULT_COLOR_SCHEME
		elif [[ $user_selection == $(( $i+1 )) ]];then
			print_screen_output "Ok, continuing $SCRIPT_NAME unchanged. You can set the colors anytime by starting with: -c 95 to 99"
			if [[ -n $CONSOLE_COLOR_SCHEME && -z $DISPLAY ]];then
				set_color_scheme $CONSOLE_COLOR_SCHEME
			elif [[ -n $VIRT_TERM_COLOR_SCHEME ]];then
				set_color_scheme $VIRT_TERM_COLOR_SCHEME
			else
				set_color_scheme $DEFAULT_COLOR_SCHEME
			fi
		elif [[ $user_selection == $(( $i+2 )) ]];then
			set_color_scheme $DEFAULT_COLOR_SCHEME
			print_screen_output "Ok, exiting $SCRIPT_NAME now. You can set the colors later."
			exit 0
		else
			print_screen_output "Error - Invalid Selection. You entered this: $user_selection"
			print_screen_output " "
			select_default_color_scheme
		fi
	else
		print_screen_output "------------------------------------------------------------------------------"
		print_screen_output "After finding the scheme number you like, simply run this again in a terminal to set the configuration"
		print_screen_output "data file for your irc client. You can set color schemes for the following: start inxi with -c plus:"
		print_screen_output "94 (console, no X); 95 (terminal, X); 96 (irc, X); 97 (irc, X, in terminal); 98 (irc, no X); 99 (global) - like: $SCRIPT_NAME -c 97"
		exit 0
	fi

	eval $LOGFE
}

########################################################################
#### UTILITY FUNCTIONS
########################################################################

#### -------------------------------------------------------------------
#### error handler, debugger, script updater
#### -------------------------------------------------------------------

# Error handling
# args: $1 - error number; $2 - optional, extra information
error_handler()
{
	eval $LOGFS
	local error_message=''

	# assemble the error message
	case $1 in
		2)	error_message="large flood danger, debug buffer full!"
			;;
		3)	error_message="unsupported color scheme number: $2"
			;;
		4)	error_message="unsupported verbosity level: $2"
			;;
		5)	error_message="dependency not met: $2 not found in path"
			;;
		6)	error_message="/proc not found! Quitting..."
			;;
		7)	error_message="One of the options you entered in your script parameters: $2\nis not supported.The option may require extra arguments to work.\nFor supported options (and their arguments), check the help menu: $SCRIPT_NAME -h"
			;;
		8)	error_message="the self-updater failed, wget exited with error: $2.\nYou probably need to be root.\nHint, to make for easy updates without being root, do: chown <user name> $SCRIPT_PATH/$SCRIPT_NAME"
			;;
		9)	error_message="unsupported debugging level: $2"
			;;
		10)
			error_message="the alt download url you provided: $2\nappears to be wrong, download aborted. Please note, the url\nneeds to end in /, without $SCRIPT_NAME, like: http://yoursite.com/downloads/"
			;;
		11)
			error_message="unsupported testing option argument: -! $2"
			;;
		12)
			error_message="the svn branch download url: $2\nappears to be empty currently. Make sure there is an actual svn branch version\nactive before you try this again. Check http://code.google.com/p/inxi\nto verify the branch status."
			;;
		13)
			error_message="The -t option requires the following extra arguments (no spaces between letters/numbers):\nc m cm [required], for example: -t cm8 OR -t cm OR -t c9\n(numbers: 1-20, > 5 throttled to 5 in irc clients) You entered: $2"
			;;
		14)
			error_message="failed to write correctly downloaded $SCRIPT_NAME to location $SCRIPT_HOME.\nThis usually means you don't have permission to write to that location, maybe you need to be root?\nThe operation failed with error: $2"
			;;
		15)
			error_message="failed set execute permissions on $SCRIPT_NAME at location $SCRIPT_HOME.\nThis usually means you don't have permission to set permissions on files there, maybe you need to be root?\nThe operation failed with error: $2"
			;;
		16)
			error_message="$SCRIPT_NAME downloaded but the file data is corrupted. Purged data and using current version."
			;;
		*)	error_message="error unknown: $@"
			set -- 99
			;;
	esac
	# then print it and exit
	print_screen_output "Error $1: $error_message"
	eval $LOGFE
	exit $1
}

# prior to script up set, pack the data into an array
# then we'll print it out later.
# args: $1 - $@ debugging string text
script_debugger()
{
	eval $LOGFS
	if [[ $B_SCRIPT_UP == 'true' ]];then
		# only return if debugger is off and no pre start up errors have occured
		if [[ $DEBUG -eq 0 && $DEBUG_BUFFER_INDEX -eq 0 ]];then
			return 0
		# print out the stored debugging information if errors occured
		elif [[ $DEBUG_BUFFER_INDEX -gt 0 ]];then
			for (( DEBUG_BUFFER_INDEX=0; DEBUG_BUFFER_INDEX < ${#A_DEBUG_BUFFER[@]}; DEBUG_BUFFER_INDEX++ ))
			do
				print_screen_output "${A_DEBUG_BUFFER[$DEBUG_BUFFER_INDEX]}"
			done
			DEBUG_BUFFER_INDEX=0
		fi
		# or print out normal debugger messages if debugger is on
		if [[ $DEBUG -gt 0 ]];then
			print_screen_output "$1"
		fi
	else
		if [[ $B_DEBUG_FLOOD == 'true' && $DEBUG_BUFFER_INDEX -gt 10 ]];then
			error_handler 2
		# this case stores the data for later printout, will print out only
		# at B_SCRIPT_UP == 'true' if array index > 0
		else
			A_DEBUG_BUFFER[$DEBUG_BUFFER_INDEX]="$1"
			# increment count for next pre script up debugging error
			(( DEBUG_BUFFER_INDEX++ ))
		fi
	fi
	eval $LOGFE
}

# NOTE: no logging available until get_parameters is run, since that's what sets logging
# in order to trigger earlier logging manually set B_USE_LOGGING to true in top variables.
# $1 alone: logs data; $2 with or without $3 logs func start/end.
# $1 type (fs/fe/cat/raw) or logged data; [$2 is $FUNCNAME; [$3 - function args]]
log_function_data()
{
	if [ "$B_USE_LOGGING" == 'true' ];then
		local logged_data='' spacer='   ' line='----------------------------------------'
		case $1 in
			fs)
				logged_data="Function: $2 - Primary: Start"
				if [ -n "$3" ];then
					logged_data="$logged_data\n${spacer}Args: $3"
				fi
				spacer=''
				;;
			fe)
				logged_data="Function: $2 - Primary: End"
				spacer=''
				;;
			cat)
				if [[ $B_LOG_FULL_DATA == 'true' ]];then
					logged_data="\n$line\nFull file data: cat $2\n\n$( cat $2 )\n$line\n"
					spacer=''
				fi
				;;
			raw)
				if [[ $B_LOG_FULL_DATA == 'true' ]];then
					logged_data="\n$line\nRaw system data:\n\n$2\n$line\n"
					spacer=''
				fi
				;;
			*)
				logged_data="$1"
				;;
		esac
		# Create any required line breaks and strip out escape color code, either ansi (case 1)or irc (case 2).
		# This pattern doesn't work for irc colors, if we need that someone can figure it out
		if [[ -n $logged_data ]];then
			if [[ $B_LOG_COLORS != 'true' ]];then
				echo -e "${spacer}$logged_data" | sed -r 's/\x1b\[[0-9]{1,2}(;[0-9]{1,2}){0,2}m//g' >> $LOG_FILE
			else
				echo -e "${spacer}$logged_data" >> $LOG_FILE
			fi
		fi
	fi
}

# called in the initial -@ 10 script args setting so we can get logging as soon as possible
# will have max 3 files, inxi.log, inxi.1.log, inxi.2.log
create_rotate_logfiles()
{
	if [[ ! -d $SCRIPT_DATA_DIR ]];then
		mkdir $SCRIPT_DATA_DIR
	fi
	# do the rotation if logfile exists
	if [[ -f $LOG_FILE ]];then
		# copy if present second to third
		if [[ -f $LOG_FILE_1 ]];then
			mv -f $LOG_FILE_1 $LOG_FILE_2
		fi
		# then copy initial to second
		mv -f $LOG_FILE $LOG_FILE_1
	fi
	# now create the logfile
	touch $LOG_FILE
	# and echo the start data
	echo "=========================================================" >> $LOG_FILE
	echo "START $SCRIPT_NAME LOGGING:"                               >> $LOG_FILE
	echo "Script started: $( date +%Y-%m-%d-%H:%M:%S )"              >> $LOG_FILE
	echo "=========================================================" >> $LOG_FILE
}

# args: $1 - download url, not including file name; $2 - string to print out
# note that $1 must end in / to properly construct the url path
script_self_updater()
{
	eval $LOGFS
	local wget_error=0 file_contents=''
	print_screen_output "Starting $SCRIPT_NAME self updater."
	print_screen_output "Currently running $SCRIPT_NAME version number: $SCRIPT_VERSION_NUMBER"
	print_screen_output "Updating $SCRIPT_NAME in $SCRIPT_PATH using $2 as download source..."

	file_contents="$( wget -q -O - $1$SCRIPT_NAME )" || wget_error=$?
	# then do the actual download
	if [[  $wget_error -eq 0 ]];then
		# make sure the whole file got downloaded and is in the variable
		if [[ -n $( grep '###\*\*EOF\*\*###' <<< "$file_contents" ) ]];then
			echo "$file_contents" > $SCRIPT_PATH/$SCRIPT_NAME || error_handler 14 "$?"
			chmod +x $SCRIPT_PATH/$SCRIPT_NAME || error_handler 15 "$?"
			SCRIPT_VERSION_NUMBER=$( grep -im 1 'version:' $SCRIPT_PATH/$SCRIPT_NAME | gawk '{print $3}' )
			print_screen_output "Successfully updated to $2 version: $SCRIPT_VERSION_NUMBER"
			print_screen_output "To run the new version, just start $SCRIPT_NAME again."
			exit 0
		else
			error_handler 16
		fi
	fi
	# now run the error handlers on any wget failure
	if [[ $wget_error -gt 0 ]];then
		if [[ $2 == 'svn server' ]];then
			error_handler 8 "$wget_error"
		elif [[ $2 == 'alt server' ]];then
			error_handler 10 "$1"
		else
			error_handler 12 "$1"
		fi
	fi
	eval $LOGFS
}

#### -------------------------------------------------------------------
#### print / output cleaners
#### -------------------------------------------------------------------

# inxi speaks through here. When run by Konversation script alias mode, uses DCOP
# for dcop to work, must use 'say' operator, AND colors must be evaluated by echo -e
# note: dcop does not seem able to handle \n so that's being stripped out and replaced with space.
print_screen_output()
{
	eval $LOGFS
	# the double quotes are needed to avoid losing whitespace in data when certain output types are used
	local print_data="$( echo -e "$1" )"

	# just using basic debugger stuff so you can tell which thing is printing out the data. This
	# should help debug kde 4 konvi issues when that is released into sid, we'll see. Turning off
	# the redundant debugger output which as far as I can tell does exactly nothing to help debugging.
	if [[ $DEBUG -gt 5 ]];then
		if [[ $KONVI -eq 1 ]];then
			# konvi doesn't seem to like \n characters, it just prints them literally
			# print_data="$( tr '\n' ' ' <<< "$print_data" )"
			# dcop "$DCPORT" "$DCOPOBJ" say "$DCSERVER" "$DCTARGET" "konvi='$KONVI' saying : '$print_data'"
			print_data="KP-$KONVI: $print_data"
		elif [[ $KONVI -eq 2 ]];then
			# echo "konvi='$KONVI' saying : '$print_data'"
			print_data="KP-$KONVI: $print_data"
		else
			# echo "printing out: '$print_data'"
			print_data="P: $print_data"
		fi
	fi

	if [[ $KONVI -eq 1 && $B_DCOP == 'true' ]]; then ## dcop Konversation (<= 1.1 (qt3))
		# konvi doesn't seem to like \n characters, it just prints them literally
		$print_data="$( tr '\n' ' ' <<< "$print_data" )"
		dcop "$DCPORT" "$DCOPOBJ" say "$DCSERVER" "$DCTARGET" "$print_data"

	elif [[ $KONVI -eq 3 && $B_QDBUS == 'true' ]]; then ## dbus Konversation (> 1.2 (qt4))
		qdbus org.kde.konversation /irc say "$DCSERVER" "$DCTARGET" "$print_data"

#	elif [[ $IRC_CLIENT == 'X-Chat' ]]; then
#		qdbus org.xchat.service print "$print_data\n"

	else
		# the -n is needed to avoid double spacing of output in terminal
		echo -ne "$print_data\n"
	fi
	eval $LOGFE
}

## this handles all verbose line construction with indentation/line starter
## args: $1 - null (, actually: " ") or line starter; $2 - line content
create_print_line()
{
	eval $LOGFS
	printf "${C1}%-${INDENT}s${C2} %s" "$1" "$2"
	eval $LOGFE
}

# this removes newline and pipes.
# args: $1 - string to clean
remove_erroneous_chars()
{
	eval $LOGFS
	## RS is input record separator
	## gsub is substitute;
	gawk '
	BEGIN {
		RS=""
	}
	{
		gsub(/\n$/,"")         ## (newline; end of string) with (nothing)
		gsub(/\n/," ");        ## (newline) with (space)
		gsub(/^ *| *$/, "")    ## (pipe char) with (nothing)
		gsub(/  +/, " ")       ## ( +) with (space)
		gsub(/ [ ]+/, " ")     ## ([ ]+) with (space)
		gsub(/^ +| +$/, "")    ## (pipe char) with (nothing)
		printf $0
	}' "$1"      ## prints (returns) cleaned input
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### parameter handling, print usage functions.
#### -------------------------------------------------------------------

# Get the parameters. Note: standard options should be lower case, advanced or testing, upper
# args: $1 - full script startup args: $@
get_parameters()
{
	eval $LOGFS
	local opt='' wget_test='' update_flags='U!:'
	local use_short='true' # this is needed to trigger short output, every v/d/F/line trigger sets this false

	# If distro maintainers want to not allow updates, turn off that option for users
	if [[ $B_ALLOW_UPDATE == 'false' ]];then
		update_flags=''
	fi

	# the short form only runs if no args output args are used
	# no need to run through these if there are no args
	if [[ -n $1 ]];then
		while getopts Ac:CdDfFGhHiIlnNopPrsSt:uv:Vx%@:${update_flags} opt
		do
			case $opt in
			A)	B_SHOW_AUDIO='true'
				use_short='false'
				;;
			c)	if [[ -n $( grep -E '^[0-9][0-9]?$' <<< $OPTARG ) ]];then
					case $OPTARG in
						99)
							B_RUN_COLOR_SELECTOR='true'
							COLOR_SELECTION='global'
							;;
						98)
							B_RUN_COLOR_SELECTOR='true'
							COLOR_SELECTION='irc-console'
							;;
						97)
							B_RUN_COLOR_SELECTOR='true'
							COLOR_SELECTION='irc-virtual-terminal'
							;;
						96)
							B_RUN_COLOR_SELECTOR='true'
							COLOR_SELECTION='irc'
							;;
						95)
							B_RUN_COLOR_SELECTOR='true'
							COLOR_SELECTION='virtual-terminal'
							;;
						94)
							B_RUN_COLOR_SELECTOR='true'
							COLOR_SELECTION='console'
							;;
						*)	
							B_COLOR_SCHEME_SET='true'
							## note: not sure about this, you'd think user values should be overridden, but
							## we'll leave this for now
							if [[ -z $COLOR_SCHEME ]];then
								set_color_scheme "$OPTARG"
							fi
							;;
					esac
				else
					error_handler 3 "$OPTARG"
				fi
				;;
			C)	B_SHOW_CPU='true'
				use_short='false'
				;;
			d)	VERBOSITY_LEVEL=1
				use_short='false'
				;;
			D)	B_SHOW_DISK='true'
				use_short='false'
				;;
			f)	B_SHOW_CPU='true'
				B_CPU_FLAGS_FULL='true'
				use_short='false'
				;;
			F)	VERBOSITY_LEVEL=$VERBOSITY_LEVELS
				B_EXTRA_DATA='true'
				B_SHOW_DISK='true'
				B_SHOW_PARTITIONS='true'
				B_SHOW_AUDIO='true'
				use_short='false'
				;;
			G)	B_SHOW_GRAPHICS='true'
				use_short='false'
				;;
			i)	B_SHOW_IP='true'
				B_SHOW_NETWORK='true'
				use_short='false'
				;;
			I)	B_SHOW_INFO='true'
				use_short='false'
				;;
			l)	B_SHOW_LABELS='true'
				B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			n)	B_SHOW_ADVANCED_NETWORK='true'
				B_SHOW_NETWORK='true'
				B_EXTRA_DATA='true'
				use_short='false'
				;;
			N)	B_SHOW_NETWORK='true'
				use_short='false'
				;;
			o) B_SHOW_UNMOUNTED_PARTITIONS='true'
				use_short='false'
				;;
			p)	B_SHOW_PARTITIONS_FULL='true'
				B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			P)	B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			r)	B_SHOW_REPOS='true'
				use_short='false'
				;;
			
			s)	B_SHOW_SENSORS='true'
				use_short='false'
				;;
			S)	B_SHOW_SYSTEM='true'
				use_short='false'
				;;
			t)	if [[ -n $( grep -E '^(c|m|cm|mc)([1-9]|1[0-9]|20)?$' <<< $OPTARG ) ]];then
					use_short='false'
					if [[ -n $( grep -E '[0-9]+' <<< $OPTARG ) ]];then
						PS_COUNT=$( grep -Eo '[0-9]+' <<< $OPTARG )
					fi
					if [[ -n $( grep 'c' <<< $OPTARG ) ]];then
						B_SHOW_PS_CPU_DATA='true'
					fi
					if [[ -n $( grep 'm' <<< $OPTARG ) ]];then
						B_SHOW_PS_MEM_DATA='true'
					fi
				else
					error_handler 13 "$OPTARG"
				fi
				;;
			u)	B_SHOW_UUIDS='true'
				B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			v)	if [[ -n $( grep -E "^[0-9][0-9]?$" <<< $OPTARG ) && $OPTARG -le $VERBOSITY_LEVELS ]];then
					VERBOSITY_LEVEL="$OPTARG"
					if [[ $OPTARG -gt 0 ]];then
						use_short='false'
					fi
				else
					error_handler 4 "$OPTARG"
				fi
				;;
			U)	script_self_updater "$SCRIPT_DOWNLOAD" 'svn server'
				;;
			V)	print_version_info
				exit 0
				;;
			x)	B_EXTRA_DATA='true'
				;;
			h)	show_options
				exit 0
				;;
			H)	show_options 'full'
				exit 0
				;;
			## debuggers and testing tools
			%)	B_HANDLE_CORRUPT_DATA='true'
				;;
			@)	if [[ -n $( grep -E "^([1-9]|10)$" <<< $OPTARG ) ]];then
					DEBUG=$OPTARG
					exec 2>&1
					# switch on logging only for -@ 8-10
					if [[ $OPTARG -ge 8 ]];then
						if [[ $OPTARG -eq 10 ]];then
							B_LOG_COLORS='true'
						elif [[ $OPTARG -eq 9 ]];then		
							B_LOG_FULL_DATA='true'
						fi
						B_USE_LOGGING='true'
						# pack the logging data for evals function start/end
						LOGFS=$LOGFS_STRING
						LOGFE=$LOGFE_STRING
						create_rotate_logfiles # create/rotate logfiles before we do anything else
					fi
				else
					error_handler 9 "$OPTARG"
				fi
				;;
			!)	# test for various supported methods
				case $OPTARG in
					1)	B_TESTING_1='true'
						;;
					2)	B_TESTING_2='true'
						;;
					3)	B_TESTING_1='true'
						B_TESTING_2='true'
						;;
					10)
						script_self_updater "$SCRIPT_DOWNLOAD_DEV" 'dev server'
						;;
					11)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_1" 'svn: branch one server'
						;;
					12)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_2" 'svn: branch two server'
						;;
					13)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_3" 'svn: branch three server'
						;;
					14)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_4" 'svn: branch four server'
						;;
					http*)
						script_self_updater "$OPTARG" 'alt server'
						;;
					*)	error_handler 11 "$OPTARG"
						;;
				esac
				;;
			*)	error_handler 7 "$1"
				;;
			esac
		done
	fi
	## this must occur here so you can use the debugging flag to show errors
	## Reroute all error messages to the bitbucket (if not debugging)
	if [[ $DEBUG -eq 0 ]];then
		exec 2>/dev/null
	fi
	#((DEBUG)) && exec 2>&1 # This is for debugging konversation

	# after all the args have been processed, if no long output args used, run short output
	if [[ $use_short == 'true' ]];then
		B_SHOW_SHORT_OUTPUT='true'
	fi
	eval $LOGFE
}

## print out help menu, not including Testing or Debugger stuff because it's not needed
show_options()
{
	local color_scheme_count=$(( ${#A_COLOR_SCHEMES[@]} - 1 ))

	print_screen_output "$SCRIPT_NAME supports the following options. You can combine them, or list them"
	print_screen_output "one by one: Examples: $SCRIPT_NAME -v4 -c6 OR $SCRIPT_NAME -dDc 6"
	print_screen_output " "
	print_screen_output "If you start $SCRIPT_NAME with no arguments, it will show the short form."
	print_screen_output "The following options if used without -d or -v will show just that complete line:"
	print_screen_output "A,C,D,G,I,N,P,S - you can use these together to show just the lines you want to see."
	print_screen_output "If you use them with a -v level (or -d), it will show the full output for that line "
	print_screen_output "along with the output for the chosen verbosity level."
	print_screen_output "- - - - - - - - - - - - - - - - - - - - - - - - - - - - -"
	print_screen_output "Output Control Options:"
	print_screen_output "-A  Show Audio/sound card information."
	print_screen_output "-c  Available color schemes. Scheme number is required. Color selectors run a color selector option"
	print_screen_output "    prior to $SCRIPT_NAME starting which lets you set the config file value for the selection."
	print_screen_output "    Supported color schemes: 0-$color_scheme_count Example: $SCRIPT_NAME -c 11"
	print_screen_output "    Supported color selectors: 94 (console, no X); 95 (terminal, X); 96 (irc, X);"
	print_screen_output "    97 (irc, X, in terminal); 98 (irc, no X); 99 (global)."
	print_screen_output "-C  Show full CPU output, including per CPU clockspeed."
	print_screen_output "-d  Default output verbosity level, same as: $SCRIPT_NAME -v 1"
	print_screen_output "-D  Show full hard Disk info, not only model, ie: /dev/sda ST380817AS 80.0GB."
	print_screen_output "-f  Show all cpu flags used, not just the short list. Not shown with -F to avoid spamming."
	print_screen_output "-F  Show Full output for $SCRIPT_NAME. Does not show extra verbose options like -f -u -l -o -p or -t"
	print_screen_output "-G  Show Graphic card information (card, x type, resolution, glx renderer, version)."
	print_screen_output "-i  Show Wan IP address, and shows local interfaces (requires ifconfig network tool)."
	print_screen_output "    Not shown with -F for user security reasons, you shouldn't paste your local/wan IP."
	print_screen_output "-I  Show Information: processes, uptime, memory, irc client, inxi version."
	print_screen_output "-l  Show partition labels. Default: short partition -P. For full -p output, use: -pl (or -plu)."
	print_screen_output "-n  Show Advanced Network card information. Same as -Nnx. Shows interface, speed, mac id, state, etc."
	print_screen_output "-N  Show Network card information. With -x, shows PCI BusID, Port number."
	print_screen_output "-o  Show unmounted partition information (includes UUID and LABEL if available)."
	print_screen_output "    Shows file system type if you have file installed, if you are root OR if you have"
	print_screen_output "    added to /etc/sudoers (sudo v. 1.7 or newer): <username> ALL = NOPASSWD: /usr/bin/file (sample)"
	print_screen_output "-p  Show full partition information (-P plus all other detected partitions)."
	print_screen_output "-P  Show Partition information (shows what -v 4 would show, but without extra data)."
	print_screen_output "    Shows, if detected: / /boot /home /tmp /usr /var. Use -p to see all mounted partitions."
	print_screen_output "-r  Show distro repository data. Currently supported repo types: APT; PACMAN; PISI; YUM."
	print_screen_output "-s  Show sensors output (if sensors installed/configured): mobo/cpu/gpu temp; detected fan speeds."
	print_screen_output "    Gpu temp only for Fglrx/Nvidia drivers. Nvidia shows screen number for > 1 screens."
	print_screen_output "-S  Show System information: host name, kernel, distro"
	print_screen_output "-t  Show processes. Requires extra options: c (cpu) m (memory) cm (cpu+memory). If followed by numbers 1-20,"
	print_screen_output "    shows that number of processes for each type (default: $PS_COUNT; if in irc, max: 5): -t cm10"
	print_screen_output "    Make sure to have no space between letters and numbers (-t cm10 -right, -t cm 10 -wrong)."
	print_screen_output "-u  Show partition UUIDs. Default: short partition -P. For full -p output, use: -pu (or -plu)."
	print_screen_output "-v  Script verbosity levels. Verbosity level number is required."
	print_screen_output "    Supported levels: 0-${VERBOSITY_LEVELS} Example: $SCRIPT_NAME -v 4"
	print_screen_output "    0 - short output, same as: $SCRIPT_NAME"
	print_screen_output "    1 - basic verbose, same as: $SCRIPT_NAME -d"
	print_screen_output "    2 - Also show networking card data"
	print_screen_output "    3 - Also show hard disk names as detected."
	print_screen_output "    4 - Also show partition size/filled data for (if present):/, /home, /var/, /boot"
	print_screen_output "    5 - For multicore systems, also shows: per core clock speeds; audio card; full disk data."
	print_screen_output "-x  Show extra data: bogomips on Cpu; driver version (if available) for Network/Audio;"
	print_screen_output "    for network, audio cards, shows PCI Bus ID number also;"
	print_screen_output "    direct rendering status for Graphics (in X). Only works with verbose or line output;"
	print_screen_output "    shows (for single gpu, nvidia driver) screen number gpu is running on."
	print_screen_output "    Shows hdd temp with disk data if you have hddtemp installed, if you are root OR if you have"
	print_screen_output "    added to /etc/sudoers (sudo v. 1.7 or newer): <username> ALL = NOPASSWD: /usr/sbin/hddtemp (sample)"
	print_screen_output "    For -t, adds memory use output to cpu (-tx c), and cpu use to memory (-tx m)."
	print_screen_output " "
	print_screen_output "Additional Options:"
	print_screen_output "-h - this help menu."
	if [[ $B_ALLOW_UPDATE == 'true' ]];then
		print_screen_output "-U  Auto-update script. Note: if you installed as root, you"
		print_screen_output "    must be root to update, otherwise user is fine."
	fi
	print_screen_output "-V  $SCRIPT_NAME version information. Prints information then exits."
	print_screen_output "-%  Overrides defective or corrupted data."
	print_screen_output "-@  Triggers debugger output. Requires debugging level 1-10 (8-10 - logging)."
	print_screen_output "    8 - basic logging; 9 - full file/sys info logging; 10 - color logging."
	if [[ $1 == 'full' ]];then
		print_screen_output " "
		print_screen_output "Developer and Testing Options (Advanced):"
		print_screen_output "-! 1 - Sets testing flag B_TESTING_1='true' to trigger testing condition 1."
		print_screen_output "-! 2 - Sets testing flag B_TESTING_2='true' to trigger testing condition 2."
		print_screen_output "-! 3 - Sets flags B_TESTING_1='true' and B_TESTING_2='true'."
		print_screen_output "-! 10 - Triggers an update from the primary dev download server instead of svn."
		print_screen_output "-! 11 - Triggers an update from svn branch one - if present, of course."
		print_screen_output "-! 12 - Triggers an update from svn branch two - if present, of course."
		print_screen_output "-! 13 - Triggers an update from svn branch three - if present, of course."
		print_screen_output "-! 14 - Triggers an update from svn branch four - if present, of course."
		print_screen_output "-! <http://......> - Triggers an update from whatever server you list."
		print_screen_output " "
	fi
	print_screen_output " "
}

## print out version information for -V/--version
print_version_info()
{
	local last_modified=$( grep -im 1 'date:' $SCRIPT_PATH/$SCRIPT_NAME | gawk '{print $3,$4,$5}' )

	print_screen_output "$SCRIPT_NAME - the universal, portable, system info script for irc."
	print_screen_output "Version: $SCRIPT_VERSION_NUMBER"
	print_screen_output "Script Last Modified: $last_modified"
	print_screen_output "Script Location: $SCRIPT_PATH"
	print_screen_output " "
	print_screen_output "Tested with Irssi, Xchat, Konversation, BitchX, KSirc, ircII,"
	print_screen_output "Gaim/Pidgin, Weechat, KVIrc and Kopete."
	print_screen_output " "
	print_screen_output "This script is a fork of Infobash 3.02, which is:"
	print_screen_output "Copyright (C) 2005-2007  Michiel de Boer a.k.a. locsmif"
	print_screen_output "Subsequent changes and modifications (after Infobash 3.02) are:"
	print_screen_output "Copyright (C) 2008-10 Scott Rogers, Harald Hope, aka trash80 & h2"
	print_screen_output " "
	print_screen_output "This program is free software; you can redistribute it and/or modify"
	print_screen_output "it under the terms of the GNU General Public License as published by"
	print_screen_output "the Free Software Foundation; either version 3 of the License, or"
	print_screen_output "(at your option) any later version."
}

########################################################################
#### MAIN FUNCTIONS
########################################################################

#### -------------------------------------------------------------------
#### initial startup stuff
#### -------------------------------------------------------------------

# Determine where inxi was run from, set IRC_CLIENT and IRC_CLIENT_VERSION
get_start_client()
{
	eval $LOGFS
	local irc_client_path='' irc_client_path_lower='' non_native_konvi='' i=''
	local b_non_native_app='false' pppid='' app_working_name=''
	local b_qt4_konvi='false'

	if tty >/dev/null;then
		IRC_CLIENT='Shell'
		unset IRC_CLIENT_VERSION
		B_RUNNING_IN_SHELL='true'
	elif [[ -n $PPID && -f /proc/$PPID/exe ]];then
		irc_client_path=$( readlink /proc/$PPID/exe )
		irc_client_path_lower=$( tr '[:upper:]' '[:lower:]' <<< $irc_client_path )
		app_working_name=$( basename $irc_client_path_lower )
		# handles the xchat/sh/bash/dash cases, and the konversation/perl cases, where clients
		# report themselves as perl or unknown shell. IE:  when konversation starts inxi
		# from inside itself, as a script, the parent is konversation/xchat, not perl/bash etc
		# note: perl can report as: perl5.10.0, so it needs wildcard handling
		case $app_working_name in
			bash|dash|sh|perl*)	# We want to know who wrapped it into the shell or perl.
				pppid="$( ps -p $PPID -o ppid --no-headers | sed 's/ //g' )"
				if [[ -n $pppid && -f /proc/$pppid/exe ]];then
					irc_client_path="$( readlink /proc/$pppid/exe )"
					irc_client_path_lower="$( tr '[:upper:]' '[:lower:]' <<< $irc_client_path )"
					app_working_name=$( basename $irc_client_path_lower )
					b_non_native_app='true'
				fi
				;;
		esac
		# replacing loose detection with tight detection, bugs will be handled with app names
		# as they appear.
		case $app_working_name in
			# check for shell first
			bash|dash|sh)
				unset IRC_CLIENT_VERSION
				IRC_CLIENT="Shell wrapper"
				;;
			# now start on irc clients, alphabetically
			bitchx)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk '
				/Version/ {
					a=tolower($2)
					gsub(/[()]|bitchx-/,"",a)
					print a
					exit
				}
				$2 == "version" {
					a=tolower($3)
					sub(/bitchx-/,"",a)
					print a
					exit
				}' )"
				B_CONSOLE_IRC='true'
				IRC_CLIENT="BitchX"
				;;
			finch)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				B_CONSOLE_IRC='true'
				IRC_CLIENT="Finch"
				;;
			gaim)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="Gaim"
				;;
			ircii)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $3
				}' )"
				B_CONSOLE_IRC='true'
				IRC_CLIENT="ircII"
				;;
			irssi-text|irssi)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				B_CONSOLE_IRC='true'
				IRC_CLIENT="Irssi"
				;;
			konversation) ## konvi < 1.2 (qt4)
				# this is necessary to avoid the dcop errors from starting inxi as a /cmd started script
				if [[ $b_non_native_app == 'true' ]];then  ## true negative is confusing
					KONVI=2
				else # if native app
					KONVI=1
				fi
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk '
				/Konversation:/ {
					for ( i=2; i<=NF; i++ ) {
						if (i == NF) {
							print $i
						}
						else {
							printf $i" "
						}
					}
					exit
				}' )"

				T=($IRC_CLIENT_VERSION)
				if [[ ${T[0]} == *+* ]];then
					# < Sho_> locsmif: The version numbers of SVN versions look like this:
					#         "<version number of last release>+ #<build number", i.e. "1.0+ #3177" ...
					#         for releases we remove the + and build number, i.e. "1.0" or soon "1.0.1"
					IRC_CLIENT_VERSION=" CVS $IRC_CLIENT_VERSION"
					T2="${T[0]/+/}"
				else
					IRC_CLIENT_VERSION=" ${T[0]}"
					T2="${T[0]}"
				fi
				# Remove any dots except the first, and make sure there are no trailing zeroes,
				T2=$( echo "$T2" | gawk '{
					sub(/\./, " ")
					gsub(/\./, "")
					sub(/ /, ".")
					printf("%g\n", $0)
				}' )
				# Since Konversation 1.0, the DCOP interface has changed a bit: dcop "$DCPORT" Konversation ..etc
				# becomes : dcop "$DCPORT" default ... or dcop "$DCPORT" irc ..etc. So we check for versions smaller
				# than 1 and change the DCOP parameter/object accordingly.
				if [[ ${T2} -lt 1 ]];then
					DCOPOBJ="Konversation"
				fi
				IRC_CLIENT="Konversation"
				;;
			kopete)
				IRC_CLIENT_VERSION=" $( kopete -v | gawk '
				/Kopete:/ {
					print $2
					exit
				}' )"
				IRC_CLIENT="Kopete"
				;;
			kvirc)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v 2>&1 | gawk '{
					for ( i=2; i<=NF; i++) {
				 		if ( i == NF ) {
				 			print $i
				 		}
				 		else {
				 			printf $i" "
				 		}
				 	}
				 	exit
				 }' )"
				IRC_CLIENT="KVIrc"
				;;
			pidgin)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="Pidgin"
				;;
			quassel*)
				# sample: quassel -v
				# Qt: 4.5.0
				# KDE: 4.2.65 (KDE 4.2.65 (KDE 4.3 >= 20090226))
				# Quassel IRC: v0.4.0 [+60] (git-22effe5)
				# note: early < 0.4.1 quassels do not have -v
				IRC_CLIENT_VERSION=" $( $irc_client_path -v 2>/dev/null | gawk -F ': ' '
				BEGIN {
					IGNORECASE=1
					clientVersion=""
				}
				/Quassel IRC/ {
					clientVersion = $2
				}
				END {
					# this handles pre 0.4.1 cases with no -v
					if ( clientVersion == "" ) {
						clientVersion = "(pre v0.4.1)"
					}
					print clientVersion
				}' )"
				# now handle primary, client, and core. quasselcore doesn't actually
				# handle scripts with exec, but it's here just to be complete
				case $app_working_name in
					quassel)
						IRC_CLIENT="Quassel [M]"
						;;
					quasselclient)
						IRC_CLIENT="Quassel"
						;;
					quasselcore)
						IRC_CLIENT="Quassel (core)"
						;;
				esac
				;;
			weechat-curses)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v ) "
				B_CONSOLE_IRC='true'
				IRC_CLIENT="Weechat"
				;;
			xchat-gnome)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="X-Chat-Gnome"
				;;
			xchat)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="X-Chat"
				;;
			# then do some perl type searches, do this last since it's a wildcard search
			perl*|ksirc|dsirc)
				unset IRC_CLIENT_VERSION
				# KSirc is one of the possibilities now. KSirc is a wrapper around dsirc, a perl client
				get_cmdline $PPID
				for (( i=0; i <= $CMDL_MAX; i++ ))
				do
					case ${A_CMDL[i]} in
						*dsirc*)
						IRC_CLIENT="KSirc"
						# Dynamic runpath detection is too complex with KSirc, because KSirc is started from
						# kdeinit. /proc/<pid of the grandparent of this process>/exe is a link to /usr/bin/kdeinit
						# with one parameter which contains parameters separated by spaces(??), first param being KSirc.
						# Then, KSirc runs dsirc as the perl irc script and wraps around it. When /exec is executed,
						# dsirc is the program that runs inxi, therefore that is the parent process that we see.
						# You can imagine how hosed I am if I try to make inxi find out dynamically with which path
						# KSirc was run by browsing up the process tree in /proc. That alone is straightjacket material.
						# (KSirc sucks anyway ;)
						IRC_CLIENT_VERSION=" $( ksirc -v | gawk '
						/KSirc:/ {
							print $2
							exit
						}' )"
						break
						;;
					esac
				done
				B_CONSOLE_IRC='true'
				if [[ -z $IRC_CLIENT_VERSION ]];then
					IRC_CLIENT="Unknown Perl client"
				fi
				;;
			# then unset, set unknown data
			*)	
				IRC_CLIENT="Unknown : ${irc_client_path##*/}"
				unset IRC_CLIENT_VERSION
				;;
		esac
		if [[ $SHOW_IRC -lt 2 ]];then
			unset IRC_CLIENT_VERSION
		fi
	else
		## lets look to see if qt4_konvi is the parent.  There is no direct way to tell, so lets infer it.
		## because $PPID does not work with qt4_konvi, the above case does not work
		b_qt4_konvi=$( is_this_qt4_konvi )
		if [[ $b_qt4_konvi == 'true' ]];then
			KONVI=3
			IRC_CLIENT='Konversation'
			IRC_CLIENT_VERSION=" $( konversation -v | gawk '
				/Konversation:/ {
					for ( i=2; i<=NF; i++ ) {
						if (i == NF) {
							print $i
						}
						else {
							printf $i" "
						}
					}
					exit
				}' )"
		else
			IRC_CLIENT="PPID=\"$PPID\" - empty?"
			unset IRC_CLIENT_VERSION
		fi
	fi
	log_function_data "IRC_CLIENT: $IRC_CLIENT :: IRC_CLIENT_VERSION: $IRC_CLIENT_VERSION :: PPID: $PPID"
	eval $LOGFE
}

## try to infer the use of Konversation >= 1.2, which shows $PPID improperly
## no known method of finding Kovni >= 1.2 as parent process, so we look to see if it is running,
## and all other irc clients are not running.  
is_this_qt4_konvi()
{
	local konvi_qt4_client='' konvi_dbus_exist='' konvi_pid='' konvi_home_dir='' 
	local konvi='' konvi_qt4_ver='' b_is_qt4=''
	
	# fringe cases can throw error, always if untested app, use 2>/dev/null after testing if present
	if [[ $B_QDBUS == 'true' ]];then
		konvi_dbus_exist=$( qdbus 2>/dev/null | grep "org.kde.konversation" )
	fi
	 
	if [[ -n $konvi_dbus_exist && -e /usr/share/kde4/apps/konversation ]]; then
		konvi_pid=$( ps -A | grep -i 'konversation' )
		konvi_pid=$( echo $konvi_pid | gawk '{ print $1 }' ) 
		konvi_home_dir=$( readlink /proc/$konvi_pid/exe )
		konvi=$( echo $konvi_home_dir | sed "s/\// /g" )
		konvi=($konvi)

		if [[ ${konvi[2]} == 'konversation' ]];then	
			konvi_qt4_ver=$( konversation -v | grep -i 'konversation' )
			konvi_qt4_client=$( echo "$konvi_qt4_ver" | gawk '{ print $2 }' )

			if [[ $konvi_qt4_client > 1.1 ]]; then
				b_is_qt4='true'
			fi
		fi
	else
		konvi_qt4="qt3"
		b_is_qt4='false'
	fi

	echo $b_is_qt4
	## for testing this module
	#qdbus org.kde.konversation /irc say $1 $2 "getpid_dir: $konvi_qt4  qt4_konvi: $konvi_qt4_ver   verNum: $konvi_qt4_ver_num  pid: $konvi_pid ppid: $PPID  konvi_home_dir: ${konvi[2]}"
}

# This needs some cleanup and comments, not quite understanding what is happening, although generally output is known
# Parse the null separated commandline under /proc/<pid passed in $1>/cmdline
# args: $1 - $PPID
get_cmdline()
{
	eval $LOGFS
	local i=0 ppid=$1

	if [[ ! -e /proc/$ppid/cmdline ]];then
		echo 0
		return
	fi
	##print_screen_output "Marker"
	##print_screen_output "\$ppid='$ppid' -=- $(< /proc/$ppid/cmdline)"
	unset A_CMDL
	## note: need to figure this one out, and ideally clean it up and make it readable
	while read -d $'\0' L && [[ $i -lt 32 ]]
	do
		A_CMDL[i++]="$L" ## note: make sure this is valid - What does L mean? ##
	done < /proc/$ppid/cmdline
	##print_screen_output "\$i='$i'"
	if [[ $i -eq 0 ]];then
		A_CMDL[0]=$(< /proc/$ppid/cmdline)
		if [[ -n ${A_CMDL[0]} ]];then
			i=1
		fi
	fi
	CMDL_MAX=$i
	log_function_data "CMDL_MAX: $CMDL_MAX"
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### get data types
#### -------------------------------------------------------------------
## create array of sound cards installed on system, and if found, use asound data as well
get_audio_data()
{
	eval $LOGFS
	local i='' alsa_data='' alsa_driver='' device_count='' lsusb_path=''
	local usb_proc_file='' array_count='' usb_id='' usb_data=''

	IFS=$'\n'
	# this first step handles the drivers for cases where the second step fails to find one
	device_count=$( echo "$Lspci_Data" | egrep -ic '(multimedia audio controller|audio device)' )
	if [[ $device_count -eq 1 ]] && [[ $B_ASOUND_DEVICE_FILE == 'true' ]];then
		alsa_driver=$( gawk -F ']: ' '
		BEGIN {
			IGNORECASE=1
		}
		# filtering out modems and usb devices like webcams, this might get a
		# usb audio card as well, this will take some trial and error
		$0 !~ /modem/ || $0 !~ /usb/ {
			driver=gensub( /^(.+)( - )(.+)$/, "\\1", 1, $2 )
			gsub(/^ +| +$/,"",driver)
			if ( driver != "" ){
				print driver
			}
		}'  $FILE_ASOUND_DEVICE )
		log_function_data 'cat' "$FILE_ASOUND_DEVICE"
	fi

	# this is to safeguard against line breaks from results > 1, which if inserted into following
	# array will create a false array entry. This is a hack, not a permanent solution.
	alsa_driver=$( echo $alsa_driver )
	# now we'll build the main audio data, card name, driver, and port. If no driver is found,
	# and if the first method above is not null, and one card is found, it will use that instead.
	A_AUDIO_DATA=( $( echo "$Lspci_Data" | gawk -F ': ' -v alsaDriver="$alsa_driver" '
	BEGIN {
		IGNORECASE=1
	}
	/multimedia audio controller|audio device/ {
		audioCard=gensub(/^[0-9a-f:.]+ [^:]+: (.+)$/,"\\1","g",$0)
		# The doublequotes are necessary because of the pipes in the variable.
		gsub(/'"$BAN_LIST_NORMAL"'/, "", audioCard)
		gsub(/,/, " ", audioCard)
		gsub(/^ +| +$/, "", audioCard)
		gsub(/ [ \t]+/, " ", audioCard)
		aPciBusId[audioCard] = gensub(/(^[0-9a-f:\.]+) [^:]+: .+$/,"\\1","g",$0)
		cards[audioCard]++

		# loop until you get to the end of the data block
		while (getline && !/^$/) {
			gsub( /,/, "", $0 )
			if (/driver in use/) {
				drivers[audioCard] = drivers[audioCard] gensub( /(.*): (.*)/ ,"\\2", "g" ,$0 ) ""
			}
			else if (/kernel modules:/) {
				modules[audioCard] = modules[audioCard] gensub( /(.*): (.*)/ ,"\\2" ,"g" ,$0 ) ""
			}
			else if (/I\/O/) {
				portsTemp = gensub(/\t*I\/O ports at (.*) \[.*\]/,"\\1","g",$0)
				ports[audioCard] = ports[audioCard] portsTemp " "
			}
		}
	}

	END {
		j=0
		for (i in cards) {
			useDrivers=""
			useModules=""
			usePorts=""
			usePciBusId=""
			 
			if (cards[i]>1) {
				a[j]=cards[i]"x "i
				if (drivers[i] != "") {
					useDrivers=drivers[i]
				}
			}
			else {
				a[j]=i
				# little trick here to try to catch the driver if there is
				# only one card and it was null, from the first test of asound/cards
				if (drivers[i] != "") {
					useDrivers=drivers[i]
				}
				else if ( alsaDriver != "" ) {
					useDrivers=alsaDriver
				}
			}
			if (ports[i] != "") {
				usePorts = ports[i]
			}
			if (modules[i] != "" ) {
				useModules = modules[i]
			}
			if ( aPciBusId[i] != "" ) {
				usePciBusId = aPciBusId[i]
			}
			# create array primary item for master array
			sub( / $/, "", usePorts ) # clean off trailing whitespace
			print a[j] "," useDrivers "," usePorts "," useModules "," usePciBusId
			j++
		}
	}') )

	# in case of failure of first check do this instead
	if [[ ${#A_AUDIO_DATA[@]} -eq 0 ]] && [[ $B_ASOUND_DEVICE_FILE == 'true' ]];then
		A_AUDIO_DATA=( $( gawk -F ']: ' '
		BEGIN {
			IGNORECASE=1
		}
		$1 !~ /modem/ && $2 !~ /modem/ {
			card=gensub( /^(.+)( - )(.+)$/, "\\3", 1, $2 )
			driver=gensub( /^(.+)( - )(.+)$/, "\\1", 1, $2 )
			if ( card != "" ){
				print card","driver
			}
		}'  $FILE_ASOUND_DEVICE ) )
	fi

	# alsa usb detection by damentz
	# for every sound card symlink in /proc/asound - display information about it
	lsusb_path=$( type -p lsusb )
	for usb_proc_file in /proc/asound/*
	do
		# if lsusb exists, the file is a symlink, and contains an important usb exclusive file: continue
		if [[ -n $lsusb_path && -L $usb_proc_file && -e $usb_proc_file/usbid  ]]; then
			# send error messages of lsusb to /dev/null as it will display a bunch if not a super user
			# also, find the contents of usbid in lsusb and print everything after the 7th word on the
			# corresponding line. Finally, strip out commas as they will change the driver :)
			usb_id=$( cat $usb_proc_file/usbid )
			usb_data=$( $lsusb_path -v 2>/dev/null | grep "$usb_id" )
			log_function_data 'raw' "usb_data:\n$usb_data"
			usb_data=$( gawk '{
				gsub( /,/, " ", $0 )
				for( i=7; i <= NF; i++ ) {
					printf( $i " " )
				}
			}' <<< "$usb_data" )
			# this method is interesting, it shouldn't work but it does
			#A_AUDIO_DATA=( "${A_AUDIO_DATA[@]}" "$usb_data,snd-usb-audio,," )
			# but until we learn why the above worked, I'm using this one, which is safer
			if [[ -n $usb_data ]];then
				array_count=${#A_AUDIO_DATA[@]}
				A_AUDIO_DATA[$array_count]="$usb_data,snd-usb-audio,,"
			fi
		fi
	done
	IFS="$ORIGINAL_IFS"

	# handle cases where card detection fails, like in PS3, where lspci gives no output, or headless boxes..
	if [[ ${#A_AUDIO_DATA[@]} -eq 0 ]];then
		A_AUDIO_DATA[0]='Failed to Detect Sound Card!'
	fi
	log_function_data "A_AUDIO_DATA: ${A_AUDIO_DATA[@]}"
	eval $LOGFE
}

get_audio_alsa_data()
{
	eval $LOGFS
	local alsa_data=''

	# now we'll get the alsa data if the file exists
	if [[ $B_ASOUND_VERSION_FILE == 'true' ]];then
		alsa_data=$( gawk '
			BEGIN {
				IGNORECASE=1
			}
			# some alsa strings have the build date in (...)
			# remove trailing . and remove possible second line if compiled by user
			$0 !~ /compile/ {
				gsub( "Driver | [(].*[)]|\.$","",$0 )
				gsub(/,/, " ", $0)
				gsub(/^ +| +$/, "", $0)
				gsub(/ [ \t]+/, " ", $0)
				if ( $0 != "" ){
					print $0
				}
		}' $FILE_ASOUND_VERSION )
		log_function_data 'cat' "$FILE_ASOUND_VERSION"
	fi
	echo "$alsa_data"
	log_function_data "alsa_data: $alsa_data"
	eval $LOGFE
}

## create A_CPU_CORE_DATA, currently with two values: integer core count; core string text
## return value cpu core count string, this helps resolve the multi redundant lines of old style output
get_cpu_core_count()
{
	eval $LOGFS
	if [[ $B_CPUINFO_FILE == 'true' ]]; then
		# load the A_CPU_TYPE_PCNT_CCNT core data array
		get_cpu_ht_multicore_smp_data
		## Because of the upcoming release of cpus with core counts over 6, a count of cores is given after Deca (10)
		# count the number of processors given
		local cpu_physical_count=${A_CPU_TYPE_PCNT_CCNT[1]}
		local cpu_core_count=${A_CPU_TYPE_PCNT_CCNT[2]}
		local cpu_type=${A_CPU_TYPE_PCNT_CCNT[0]}

		# match the numberic value to an alpha value
		case $cpu_core_count in
			1) cpu_alpha_count='Single';;
			2) cpu_alpha_count='Dual';;
			3) cpu_alpha_count='Triple';;
			4) cpu_alpha_count='Quad';;
			5) cpu_alpha_count='Penta';;
			6) cpu_alpha_count='Hexa';;
			7) cpu_alpha_count='Hepta';;
			8) cpu_alpha_count='Octa';;
			9) cpu_alpha_count='Ennea';;
			10) cpu_alpha_count='Deca';;
			*) cpu_alpha_count='Multi';;
		esac
		# create array, core count integer; core count string
		# A_CPU_CORE_DATA=( "$cpu_core_count" "$cpu_alpha_count Core$cpu_type" )
		A_CPU_CORE_DATA=( "$cpu_physical_count" "$cpu_alpha_count" "$cpu_type" "$cpu_core_count" )
	fi
	log_function_data "A_CPU_CORE_DATA: ${A_CPU_CORE_DATA[@]}"
	eval $LOGFE
}

## main cpu data collector
get_cpu_data()
{
	eval $LOGFS
	local i='' j='' cpu_array_nu='' a_cpu_working='' multi_cpu='' bits=''

	if [[ $B_CPUINFO_FILE == 'true' ]];then
		# stop script for a bit to let cpu slow down before parsing cpu /proc file
		sleep $CPU_SLEEP
		IFS=$'\n'
		A_CPU_DATA=( $( gawk -F': ' '
		BEGIN {
			IGNORECASE=1
		}
		# TAKE STRONGER NOTE: \t+ does NOT always work, MUST be [ \t]+
		# TAKE NOTE: \t+ will work for $FILE_CPUINFO, but SOME ARBITRARY FILE used for TESTING might contain SPACES!
		# Therefore PATCH to use [ \t]+ when TESTING!
		/^processor[ \t]+:/ {
			nr = $NF
		}

		/^model name|^cpu\t+:/ {
			gsub(/'"$BAN_LIST_NORMAL"'/, "", $NF )
			gsub(/'"$BAN_LIST_CPU"'/, "", $NF )
			gsub(/,/, " ", $NF)
			gsub(/^ +| +$/, "", $NF)
			gsub(/ [ \t]+/, " ", $NF)
			cpu[nr, "model"] = $NF
		}

		/^cpu MHz|^clock\t+:/ {
			if (!min) {
				min = $NF
			}
			else {
				if ($NF < min) {
					min = $NF
				}
			}

			if ($NF > max) {
				max = $NF
			}
			gsub(/MHZ/,"",$NF) ## clears out for cell cpu
			gsub(/.00[0]+$/,".00",$NF) ## clears out excessive zeros
			cpu[nr, "speed"] = $NF
		}

		/^cache size/ {
			cpu[nr, "cache"] = $NF
		}

		/^flags/ {
			cpu[nr, "flags"] = $NF
		}

		/^bogomips/ {
			cpu[nr, "bogomips"] = $NF
		}

		/vendor_id/ {
			gsub(/genuine|authentic/,"",$NF)
			cpu[nr, "vendor"] = tolower( $NF )
		}

		END {
			#if (!nr) { print ",,,"; exit } # <- should this be necessary or should bash handle that
			for ( i = 0; i <= nr; i++ ) {
				print cpu[i, "model"] "," cpu[i, "speed"] "," cpu[i, "cache"] "," cpu[i, "flags"] "," cpu[i, "bogomips"] ","  cpu[nr, "vendor"]
			}
			if (!min) {
				print "not found"
				exit
			}
			if (min != max) {
				printf("Min:%s%s Max:%s%s\n", min, "Mhz", max, "Mhz")
			}
			else {
				printf("%s %s\n", max, "Mhz")
			}
		}' $FILE_CPUINFO ) )
		log_function_data 'cat' "$FILE_CPUINFO"
	fi

	IFS="$ORIGINAL_IFS"
	log_function_data "A_CPU_DATA: ${A_CPU_DATA[@]}"
	eval $LOGFE
# 	echo getMainCpu: ${[@]}
}

## this is for counting processors and finding HT types
get_cpu_ht_multicore_smp_data()
{
	eval $LOGFS
	# in /proc/cpuinfo
	

	if [[ $B_CPUINFO_FILE == 'true' ]]; then
		A_CPU_TYPE_PCNT_CCNT=( $(
		gawk '
		BEGIN {
			FS=": "
			IGNORECASE = 1
			num_of_cores = 0
			num_of_processors = 0
			num_of_cpus = 0
			core_id[0]
			processor_id[0]
			cpu_id[0]
			type = "-"
			iter = 0
		}
		# array of logical processors, both HT and physical
		/^processor/ {
			processor_id[iter] = $NF
		}
		# array of physical cpus ids
		/^physical/ {
			cpu_id[iter] = $NF
		}
		# array of core ids
		/^core id/ {
			core_id[iter] = $NF
			iter++
		}
		END {
			## 	Look thru the array and filter same numbers.
			##	only unique numbers required
			## 	this is to get an accurate count
			##	we are only concerned with array length
			
			i = 0
			## count unique processors ##
			for ( i in processor_id ) {
				procHolder[processor_id[i]] = 1
			}
			for ( i in procHolder ) {				
				num_of_processors++
			}
			
			i = 0
			## count unique physical cpus ##
			for ( i in cpu_id ) {
				cpuHolder[cpu_id[i]] = 1
			}
			for ( i in cpuHolder ) {				
				num_of_cpus++
			}
			
			i = 0		
			## count unique cores ##
			for ( i in core_id ) {
				coreHolder[core_id[i]] = 1
			}
			for ( i in coreHolder ) {				
				num_of_cores++
			}
			
			####################################################################
			# 				algorithm
			# if > 1 processor && processor id (physical id) == core id then Hyperthreaded (HT)
			# if > 1 processor && processor id (physical id) != core id then Multi-Core Processors (MCP)
			# if > 1 processor && processor ids (physical id) > 1 then Multiple Processors (SMP)
			# if = 1 processor then single core/processor Uni-Processor (UP)
			if ( num_of_processors > 1 )
			{
				# non-multicore HT
				if ( num_of_processors == (num_of_cores * 2))
				{
					type = type "HT-"
				}
				# non-HT multi-core or HT multi-core
				if (( num_of_processors == num_of_cores) ||
					( num_of_cpus < num_of_cores))
				{
					type = type "MCP-"
				}
				# >1 cpu sockets active
				if ( num_of_cpus > 1 )
				{
					type = type "SMP-"
				}
			} else {
				type = type "UP-"
			}			
			
			print type " " num_of_cpus " " num_of_cores
		}
		' $FILE_CPUINFO 
		) )
	fi
	log_function_data "A_CPU_TYPE_PCNT_CCNT: ${A_CPU_TYPE_PCNT_CCNT[@]}"
	eval $LOGFE
}

# for more on distro id, please reference this python thread: http://bugs.python.org/issue1322
## return distro name/id if found
get_distro_data()
{
	eval $LOGFS
	local i='' j='' distro='' distro_file='' a_distro_glob=''

	# get the wild carded array of release/version /etc files if present
	shopt -s nullglob
	cd /etc
	a_distro_glob=(*[-_]{release,version})
	cd "$OLDPWD"
	shopt -u nullglob

	if [[ ${#a_distro_glob[@]} -eq 1 ]];then
		distro_file="${a_distro_glob}"
	# use the file if it's in the known good lists
	elif [[ ${#a_distro_glob[@]} -gt 1 ]];then
		for i in $DISTROS_DERIVED $DISTROS_PRIMARY
		do
			# Only echo works with ${var[@]}, not print_screen_output() or script_debugger()
			# This is a known bug, search for the word "strange" inside comments
			# echo "i='$i' a_distro_glob[@]='${a_distro_glob[@]}'"
			if [[ " ${a_distro_glob[@]} " == *" $i "* ]];then
				# Now lets see if the distro file is in the known-good working-lsb-list
				# if so, use lsb-release, if not, then just use the found file
				# this is for only those distro's with self named release/version files
				# because Mint does not use such, it must be done as below
				## this if statement requires the spaces and * as it is, else it won't work
				##
				if [[ " $DISTROS_LSB_GOOD " == *" ${i} "* ]] && [[ $B_LSB_FILE == 'true' ]];then
					distro_file='lsb-release'
				else
					distro_file="${i}"
				fi
				break
			fi
		done
	fi
	log_function_data "distro_file: $distro_file"
	# first test for the legacy antiX distro id file
	if [[ -e /etc/antiX ]];then
		distro="$( egrep -oi 'antix.*\.iso' <<< $( remove_erroneous_chars '/etc/antiX' ) | sed 's/\.iso//' )"
	# this handles case where only one release/version file was found, and it's lsb-release. This would
	# never apply for ubuntu or debian, which will filter down to the following conditions. In general
	# if there's a specific distro release file available, that's to be preferred, but this is a good backup.
	elif [[ -n $distro_file && -f $FILE_LSB_RELEASE && " $DISTROS_LSB_GOOD" == *" $distro_file "* ]];then
		distro=$( get_distro_lsb_data )
	elif [[ $distro_file == 'lsb-release' ]];then
		distro=$( get_distro_lsb_data )
	# then if the distro id file was found and it's not in the exluded primary distro file list, read it
	elif [[ -n $distro_file && -s /etc/$distro_file && " $DISTROS_EXCLUDE_LIST " != *" $distro_file "* ]];then
		distro=$( remove_erroneous_chars "/etc/$distro_file" )
	# otherwise try  the default debian/ubuntu /etc/issue file
	elif [[ -f /etc/issue ]];then
		# lsb gives more manageable and accurate output than issue, but mint should use issue for now
		# some bashism, boolean must be in parenthesis to work correctly, ie [[ $(boolean) ]] not [[ $boolean ]]
		if [[ $B_LSB_FILE == 'true' ]] && [[ -z $( grep -i 'mint' /etc/issue ) ]];then
			distro=$( get_distro_lsb_data )
		else
			distro=$( gawk '
			BEGIN {
				RS=""
			}
			{
				gsub(/\\[a-z]/, "")
				gsub(/,/, " ")
				gsub(/^ +| +$/, "")
				gsub(/ [ \t]+/, " ")
				print
			}' /etc/issue )
		fi
	fi

	if [[ ${#distro} -gt 80 ]] &&  [[ $B_HANDLE_CORRUPT_DATA != 'true' ]];then
		distro="${RED}/etc/${distro_file} corrupted, use -% to override${NORMAL}"
	fi
	## note: would like to actually understand the method even if it's not used
	# : ${distro:=Unknown distro o_O}
	## test for /etc/lsb-release as a backup in case of failure, in cases where > one version/release file
	## were found but the above resulted in null distro value
	if [[ -z $distro ]] && [[ $B_LSB_FILE == 'true' ]];then
		distro=$( get_distro_lsb_data )
	fi
	## finally, if all else has failed, give up
	if [[ -z $distro ]];then
		distro='Unknown distro o_O'
	fi

	# this handles an arch bug where /etc/arch-release is empty and /etc/issue is corrupted
	if [[ -n $( grep -i 'arch linux' <<< $distro ) ]];then
		distro='Arch Linux'
	fi

	echo "$distro"
	log_function_data "distro: $distro"
	eval $LOGFE
}

# args: $1 - optional, app, uses the app test, not being used now
get_distro_lsb_data()
{
	eval $LOGFS
	local distro=''

	if [[ $B_LSB_FILE == 'true' ]] && [[ $1 != 'app' ]];then
		distro=$( gawk -F '=' '
		BEGIN {
			IGNORECASE=1
		}
		# note: adding the spacing directly to variable to make sure distro output is null if not found
		/^DISTRIB_ID/ {
			gsub(/^ +| +$/, "", $NF)
			# this is needed because grep for "arch" is too loose to be safe
			if ( $NF == "arch" ) {
				distroId = "Arch Linux"
			}
			else if ( $NF != "n/a" ) {
				distroId = $NF " "
			}
		}
		/^DISTRIB_RELEASE/ {
			gsub(/^ +| +$/, "", $NF)
			if ( $NF != "n/a" ) {
				distroRelease = $NF " "
			}
		}
		/^DISTRIB_CODENAME/ {
			gsub(/^ +| +$/, "", $NF)
			if ( $NF != "n/a" ) {
				distroCodename = $NF " "
			}
		}
		# sometimes some distros cannot do their lsb-release files correctly, so here is
		# one last chance to get it right.
		/^DISTRIB_DESCRIPTION/ {
			gsub(/^ +| +$/, "", $0)
			if ( $NF != "n/a" ) {
				# slice out the part inside "", like: DISTRIB_DESCRIPTION="Arch Linux"
				gsub(/DISTRIB_DESCRIPTION=|"/,"",$0)
				distroDescription = $0
			}
		}
		END {
			fullString=""
			if ( distroId == "" && distroRelease == "" && distroCodename == "" && distroDescription != "" ){
				fullString = distroDescription
			}
			else {
				fullString = distroId distroRelease distroCodename
			}
			print fullString
		}
		' $FILE_LSB_RELEASE )
		log_function_data 'cat' "$FILE_LSB_RELEASE"
	fi
	# this is HORRIBLY slow, but I don't know why, it runs fast in shell
# 	if [[  -n $( type -p lsb_release ) && $1 == 'app' ]];then
# 		distro=$( echo "$( lsb_release -irc )" | gawk '
# 		{ IGNORECASE=1 }
# 		/^Distributor ID/ {
# 			gsub(/^ +| +$/, "", $NF)
# 			distroId = $NF
# 		}
# 		/^Release/ {
# 			gsub(/^ +| +$/, "", $NF)
# 			distroRelease = $NF
# 		}
# 		/^Codename/ {
# 			gsub(/^ +| +$/, "", $NF)
# 			distroCodename = $NF
# 		}
# 		END {
# 			print distroId " " distroRelease " (" distroCodename ")"
# 		}' )
# 	fi

	echo $distro
	log_function_data "distro: $distro"
	eval $LOGFE
}

get_gpu_temp_data()
{
	local gpu_temp='' gpu_fan='' screens='' screen_nu='' gpu_temp_looper=''

	# we'll try for nvidia/ati, then add if more are shown
	if [[ -n $( type -p nvidia-settings ) ]];then
		# first get the number of screens
		screens=$( nvidia-settings -q screens | gawk '
		/:[0-9]\.[0-9]/ {
			screens=screens gensub(/(.*)(:[0-9]\.[0-9])(.*)/, "\\2", "1", $0) " "
		}
		END {
			print screens
		}
		' )
		# now we'll get the gpu temp for each screen discovered. The print out function
		# will handle removing screen data for single gpu systems
		for screen_nu in $screens
		do
			gpu_temp_looper=$( nvidia-settings -c $screen_nu -q GPUCoreTemp | gawk -F ': ' '
			BEGIN {
				IGNORECASE=1
				gpuTemp=""
				gpuTempWorking=""
			}
			/Attribute (.*)[0-9]+\.$/ {
				gsub(/\./, "", $2)
				if ( $2 ~ /^[0-9]+$/ ) {
					gpuTemp=gpuTemp $2 "C "
				}
			}
			END {
				print gpuTemp
			}'
			)
			screen_nu=$( cut -d ':' -f 2 <<< $screen_nu )
			gpu_temp="$gpu_temp$screen_nu:$gpu_temp_looper "
		done
	elif [[ -n $( type -p aticonfig ) ]];then
# 		gpu_temp=$( aticonfig --adapter=0 --od-gettemperature | gawk -F ': ' '
		gpu_temp=$( aticonfig --adapter=all --od-gettemperature | gawk -F ': ' '
		BEGIN {
			IGNORECASE=1
			gpuTemp=""
			gpuTempWorking=""
		}
		/Sensor (.*)[0-9\.]+ / {
			gpuTempWorking=gensub(/(.*) ([0-9\.]+) (.*)/, "\\2", "1", $2)
			if ( gpuTempWorking ~ /^[0-9\.]+$/ ) {
				gpuTemp=gpuTemp gpuTempWorking "C "
			}
		}
		END {
			print gpuTemp
		}'
		)
	fi
	
	if [[ -n $gpu_temp ]];then
		echo $gpu_temp
	fi
}

## create array of gfx cards installed on system
get_graphics_card_data()
{
	eval $LOGFS
	local i=''

	IFS=$'\n'
	A_GFX_CARD_DATA=( $( echo "$Lspci_Data" | gawk -F': ' '
	BEGIN {
		IGNORECASE=1
		nic=""
	}
	/vga compatible controller/ {
		gsub(/'"$BAN_LIST_NORMAL"'/, "", $NF)
		gsub(/,/, " ", $NF)
		gsub(/^ +| +$/, "", $NF)
		gsub(/ [ \t]+/, " ", $NF)
		nic=gensub(/^([0-9a-f:\.]+) (.+)$/,"\\1","",$1)
		print $NF "," nic
	}' ) )
	IFS="$ORIGINAL_IFS"
# 	for (( i=0; i < ${#A_GFX_CARD_DATA[@]}; i++ ))
# 	do
# 		A_GFX_CARD_DATA[i]=$( sanitize_characters BAN_LIST_NORMAL "${A_GFX_CARD_DATA[i]}" )
# 	done

	# GFXMEM is UNUSED at the moment, because it shows AGP aperture size, which is not necessarily equal to GFX memory..
	# GFXMEM="size=[$(echo "$Lspci_Data" | gawk '/VGA/{while (!/^$/) {getline;if (/size=[0-9][0-9]*M/) {size2=gensub(/.*\[size=([0-9]+)M\].*/,"\\1","g",$0);if (size<size2){size=size2}}}}END{print size2}')M]"
	log_function_data "A_GFX_CARD_DATA: ${A_GFX_CARD_DATA[@]}"
	eval $LOGFE
}

## create array of glx data
get_graphics_glx_data()
{
	eval $LOGFS
	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		IFS=$'\n'
		A_GLX_DATA=( $( glxinfo | gawk -F ': ' '
		# note: function declarations go before BEGIN? It appears so, confirm.
		# the real question here though is why this function is even here, seems
		# just to be a complicated way to pack/print a variable, but maybe the
		# original idea was to handle > 1 cases of detections I guess
		function join( arr, sep ) {
			s=""
			i=flag=0
			for ( i in arr ) {
				if ( flag++ ) {
					s = s sep
				}
				s = s i
			}
			return s
		}

		BEGIN {
			IGNORECASE=1
		}
		/opengl renderer/ {
			if ( $2 ~ /mesa/ ) {
				# Allow all mesas
# 				if ( $2 ~ / r[3-9][0-9][0-9] / ) {
					gsub(/'"$BAN_LIST_NORMAL"'/, "", $2)
					a[$2]
					# this counter failed in one case, a bug, and is not needed now
# 					f++
# 				}
				next
			}
			$2 && a[$2]
		}
		# dropping all conditions from this test to just show full mesa information
		# there is a user case where not f and mesa apply, atom mobo
		# /opengl version/ && ( f || $2 !~ /mesa/ ) {
		/opengl version/ {
			$2 && b[$2]
		}
		/direct rendering/ {
			$2 && c[$2]
		}
		END {
			printf( "%s\n%s\n%s\n", join( a, ", " ), join( b, ", " ), join( c, ", " ) )
		}' ) )
		IFS="$ORIGINAL_IFS"

		# GLXR=$(glxinfo | gawk -F ': ' 'BEGIN {IGNORECASE=1} /opengl renderer/ && $2 !~ /mesa/ {seen[$2]++} END {for (i in seen) {printf("%s ",i)}}')
		#    GLXV=$(glxinfo | gawk -F ': ' 'BEGIN {IGNORECASE=1} /opengl version/ && $2 !~ /mesa/ {seen[$2]++} END {for (i in seen) {printf("%s ",i)}}')
	fi
	log_function_data "A_GLX_DATA: ${A_GLX_DATA[@]}"
	eval $LOGFE
}

## return screen resolution / tty resolution
get_graphics_res_data()
{
	eval $LOGFS
	local screen_resolution='' xdpy_data='' screens_count=0

	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		# Added the two ?'s , because the resolution is now reported without spaces around the 'x', as in
		# 1400x1050 instead of 1400 x 1050. Change as of X.org version 1.3.0
		xdpy_data="$( xdpyinfo )"
		xdpy_count=$( grep -c 'dimensions' <<< "$xdpy_data" )
		# we get a bit more info from xrandr than xdpyinfo, but xrandr fails to handle
		# multiple screens from different video cards
		if [[ $xdpy_count -eq 1 ]];then
			screen_resolution=$( xrandr | gawk '
			/\*/ {
				res[++m] = gensub(/^.* ([0-9]+) ?x ?([0-9]+)[_ ].* ([0-9\.]+)\*.*$/,"\\1x\\2@\\3hz","g",$0)
			}
			END {
				for (n in res) {
					if (res[n] ~ /^[[:digit:]]+x[[:digit:]]+/) {
						line = line ? line ", " res[n] : res[n]
					}
				}
				if (line) {
					print(line)
				}
			}' )
		fi
		if [[ -z $screen_resolution || $xdpy_count -gt 1 ]];then
			screen_resolution=$( gawk '
			BEGIN {
				IGNORECASE=1
				screens = ""
				separator = ""
			}
			/dimensions/ {
				screens = screens separator # first time, this is null, next, has comma last
				screens = screens $2 # then tack on the new value for nice comma list
				separator = ", "
			}
			END {
				print screens
			}' <<< "$xdpy_data" )
		fi
	else
		screen_resolution=$( stty -F $( readlink /proc/$PPID/fd/0 ) size | gawk '{
			print $2"x"$1
		}' )
	fi
	echo "$screen_resolution"
	log_function_data "screen_resolution: $screen_resolution"
	eval $LOGFE
}

## for possible future data, not currently used
get_graphics_agp_data()
{
	eval $LOGFS
	local agp_module=''

	if [[ $B_MODULES_FILE == 'true' ]];then
		## not used currently
		agp_module=$( gawk '
		/agp/ && !/agpgart/ && $3 > 0 {
			print(gensub(/(.*)_agp.*/,"\\1","g",$1))
		}' $FILE_MODULES )
		log_function_data 'cat' "$FILE_MODULES"
	fi
	log_function_data "agp_module: $agp_module"
	eval $LOGFE
}

## create array of x vendor/version data
get_graphics_x_data()
{
	eval $LOGFS
	local x_vendor='' x_version=''

	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		# X vendor and version detection.
		x_vendor=$( xdpyinfo | gawk -F': +' '
		BEGIN {
			IGNORECASE=1
		}
		/vendor string/ {
			gsub(/the|inc|foundation|project|corporation/, "", $2)
			gsub(/,/, " ", $2)
			gsub(/^ +| +$/, "", $2)
			gsub(/ [ \t]+/, " ", $2)
			print $2
		}' )

		# new method added since radeon and X.org and the disappearance of <X server name> version : ...etc
		# Later on, the normal textual version string returned, e.g. like: X.Org version: 6.8.2
		# A failover mechanism is in place. (if $x_version is empty, the release number is parsed instead)
		x_version=$( xdpyinfo | gawk '
		/version:/ {
			print $NF
		}' )
		# this gives better output than the failure last case, which would only show:
		# for example: X.org: 1.9 instead of: X.org: 1.9.0
		if [[ -z $x_version ]];then
			x_version=$( get_x_version )
		fi
		if [[ -z $x_version ]];then
			x_version=$( xdpyinfo | gawk -F': +' '
			BEGIN {
				IGNORECASE=1
			}
			/vendor release number/ {
				gsub(/0+$/, "", $2)
				gsub(/0+/, ".", $2)
				print $2
			}' )
		fi
		
		# some distros, like fedora, report themselves as the xorg vendor, so quick check
		# here to make sure the vendor string includes Xorg in string
		if [[ -z $( grep -E '(X|xorg|x\.org)' <<< $x_vendor ) ]];then
			x_vendor="$x_vendor X.org"
		fi
		
		A_X_DATA[0]="$x_vendor"
		A_X_DATA[1]="$x_version"
	else
		x_version=$( get_x_version )
		if [[ -n $x_version ]];then
			x_vendor='X.org'
			A_X_DATA[0]="$x_vendor"
			A_X_DATA[1]="$x_version"
		fi
	fi
	log_function_data "A_X_DATA: ${A_X_DATA[@]}"
	eval $LOGFE
}
# if other tests fail, try this one, this works for root, out of X also
get_x_version()
{
	eval $LOGFS
	local x_exists=$( type -p X )
	local x_version=''
	
	if [[ -n $x_exists ]];then
		# note: MUST be this syntax: X -version 2>&1
		# otherwise X -version overrides everything and this comes out null.
		# two knowns id strings: X.Org X Server 1.7.5 AND Window System Version 1.7.5
		#X -version 2>&1 | gawk '/^X Window System Version/ { print $5 }'
		x_version=$( X -version 2>&1 | gawk '
		BEGIN {
			IGNORECASE=1
		}
		/x.org x server|X Window System Version/ {
			print $NF
		}' )
	fi
	echo $x_version
	log_function_data " x_version: $x_version"
	eval $LOGFE
}

# this gets just the raw data, total space/percent used and disk/name/per disk capacity
get_hdd_data_basic()
{
	eval $LOGFS
	local hdd_used=''
	local hdd_data="$( df --exclude-type=aufs --exclude-type=squashfs --exclude-type=unionfs --exclude-type=devtmpfs --exclude-type=tmpfs --exclude-type=iso9660 )"
	log_function_data 'raw' "hdd_data:\n$hdd_data"
	
	hdd_used=$( echo "$hdd_data" | gawk '
	# also handles odd dm-1 type, from lvm
	/^\/dev\/(mapper\/|[hsv]d[a-z][0-9]+|dm[-]?[0-9]+)/ {
		# this handles the case where the first item is too long
		# and makes df wrap output to next line, so here we advance
		# it to the next line for that single case
		if ( NF < 5 && $0 !~ /.*\%/ ) {
			getline
		}
		# if the first item caused a wrap, use one less than standard
		# testing for the field with % in it, ie: 34%, then go down from there
		# this also protects against cases where the mount point has a space in the
		# file name, thus breaking going down from $NF directly.
		if ( $4 ~ /.*\%/ ) {
			used += $2
		}
		# otherwise use standard
		else if ( $5 ~ /.*\%/ ) {
			used += $3
		}
		# and if this is not detected, give up, we need user data to debug
		else {
			next
		}
	}
	END {
		print used
	}' )

	if [[ -z $hdd_used ]];then
		hdd_used='na'
	fi
	log_function_data "hdd_used: $hdd_used"
	# create the initial array strings:
	# disk-dev, capacity, name, usb or not
	# final item is the total of the disk
	IFS=$'\n'

	if [[ $B_PARTITIONS_FILE == 'true' ]];then
		A_HDD_DATA=( $(
		gawk -v hddused="$hdd_used" '
		/[hsv]d[a-z]$/ {
			driveSize = $(NF - 1)*1024/1000**3
			gsub(/,/, " ", driveSize)
			gsub(/^ +| +$/, "", driveSize)
			printf( $NF",%.1fGB,,\n", driveSize )
		}
		# See http://lanana.org/docs/device-list/devices-2.6+.txt for major numbers used below
		# $1 ~ /^(3|22|33|8)$/ && $2 % 16 == 0  {
		#	size += $3
		# }
		# special case from this data: 8     0  156290904 sda
		$1 ~ /^(3|22|33|8)$/ && $NF ~ /[hsv]d[a-z]$/ && ( $2 % 16 == 0 || $2 % 16 == 8 ) {
			size += $3
		}

		END {
			size = size*1024/1000**3                   # calculate size in GB size
			workingUsed = hddused*1024/1000**3         # calculate workingUsed in GB used
			# this handles a special case with livecds where no hdd_used is detected
			if ( size > 0 && hddused == "na" ) {
				size = sprintf( "%.1f", size )
				print size "GB,-"
			}
			else if ( size > 0 && workingUsed > 0 ) {
				diskUsed = workingUsed*100/size  # calculate used percentage
				diskUsed = sprintf( "%.1f", diskUsed )
				size = sprintf( "%.1f", size )
				print size "GB," diskUsed "% used"
			}
			else {
				print "NA,-" # print an empty array, this will be further handled in the print out function
			}
		}' $FILE_PARTITIONS ) )
 		log_function_data 'cat' "$FILE_PARTITIONS"
	fi
	IFS="$ORIGINAL_IFS"
	log_function_data "A_HDD_DATA: ${A_HDD_DATA[@]}"
	eval $LOGFE
}

## fills out the A_HDD_DATA array with disk names
get_hard_drive_data_advanced()
{
	eval $LOGFS
	local a_temp_working='' a_temp_scsi='' temp_holder='' temp_name='' i='' j=''
	local sd_ls_by_id='' ls_disk_by_id='' usb_exists=''

	## check for all ide type drives, non libata, only do it if hdx is in array
	## this is now being updated for new /sys type paths, this may handle that ok too
	if [[ -n $( egrep 'hd[a-z]' <<< ${A_HDD_DATA[@]} ) ]];then
		# remember, we're using the last array item to store the total size of disks
		for (( i=0; i < ${#A_HDD_DATA[@]} - 1; i++ ))
		do
			IFS=","
			a_temp_working=( ${A_HDD_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			if [[ -n $( egrep '^hd[a-z]' <<< ${a_temp_working[0]} ) ]];then
				if [[ -e /proc/ide/${a_temp_working[0]}/model ]];then
					a_temp_working[2]="$( remove_erroneous_chars /proc/ide/${a_temp_working[0]}/model )"
				else
					a_temp_working[2]="Name n/a"
				fi
				# these loops are to easily extend the cpu array created in the gawk script above with more fields per cpu.
				for (( j=0; j < ${#a_temp_working[@]}; j++ ))
				do
					if [[ $j -gt 0 ]];then
						A_HDD_DATA[i]="${A_HDD_DATA[i]},${a_temp_working[$j]}"
					else
						A_HDD_DATA[i]="${a_temp_working[$j]}"
					fi
				done
			fi
		done
	fi

	## then handle libata names
	# first get the ata device names, put them into an array
	IFS=$'\n'
	if [[ $B_SCSI_FILE == 'true' ]]; then
		a_temp_scsi=( $( gawk  '
		BEGIN {
			IGNORECASE=1
		}
		/host/ {
			getline a[$0]
			getline b[$0]
		}
		END {
			for (i in a) {
				if (b[i] ~ / *type: *direct-access.*/) {
					#c=gensub(/^ *vendor: (.+) +model: (.+) +rev: (.+)$/,"\\1 \\2 \\3","g",a[i])
					#c=gensub( /^ *vendor: (.+) +model: (.+) +rev:.*$/,"\\1 \\2","g",a[i] )
					# the vendor: string is useless, and is a bug, ATA is not a vendor for example
					c=gensub( /^ *vendor: (.+) +model: (.+) +rev:.*$/, "\\2", "g", a[i] )
					gsub(/,/, " ", c)
					gsub(/^ +| +$/, "", c)
					gsub(/ [ \t]+/, " ", c)
					#print a[i]
					# we actually want this data, so leaving this off for now
# 					if (c ~ /\<flash\>|\<pendrive\>|memory stick|memory card/) {
# 						continue
# 					}
					print c
				}
			}
		}' $FILE_SCSI ) )
		log_function_data 'cat' "$FILE_SCSI"
	fi
	IFS="$ORIGINAL_IFS"

	## then we'll loop through that array looking for matches.
	if [[ -n $( egrep 'sd[a-z]' <<< ${A_HDD_DATA[@]} ) ]];then
		# first pack the main ls variable so we don't have to keep using ls /dev...
		ls_disk_by_id="$( ls -l /dev/disk/by-id )"
		for (( i=0; i < ${#A_HDD_DATA[@]} - 1; i++ ))
		do
			if [[ -n $( egrep '^sd[a-z]' <<< ${A_HDD_DATA[$i]} ) ]];then
				IFS=","
				a_temp_working=( ${A_HDD_DATA[$i]} )
				IFS="$ORIGINAL_IFS"
				# /sys/block/[sda,hda]/device/model
				# this is handles the new /sys data types first
				if [[ -e /sys/block/${a_temp_working[0]}/device/model ]];then
					temp_name="$( remove_erroneous_chars /sys/block/${a_temp_working[0]}/device/model )"
					temp_name=$( tr ' ' '_' <<< $temp_name | cut -d '-' -f 1 )
				elif [[ ${#a_temp_scsi[@]} -gt 0 ]];then
					for (( j=0; j < ${#a_temp_scsi[@]}; j++ ))
					do
						## ok, ok, it's incomprehensible, search /dev/disk/by-id for a line that contains the
						# discovered disk name AND ends with the correct identifier, sdx
						# get rid of whitespace for some drive names and ids, and extra data after - in name
						temp_name=$( tr ' ' '_' <<< ${a_temp_scsi[$j]} | cut -d '-' -f 1 )
						sd_ls_by_id=$( egrep -m1 ".*$temp_name.*${a_temp_working[0]}$" <<< "$ls_disk_by_id" )

						if [[ -n $sd_ls_by_id ]];then
							temp_name=${a_temp_scsi[$j]}
							break
						else
							# test to see if we can get a better name output when null
							if [[ -n $temp_name ]];then
								temp_name=$temp_name
							fi
						fi
					done
				fi
				
				if [[ -z $temp_name ]];then
					temp_name="Name n/a"
				else 
					usb_exists=$( egrep -m1 "usb-.*$temp_name.*${a_temp_working[0]}$" <<< "$ls_disk_by_id" )
					if [[ -n $usb_exists ]];then
						a_temp_working[3]='USB'
					fi
				fi
				a_temp_working[2]=$temp_name
				# these loops are to easily extend the cpu array created in the gawk script above with more fields per cpu.
				for (( j=0; j < ${#a_temp_working[@]}; j++ ))
				do
					if [[ $j -gt 0 ]];then
						A_HDD_DATA[i]="${A_HDD_DATA[i]},${a_temp_working[$j]}"
					else
						A_HDD_DATA[i]="${a_temp_working[$j]}"
					fi
				done
			fi
		done
		unset ls_disk_by_id # and then let's dump the data we don't need
	fi
	log_function_data "A_HDD_DATA: ${A_HDD_DATA[@]}"
	eval $LOGFE
}

# a few notes, normally hddtemp requires root, but you can set user rights in /etc/sudoers.
# args: $1 - /dev/<disk> to be tested for
get_hdd_temp_data()
{
	eval $LOGFS
	local hdd_temp='' sudo_command='' 

	if [[ $B_HDDTEMP_TESTED != 'true' ]];then
		B_HDDTEMP_TESTED='true'
		HDDTEMP_PATH=$( type -p hddtemp )
	fi
	if [[ $B_SUDO_TESTED != 'true' ]];then
		B_SUDO_TESTED='true'
		SUDO_PATH=$( type -p sudo )
	fi
	
	if [[ -n $HDDTEMP_PATH && -n $1 ]];then
		# only use sudo if not root, -n option requires sudo -V 1.7 or greater. sudo will just error out
		# which is the safest course here for now, otherwise that interactive sudo password thing is too annoying
		# important: -n makes it non interactive, no prompt for password
		if [[ $B_ROOT != 'true' && -n $SUDO_PATH ]];then
			sudo_command='sudo -n '
		fi
		# this will fail if regular user and no sudo present, but that's fine, it will just return null
		hdd_temp=$( eval $sudo_command $HDDTEMP_PATH -nq -u C $1 )
		if [[ -n $hdd_temp && -n $( grep -E '^([0-9]+)$' <<< $hdd_temp ) ]];then
			echo $hdd_temp
		fi
	fi
	eval $LOGFE
}

get_lspci_data()
{
	eval $LOGFS
	local lspci_data="$( lspci -v | gawk '{
		gsub(/\(prog-if[^)]*\)/,"")
		print
	}' )"
	
	echo "$lspci_data"
	log_function_data 'raw' "lspci_data:\n$lspci_data"
	eval $LOGFE
}

## return memory used/installed
get_memory_data()
{
	eval $LOGFS
	local memory=''
	if [[ $B_MEMINFO_FILE == 'true' ]];then
		memory=$( gawk '
		/^MemTotal:/ {
			tot = $2
		}
		/^(MemFree|Buffers|Cached):/ {
			notused+=$2
		}
		END {
			used = tot-notused
			printf("%.1f/%.1fMB\n", used/1024, tot/1024)
		}' $FILE_MEMINFO )
		log_function_data 'cat' "$FILE_MEMINFO"
	fi
	echo "$memory"
	log_function_data "memory: $memory"
	eval $LOGFE
}

# process and return module version data
get_module_version_number()
{
	eval $LOGFS
	local module_version=''
	
	if [[ $B_MODINFO_TESTED != 'true' ]];then
		B_MODINFO_TESTED='true'
		MODINFO_PATH=$( type -p modinfo )
	fi

	if [[ -n $MODINFO_PATH ]];then
		module_version=$( $MODINFO_PATH $1 2>/dev/null | gawk '
		BEGIN {
			IGNORECASE=1
		}
		/^version/ {
			gsub(/,/, " ", $2)
			gsub(/^ +| +$/, "", $2)
			gsub(/ [ \t]+/, " ", $2)
			print $2
		}
		' )
	fi

	echo "$module_version"
	log_function_data "module_version: $module_version"
	eval $LOGFE
}

## create array of network cards
get_networking_data()
{
	eval $LOGFS
	
	IFS=$'\n'
	A_NETWORK_DATA=( $( echo "$Lspci_Data" | gawk '
	BEGIN {
		IGNORECASE=1
		counter=0 # required to handle cases of > 1 instance of the same chipset
	}
	/^[0-9a-f:.]+ (ethernet|network) (controller|bridge)/ || /^[0-9a-f:.]+ [^:]+: .*(ethernet|network).*$/ {
		nic=gensub(/^[0-9a-f:\.]+ [^:]+: (.+)$/,"\\1","g",$0)
		gsub(/realtek semiconductor/, "Realtek", nic)
		gsub(/davicom semiconductor/, "Davicom", nic)
		# The doublequotes are necessary because of the pipes in the variable.
		gsub(/'"$BAN_LIST_NORMAL"'/, "", nic)
		gsub(/,/, " ", nic)
		gsub(/^ +| +$/, "", nic)
		gsub(/ [ \t]+/, " ", nic)
		# construct a unique string ending for each chipset detected, this allows for
		# multiple instances of the same exact chipsets, ie, dual gigabit 
		nic = nic "~~" counter++
		aPciBusId[nic] = gensub(/(^[0-9a-f:\.]+) [^:]+: .+$/,"\\1","g",$0)
		# I do not understand why incrementing a string index makes sense? 
		eth[nic]++ 
		while ( getline && !/^$/ ) {
			gsub(/,/, "", $0)
			if ( /I\/O/ ) {
				ports[nic] = ports[nic] $4 " "
			}
			if ( /driver in use/ ) {
				drivers[nic] = drivers[nic] gensub( /(.*): (.*)/ ,"\\2" ,"g" ,$0 ) ""
			}
			else if ( /kernel modules/ ) {
				modules[nic] = modules[nic] gensub( /(.*): (.*)/ ,"\\2" ,"g" ,$0 ) ""
			}
		}
	}

	END {
		j=0
		for (i in eth) {
			useDrivers=""
			usePorts=""
			useModules=""
			usePciBusId=""
			if ( eth[i] > 1 ) {
				a[j] = eth[i] "x " i
			}
			else {
				a[j] = i
			}	
			## note: this loses the plural ports case, is it needed anyway?
			if ( ports[i] != "" ) {
				usePorts = ports[i]
			}
			if ( drivers[i] != "" ) {
				useDrivers = drivers[i]
			}
			if ( modules[i] != "" ) {
				useModules = modules[i]
			}
			if ( aPciBusId[i] != "" ) {
				usePciBusId = aPciBusId[i]
			}
			# create array primary item for master array
			# and strip out the counter again, this handled dual cards with same chipset
			sub( /~~[0-9]+$/, "", a[j] )
			sub( / $/, "", usePorts ) # clean off trailing whitespace
			print a[j] "," useDrivers "," usePorts "," useModules, "," usePciBusId
			j++
		}
	}') )
	IFS="$ORIGINAL_IFS"
	if [[ $B_SHOW_ADVANCED_NETWORK == 'true' ]];then
		get_network_advanced_data
	fi
	log_function_data "A_NETWORK_DATA: ${A_NETWORK_DATA[@]}"
	
	eval $LOGFE
}

get_network_advanced_data()
{
	eval $LOGFS
	local a_network_adv_working='' if_path='' working_path='' 
	local if_id='' speed='' duplex='' mac_id='' oper_state=''
	
	for (( i=0; i < ${#A_NETWORK_DATA[@]}; i++ ))
	do
			IFS=","
			a_network_adv_working=( ${A_NETWORK_DATA[i]} )
			working_path="/sys/bus/pci/devices/0000:${a_network_adv_working[4]}"
			if [[ -e $working_path/net ]];then
				if_path=$( ls $working_path/net 2>/dev/null )
				if_id=$if_path
				working_path=$working_path/net/$if_path
			# 2.6.32 debian lenny kernel shows not: /net/eth0 but /net:eth0
			else
				if_path=$( ls $working_path 2>/dev/null | grep 'net:' )
				if_id=$( cut -d ':' -f 2 <<< "$if_path" )
				working_path=$working_path/$if_path
			fi
			
			if [[ -n $if_path ]];then
				if [[ -f $working_path/speed ]];then
					speed=$( cat $working_path/speed )
				fi
				if [[ -f $working_path/duplex ]];then
					duplex=$( cat $working_path/duplex )
				fi
				if [[ -f $working_path/address ]];then
					mac_id=$( cat $working_path/address )
				fi
				if [[ -f $working_path/operstate ]];then
					oper_state=$( cat $working_path/operstate )
				fi
			fi
			
			A_NETWORK_DATA[i]=${a_network_adv_working[0]}","${a_network_adv_working[1]}","${a_network_adv_working[2]}","${a_network_adv_working[3]}","${a_network_adv_working[4]}","$if_id","$oper_state","$speed","$duplex","$mac_id
			IFS="$ORIGINAL_IFS"
	done
	
	eval $LOGFE
}

get_networking_wan_ip_data()
{
	eval $LOGFS
	local ip=''

	# get ip using wget redirect to stdout. This is a clean, text only IP output url.
	ip=$( wget -q -O - http://smxi.org/opt/ip.php | gawk -F 'is: ' '{
		#gsub("\n","",$2")
		print $2
	}' )

	if [[ -z $ip ]];then
		ip='None Detected!'
	fi
	echo "$ip"
	log_function_data "ip: $ip"
	eval $LOGFE
}

get_networking_local_ip_data()
{
	eval $LOGFS
	
	local ifconfig_path=$( type -p ifconfig )
	
	# lack of ifconfig will throw an error only upon it's usage
	if [[ -n $ifconfig_path ]];then
		IFS=$'\n'
		A_INTERFACES_DATA=( $( $ifconfig_path | gawk '
		BEGIN {
			IGNORECASE=1
		}
		$0 !~ /^lo/ {
			# not clear on why inet is coming through, but this gets rid of it
			# as first line item.
			interface = $1
			gsub(/,/, " ", interface)
			gsub(/^ +| +$/, "", interface)
			gsub(/ [ \t]+/, " ", interface)

			aInterfaces[interface]++
			while (getline && !/^$/) {
				if (/inet addr:/) {
					ipAddresses[interface] = gensub( /addr:([0-9\.]+)/, "\\1", "g", $2 )
				}
			}
		}

		END {
			j=0
			for (i in aInterfaces) {
				useInterfaceIp = ""
				a[j] = i
				if (ipAddresses[i] != "") {
					useInterfaceIp = ipAddresses[i]
				}
				# create array primary item for master array
				# tested needed to avoid bad data from above, if null it is garbage
				# this is the easiest way to handle junk I found, improve if you want
				if ( useInterfaceIp != "" ) {
					print a[j] "," useInterfaceIp
				}
				j++
			}
		}') )
		IFS="$ORIGINAL_IFS"
	else
		A_INTERFACES_DATA=( "Interfaces tool requires missing app: ifconfig" )
	fi
	log_function_data "A_INTERFACES_DATA: ${A_INTERFACES_DATA[@]}"
	eval $LOGFE
}

get_partition_data()
{
	eval $LOGFS
	
	local a_partition_working='' dev_item=''
	#local excluded_file_types='--exclude-type=aufs --exclude-type=tmpfs --exclude-type=iso9660'
	# df doesn't seem to work in script with variables like at the command line
	# added devfs linprocfs sysfs fdescfs which show on debian kfreebsd kernel output
	local main_partition_data="$( df -h -T --exclude-type=aufs --exclude-type=squashfs --exclude-type=unionfs --exclude-type=devtmpfs --exclude-type=tmpfs --exclude-type=iso9660 --exclude-type=devfs --exclude-type=linprocfs --exclude-type=sysfs --exclude-type=fdescfs )"
	local swap_data="$( swapon -s )"
	# set dev disk label/uuid data globals
	get_partition_uuid_label_data 'label'
	get_partition_uuid_label_data 'uuid'
	
	log_function_data 'raw' "main_partition_data:\n$main_partition_data\n\nswap_data:\n$swap_data"
	
	IFS=$'\n'
	# sample line: /dev/sda2     ext3     15G  8.9G  4.9G  65% /home
	# $NF = partition name; $(NF - 4) = partition size; $(NF - 3) = used, in gB; $(NF - 1) = percent used
	## note: by subtracting from the last field number NF, we avoid a subtle issue with LVM df output, where if
	## the first field is too long, it will occupy its own line, this way we are getting only the needed data
	A_PARTITION_DATA=( $( echo "$main_partition_data" | gawk '
	BEGIN {
		IGNORECASE=1
	}
	# this has to be nulled for every iteration so it does not retain value from last iteration
	devBase=""
	# this is required because below we are subtracting from NF, so it has to be > 5
	# the real issue is long file system names that force the wrap of df output: //fileserver/main
	# but we still need to handle more dynamically long space containing file names, but later.
	( NF < 6 ) && ( $0 !~ /[0-9]+\%/ ) {
		# set the dev location here for cases of wrapped output
		if ( NF == 1 ){
			devBase=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
		}
		getline
	}
	# next set devBase if it didn not get set above here
	( $1 ~ /^\/dev\// ) && ( devBase == "" ) {
		devBase=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
	}
	# this handles yet another fredforfaen special case where a mounted drive
	# has the search string in its name
	$NF ~ /^\/$|^\/boot$|^\/var$|^\/home$|^\/tmp$|^\/usr$/ {
		print $NF "," $(NF - 4) "," $(NF - 3) "," $(NF - 1) ",main," $(NF - 5) "," devBase 
	}
	# skip all these, including the first, header line. Use the --exclude-type
	# to handle new filesystems types we do not want listed here
	$NF !~ /^\/$|^\/boot$|^\/var$|^\/home$|^\/tmp$|^\/usr$|^filesystem/ {
		# this is to avoid file systems with spaces in their names, that will make
		# the test show the wrong data in each of the fields, if no x%, then do not use
		# using 3 cases, first default, standard, 2nd, 3rd, handles one and two spaces in name
		if ( $(NF - 1) ~ /[0-9]+\%/ ) {
			print $NF "," $(NF - 4) "," $(NF - 3) "," $(NF - 1) ",secondary," $(NF - 5) "," devBase 
		}
		# these two cases construct the space containing name
		else if ( $(NF - 2) ~ /[0-9]+\%/ ) {
			print $(NF - 1) " " $NF "," $(NF - 5) "," $(NF - 4) "," $(NF - 2) ",secondary," $(NF - 6) "," devBase
		}
		else if ( $(NF - 3) ~ /[0-9]+\%/ ) {
			print $(NF - 2) " " $(NF - 1) " " $NF "," $(NF - 6) "," $(NF - 5) "," $(NF - 3) ",secondary," $(NF - 7) "," devBase 
		}
	}
	' )
	
	# now add the swap partition data, don't want to show swap files, just partitions,
	# though this can include /dev/ramzswap0. Note: you can also use /proc/swaps for this
	# data, it's the same exact output as swapon -s
	$( echo "$swap_data" | gawk '
	BEGIN {
		swapCounter = 1
	}
	/^\/dev/ {
		size = sprintf( "%.2f", $3*1024/1000**3 )
		devBase = gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
		used = sprintf( "%.2f", $4*1024/1000**3 )
		percentUsed = sprintf( "%.0f", ( $4/$3 )*100 )
		print "swap-" swapCounter "," size "GB," used "GB," percentUsed "\%,main," "swap," devBase
		swapCounter = ++swapCounter
	}' ) )
	IFS="$ORIGINAL_IFS"
	
	# now we'll handle some fringe cases where irregular df -hT output shows /dev/disk/.. instead of 
	# /dev/h|sdxy type data for column 1, . A_PARTITION_DATA[6]
	# Here we just search for the uuid/label and then grab the end of the line to get the right dev item.
	for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
	do
		IFS=","
		a_partition_working=( ${A_PARTITION_DATA[i]} )
		IFS="$ORIGINAL_IFS"
		dev_item='' # reset each loop
		# note: for swap this will already be set
		if [[ -n $( grep -E '(by-uuid|by-label)' <<< ${a_partition_working[6]} ) ]];then
			if [[ -n $DEV_DISK_UUID ]];then
				dev_item=$( echo "$DEV_DISK_UUID" | gawk '
					/'$( basename ${a_partition_working[6]} )'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			fi
			# if we didn't find anything for uuid try label
			if [[ -z $dev_item && -n $DEV_DISK_LABEL ]];then
				dev_item=$( echo "$DEV_DISK_LABEL" | gawk '
					/'$( basename ${a_partition_working[6]} )'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			fi
			if [[ -n $dev_item ]];then
				# assemble everything we could get for dev/h/dx, label, and uuid
				IFS=","
				A_PARTITION_DATA[i]=${a_partition_working[0]}","${a_partition_working[1]}","${a_partition_working[2]}","${a_partition_working[3]}","${a_partition_working[4]}","${a_partition_working[5]}","$dev_item
				IFS="$ORIGINAL_IFS"
			fi
		fi
	done

	if [[ $B_SHOW_LABELS == 'true' || $B_SHOW_UUIDS == 'true' ]];then
		get_partition_data_advanced
	fi
	log_function_data "A_PARTITION_DATA: ${A_PARTITION_DATA[@]}"
	eval $LOGFE
}

# first get the locations of the mount points for label/uuid detection
get_partition_data_advanced()
{
	eval $LOGFS
	local a_partition_working='' dev_partition_data=''
	local dev_item='' dev_label='' dev_uuid=''
	local mount_point=''
	# set dev disk label/uuid data globals
	get_partition_uuid_label_data 'label'
	get_partition_uuid_label_data 'uuid'

	if [[ $B_MOUNTS_FILE == 'true' ]];then
		for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_partition_working=( ${A_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			
			# note: for swap this will already be set
			if [[ -z ${a_partition_working[6]} ]];then
				mount_point=$( sed 's|/|\\/|g'  <<< ${a_partition_working[0]} )
				#echo mount_point $mount_point
				dev_partition_data=$( gawk '
				BEGIN {
					IGNORECASE = 1
					partition = ""
					partTemp = ""
				}
				# trying to handle space in name
# 				gsub( /\\040/, " ", $0 )
				/[ \t]'$mount_point'[ \t]/ && $1 != "rootfs" {
					# initialize the variables
					label = ""
					uuid = ""

					# slice out the /dev
					partition=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
					# label and uuid can occur for root, set partition to null now
					if ( partition ~ /by-label/ ) {
						label=gensub( /^(\/dev\/disk\/by-label\/)(.+)$/, "\\2", 1, $1 )
						partition = ""
					}
					if ( partition ~ /by-uuid/ ) {
						uuid=gensub( /^(\/dev\/disk\/by-uuid\/)(.+)$/, "\\2", 1, $1 )
						partition = ""
					}

					# handle /dev/root for / id
					if ( partition == "root" ) {
						# if this works, great, otherwise, just set this to null values
						partTemp="'$( readlink /dev/root 2>/dev/null )'"
						if ( partTemp != "" ) {
							if ( partTemp ~ /[hsv]d[a-z][0-9]{1,2}/ ) {
								partition=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, partTemp )
							}
							else if ( partTemp ~ /by-uuid/ ) {
								uuid=gensub( /^(\/dev\/disk\/by-uuid\/)(.+)$/, "\\2", 1, partTemp )
								partition="" # set null to let real location get discovered
							}
							else if ( partTemp ~ /by-label/ ) {
								label=gensub( /^(\/dev\/disk\/by-label\/)(.+)$/, "\\2", 1, partTemp )
								partition="" # set null to let real location get discovered
							}
						}
						else {
							partition = ""
							label = ""
							uuid = ""
						}
					}
					print partition "," label "," uuid
				}'	$FILE_MOUNTS )

				# assemble everything we could get for dev/h/dx, label, and uuid
				IFS=","
				A_PARTITION_DATA[i]=${a_partition_working[0]}","${a_partition_working[1]}","${a_partition_working[2]}","${a_partition_working[3]}","${a_partition_working[4]}","${a_partition_working[5]}","$dev_partition_data
				IFS="$ORIGINAL_IFS"
			fi
			## now we're ready to proceed filling in the data
			IFS=","
			a_partition_working=( ${A_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"

			dev_item=${a_partition_working[6]}
			dev_label=${a_partition_working[7]}
			dev_uuid=${a_partition_working[8]}
			
			# then if dev data/uuid is incomplete, try to get missing piece
			# it's more likely we'll get a uuid than a label. But this should get the
			# dev item set no matter what, so then we can get the rest of any missing data
			# first we'll get the dev_item if it's missing
			if [[ -n $DEV_DISK_UUID ]] && [[ -z $dev_item && -n $dev_uuid ]];then
				dev_item=$( echo "$DEV_DISK_UUID" | gawk '
					/'$dev_uuid'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			elif [[ -n $DEV_DISK_LABEL ]] && [[ -z $dev_item && -n $dev_label ]];then
				dev_item=$( echo "$DEV_DISK_LABEL" | gawk '
					# first we need to change space x20 in by-label back to a real space
					#gsub( /x20/, " ", $0 )
					# then we can see if the string is there
					/'$dev_label'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			fi
			if [[ -n $DEV_DISK_UUID ]] && [[ -n $dev_item && -z $dev_uuid ]];then
				dev_uuid=$( echo "$DEV_DISK_UUID" | gawk '
				/'$dev_item'$/ {
					print $(NF - 2)
				}' )
			fi
			if [[ -n $DEV_DISK_LABEL ]] && [[ -n $dev_item && -z $dev_label ]];then
				dev_label=$( echo "$DEV_DISK_LABEL" | gawk '
				/'$dev_item'$/ {
					print $(NF - 2)
				}' )
			fi

			# assemble everything we could get for dev/h/dx, label, and uuid
			IFS=","
			A_PARTITION_DATA[i]=${a_partition_working[0]}","${a_partition_working[1]}","${a_partition_working[2]}","${a_partition_working[3]}","${a_partition_working[4]}","${a_partition_working[5]}","$dev_item","$dev_label","$dev_uuid
			IFS="$ORIGINAL_IFS"
		done
		log_function_data 'cat' "$FILE_MOUNTS"
	fi
	log_function_data "A_PARTITION_DATA: ${A_PARTITION_DATA[@]}"
	eval $LOGFE
}

	
# args: $1 - uuid/label
get_partition_uuid_label_data()
{
	eval $LOGFS
	
	# only run these tests once per directory to avoid excessive queries to fs
	case $1 in
		label)
			if [[ $B_LABEL_SET != 'true' ]];then
				if [[ -d /dev/disk/by-label ]];then
					DEV_DISK_LABEL="$( ls -l /dev/disk/by-label )"
				fi
				B_LABEL_SET='true'
			fi
			;;
		uuid)
			if [[ $B_UUID_SET != 'true' ]];then
				if [[ -d /dev/disk/by-uuid ]];then
					DEV_DISK_UUID="$( ls -l /dev/disk/by-uuid )"
				fi
				B_UUID_SET='true'
			fi
			;;
	esac
	log_function_data 'raw' "DEV_DISK_LABEL:\n$DEV_DISK_LABEL\n\nDEV_DISK_UUID:\n$DEV_DISK_UUID"
	# debugging section, uncomment to insert user data
# 	DEV_DISK_LABEL='
#
# '
# DEV_DISK_UUID='
#
# '
	eval $LOGFE
}

# args: $1 - type cpu/mem 
get_ps_data()
{
	eval $LOGFS
	local array_length='' reorder_temp='' i=0 head_tail='' sort_type=''
	
	# bummer, have to make it more complex here because of reverse sort
	# orders in output, pesky lack of support of +rss in old systems
	case $1 in
		mem)
			head_tail='head'
			sort_type='-rss'
			;;
		cpu)
			head_tail='tail'
			sort_type='%cpu'
			;;
	esac
	
	# throttle potential irc abuse
	if [[ $B_RUNNING_IN_SHELL != 'true' && $PS_COUNT -gt 5 ]];then
		PS_THROTTLED=$PS_COUNT
		PS_COUNT=5
	fi

	IFS=$'\n'
	# note that inxi can use a lot of cpu, and can actually show up here as the script runs
	A_PS_DATA=( $( ps aux --sort $sort_type | grep -Ev "($SCRIPT_NAME|%CPU|[[:space:]]ps[[:space:]])" | $head_tail -n $PS_COUNT | gawk '
	BEGIN {
		IGNORECASE=1
		appName=""
		appPath=""
		appStarterName=""
		appStarterPath=""
		cpu=""
		mem=""
		pid=""
		user=""
		rss=""
	}
	{
		cpu=$3
		mem=$4
		pid=$2
		user=$1
		rss=sprintf( "%.2f", $6/1024 )
		# have to get rid of [,],(,) eg: [lockd] which break the printout function compare in bash
		gsub(/\[|\]|\(|\)/,"~", $0 )
		if ( $12 ~ /^\// ){
			appStarterPath=$11
			appPath=$12
		}
		else {
			appStarterPath=$11
			appPath=$11
		}
		appStarterName=gensub( /(\/.*\/)(.*)/, "\\2", "1", appStarterPath )
		appName=gensub( /(\/.*\/)(.*)/, "\\2", "1", appPath )
		print appName "," appPath "," appStarterName "," appStarterPath "," cpu "," mem "," pid "," rss "," user
	}
	' ) )
	# make the array ordered highest to lowest so output looks the way we expect it to
	# this isn't necessary for -rss, and we can't make %cpu ordered the other way, so
	# need to reverse it here. -rss is used because on older systems +rss is not supported
	if [[ $1 == 'cpu' ]];then
		array_length=${#A_PS_DATA[@]}; 
		while (( $i < $array_length/2 ))
		do 
			reorder_temp=${A_PS_DATA[i]}f
			A_PS_DATA[i]=${A_PS_DATA[$array_length-$i-1]}
			A_PS_DATA[$array_length-$i-1]=$reorder_temp
			(( i++ ))
		done 
	fi

	IFS="$ORIGINAL_IFS"
	
# 	echo ${A_PS_DATA[@]}
	eval $LOGFE
}

# Repos will be added as we get distro package manager data to create the repo data. 
# This method will output the file name also, which is useful to create output that's 
# neat and readable.
get_repo_data()
{
	eval $LOGFS
	local repo_file='' repo_data_working='' repo_data_working2='' repo_line=''
	local apt_file='/etc/apt/sources.list' yum_repo_dir='/etc/yum.repos.d/' yum_conf='/etc/yum.conf'
	local pacman_conf='/etc/pacman.conf' pacman_repo_dir='/etc/pacman.d/' pisi_dir='/etc/pisi/'
	
	# apt - debian, buntus
	if [[ -f $apt_file || -d $apt_file.d ]];then
		REPO_DATA="$( grep -Esv '(^[[:space:]]*$|^[[:space:]]*#)' $apt_file $apt_file.d/*.list )"
		REPO_FILE_ID='apt sources'
	# yum - fedora, redhat, centos, etc
	elif [[ -d $yum_repo_dir || -f $yum_conf ]];then
		# older redhats put their yum data in /etc/yum.conf
		for repo_file in $( ls $yum_repo_dir*.repo $yum_conf 2>/dev/null )
		do
			repo_data_working="$( gawk -v repoFile=$repo_file '
			# construct the string for the print function to work with, file name: data
			function print_line( fileName, repoId, repoUrl ){
				print fileName ":" repoId repoUrl
			}
			BEGIN {
				FS="\n"
				IGNORECASE=1
				enabledStatus=""
				repoTitle=""
				urlData=""
			}
			# this is a hack, assuming that each item has these fields listed, we collect the 3
			# items one by one, then when the url/enabled fields are set, we print it out and
			# reset the data. Not elegant but it works. Note that if enabled was not present
			# we assume it is enabled then, and print the line, reset the variables. This will
			# miss the last item, so it is printed if found in END
			/^\[.+\]/ {
				if ( urlData != "" && repoTitle != "" ){
					print_line( repoFile, repoTitle, urlData )
					enabledStatus=""
					urlData=""
					repoTitle=""
				}
				gsub( /\[|\]/, "", $1 ) # strip out the brackets
				repoTitle = $1 " ~ "
			}
			/^(mirrorlist|baseurl)/ {
				sub( /(mirrorlist|baseurl)=/, "", $1 ) # strip out the field starter
				urlData = $1
			}
			/^enabled=/ {
				enabledStatus = $1
			}
			# print out the line if all 3 values are found, otherwise if a new
			# repoTitle is hit above, it will print out the line there instead
			{ 
				if ( urlData != "" && enabledStatus != "" && repoTitle != "" ){
					if ( enabledStatus !~ /enabled=0/ ){
						print_line( repoFile, repoTitle, urlData )
					}
					enabledStatus=""
					urlData=""
					repoTitle=""
				}
			}
			END {
				# print the last one if there is data for it
				if ( urlData != ""  && repoTitle != "" ){
					print_line( repoFile, repoTitle, urlData )
				}
			}
			' $repo_file )"
			
			# then load the global for each file as it gets filled
			if [[ -n $repo_data_working ]];then
				if [[ -z $REPO_DATA ]];then
					REPO_DATA="$repo_data_working"
				else
					REPO_DATA="$REPO_DATA
$repo_data_working"
				fi
				repo_data_working=''
			fi
		done
		REPO_FILE_ID='yum repos'
	# pisi - pardus
	elif [[ -d $pisi_dir && -n $( type -p pisi ) ]];then
		REPO_DATA="$( pisi list-repo )"
		# now we need to create the structure: repo info: repo path
		# we do that by looping through the lines of the output and then
		# putting it back into the <data>:<url> format print repos expects to see
		while read repo_line
		do
			repo_line=$( gawk '
			{
				# need to dump leading/trailing spaces and clear out color codes for irc output
				sub(/^[[:space:]]+|[[:space:]]+$/,"",$0)
# 				gsub(/\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]/,"",$0) # leaving this pattern in case need it
				gsub(/\[([0-9];)?[0-9]+m/,"",$0)
				print $0
			}' <<< $repo_line )
			if [[ -n $( grep '://' <<< $repo_line ) ]];then
				repo_data_working="$repo_data_working:$repo_line\n"
			else
				repo_data_working="$repo_data_working$repo_line"
			fi
		done <<< "$REPO_DATA"
		# echo and execute the line breaks inserted
		REPO_DATA="$( echo -e $repo_data_working )"
		REPO_FILE_ID='pisi repo'
	# pacman - archlinux
	elif [[ -f $pacman_conf ]];then
		# get list of mirror include files, trim white space off ends
		repo_data_working="$( gawk '
		BEGIN {
			FS="="
			IGNORECASE=1
		}
		/^[[:space:]]*Include/ {
			sub(/^[[:space:]]+|[[:space:]]+$/,"",$2)
			print $2
		}
		' $pacman_conf )"
		# sort into unique paths only, to be used to search for server = data
		repo_data_working=$( sort -bu <<< "$repo_data_working" | uniq ) 
		repo_data_working="$repo_data_working $pacman_conf"
		for repo_file in $repo_data_working 
		do
			if [[ -f $repo_file ]];then
				# inserting a new line after each found / processed match
				repo_data_working2="$repo_data_working2$( gawk -v repoFile=$repo_file '
				BEGIN {
					FS="="
					IGNORECASE=1
				}
				/^[[:space:]]*Server/ {
					sub(/^[[:space:]]+|[[:space:]]+$/,"",$2)
					print repoFile ":" $2 "\\n"
				}
				' $repo_file )"
			else
				echo "Error: file listed in $pacman_conf does not exist - $repo_file"
			fi
		done
		# execute line breaks
		REPO_DATA="$( echo -e $repo_data_working2 )"
		REPO_FILE_ID='arch repo servers'
	fi
	eval $LOGFE
}

get_runlevel_data()
{
	eval $LOGFS
	local runlvl=''
	local runlevel_path=$( type -p runlevel )
	if [[ -n $runlevel_path ]];then
		runlvl="$( $runlevel_path | gawk '{ print $2 }' )"
	fi
	echo $runlvl
	eval $LOGFE
}

get_sensors_data()
{
	eval $LOGFS
	
	local sensors_path=$( type -p sensors )
		
	IFS=$'\n'
	if [[ -n $sensors_path ]];then
		# note: non-configured sensors gives error message, which we need to redirect to stdout
		# also, -F ':' no space, since some cases have the data starting right after,like - :1287
		A_SENSORS_DATA=( $( 
  		$sensors_path | gawk -F ':' -v userCpuNo="$SENSORS_CPU_NO" '
		BEGIN {
			IGNORECASE=1
			core0Temp="" # only if all else fails...
			cpuTemp=""
			cpuTempReal=""
			fanWorking=""
			indexCountaFanMain=0
			indexCountaFanDefault=0
			i=""
			j=""
			moboTemp=""
			moboTempReal=""
			psuTemp=""
			separator=""
			sysFanString=""
			temp1=""
			temp2=""
			tempFanType="" # set to 1 or 2
			tempUnit=""
			tempWorking=""
			tempWorkingUnit=""
		}
		# dumping the extra + signs after testing for them,  nobody has negative temps.
		# also, note gawk treats ° as a space, so we have to get the C/F data
		# there are some guesses here, but with more sensors samples it will get closer.
		# note: using arrays starting at 1 for all fan arrays to make it easier overall
		# more validation because gensub if fails to get match returns full string, so
		# we have to be sure we are working with the actual real string before assiging
		# data to real variables and arrays. Extracting C/F degree unit as well to use
		# when constructing temp items for array. 
		# note that because of charset issues, no tempUnit="°" tempWorkingUnit degree sign 
		# used, but it is required in testing regex to avoid error.
		/^(M\/B|MB|SIO|SYS)(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			moboTemp=gensub( /[ \t]+\+([0-9\.]*)(.*)/, "\\1", 1, $2 )
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		/^CPU(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			cpuTemp=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		/^(P\/S|Power)(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			psuTemp=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		$1 ~ /^temp1$/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			tempWorking=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			if ( temp1 == "" || tempWorking > 0 ) {
				temp1=tempWorking
			}
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		$1 ~ /^temp2$/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			tempWorking=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			if ( temp2 == "" || tempWorking > 0 ) {
				temp2=tempWorking
			}
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		
		# final fallback if all else fails, funtoo user showed sensors putting
		# temp on wrapped second line, not handled
		/^(core0|core 0)(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			tempWorking=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			if ( core0Temp == "" || tempWorking > 0 ) {
				core0Temp=tempWorking
			}
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		
		# note: can be cpu fan:, cpu fan speed:, etc. Some cases have no space before
		# $2 starts (like so :1234 RPM), so skip that space test in regex
		/^CPU(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanMain[1]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		/^(M\/B|MB|SYS)(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanMain[2]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		/(Power|P\/S|POWER)(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanMain[3]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		# note that the counters are dynamically set for fan numbers here
		# otherwise you could overwrite eg aux fan2 with case fan2 in theory
		# note: cpu/mobo/ps are 1/2/3
		# NOTE: test: ! i in array does NOT work, this appears to be an awk/gawk bug
		/^(AUX(1)? |CASE(1)? |CHASSIS(1)? )(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			for ( i = 4; i < 7; i++ ){
				if ( i in aFanMain ){
					##
				}
				else {
					aFanMain[i]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
					break
				}
			}
		}
		/^(AUX([2-9]) |CASE([2-9]) |CHASSIS([2-9]) )(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			for ( i = 5; i < 30; i++ ){
				if ( i in aFanMain ) {
					##
				}
				else {
					sysFanNu = i
					aFanMain[i]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
					break
				}
			}
		}
		# in rare cases syntax is like: fan1: xxx RPM
		/^(FAN(1)?[ \t:])(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanDefault[1]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		/^FAN([2-9]|1[0-9])(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			fanWorking=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
			sysFanNu=gensub( /fan([0-9]+)/, "\\1", 1, $1 )
			if ( sysFanNu ~ /^([0-9]+)$/ ) {
				# add to array if array index does not exist OR if number is > existing number
				if ( sysFanNu in aFanDefault ) {
					if ( fanWorking >= aFanDefault[sysFanNu] ) {
						aFanDefault[sysFanNu]=fanWorking
					}
				}
				else {
					aFanDefault[sysFanNu]=fanWorking
				}
			}
		}
		
		END {
			# first we need to handle the case where we have to determine which temp/fan to use for cpu and mobo:
			# note, for rare cases of weird cool cpus, user can override in their prefs and force the assignment
			if ( temp1 != "" && temp2 != "" ){
				if ( userCpuNo != "" && userCpuNo ~ /(1|2)/ ) {
					tempFanType=userCpuNo
				}
				else {
					# first some fringe cases with cooler cpu than mobo: assume which is cpu temp based on fan speed
					# but only if other fan speed is 0
					if ( temp1 >= temp2 && 1 in aFanDefault && 2 in aFanDefault && aFanDefault[1] == 0 && aFanDefault[2] > 0 ) {
						tempFanType=2
					}
					else if ( temp2 >= temp1 && 1 in aFanDefault && 2 in aFanDefault && aFanDefault[2] == 0 && aFanDefault[1] > 0 ) {
						tempFanType=1
					}
					# then handle the standard case if these fringe cases are false
					else if ( temp1 >= temp2 ) {
						tempFanType=1
					}
					else {
						tempFanType=2
					}
				}
			}
			# need a case for no temps at all reported, like with old intels
			else if ( temp2 == "" && cpuTemp == "" ){
				if ( temp1 == "" && moboTemp == "" ){
					tempFanType=1
				}
				else if ( temp1 != "" && moboTemp == "" ){
					tempFanType=1
				}
				else if ( temp1 != "" && moboTemp != "" ){
					tempFanType=1
				}
			}
			
			# then get the real cpu temp, best guess is hottest is real
			if ( cpuTemp != "" ){
				cpuTempReal=cpuTemp
			}
			else if ( tempFanType != "" ){
				if ( tempFanType == 1 ){
					cpuTempReal=temp1
				}
				else {
					cpuTempReal=temp2
				}
			}
			else {
				cpuTempReal=temp1
			}
			# if all else fails, use core0 temp if it is present and cpu is null
			if ( cpuTempReal == "" && core0Temp != "" ) {
				cpuTempReal=core0Temp
			}

			# then the real mobo temp
			if ( moboTemp != "" ){
				moboTempReal=moboTemp
			}
			else if ( tempFanType != "" ){
				if ( tempFanType == 1 ) {
					moboTempReal=temp2
				}
				else {
					moboTempReal=temp1
				}
			}
			else {
				moboTempReal=temp2
			}
			# then set the cpu fan speed
			if ( aFanMain[1] == "" ) {
				# note, you cannot test for aFanDefault[1] or [2] != "" 
				# because that creates an array item in gawk just by the test itself
				if ( tempFanType == 1 && 1 in aFanDefault ) {
					aFanMain[1]=aFanDefault[1]
					aFanDefault[1]=""
				}
				else if ( tempFanType == 2 && 2 in aFanDefault ) {
					aFanMain[1]=aFanDefault[2]
					aFanDefault[2]=""
				}
			}

			# then we need to get the actual numeric max array count for both fan arrays
			for (i = 0; i <= 29; i++) {
				if ( i in aFanMain && i > indexCountaFanMain ) {
					indexCountaFanMain=i
				}
			}
			for (i = 0; i <= 14; i++) {
				if ( i in aFanDefault && i > indexCountaFanDefault ) {
					indexCountaFanDefault=i
				}
			}
			
			# clear out any duplicates. Primary fan real trumps fan working always if same speed
			for (i = 1; i <= indexCountaFanMain; i++) {
				if ( i in aFanMain && aFanMain[i] != "" && aFanMain[i] != 0 ) {
					for (j = 1; j <= indexCountaFanDefault; j++) {
						if ( j in aFanDefault && aFanMain[i] == aFanDefault[j] ) {
							aFanDefault[j] = ""
						}
					}
				}
			}

			# now see if you can find the fast little mobo fan, > 5000 rpm and put it as mobo
			# note that gawk is returning true for some test cases when aFanDefault[j] < 5000
			# which has to be a gawk bug, unless there is something really weird with arrays
			# note: 500 > aFanDefault[j] < 1000 is the exact trigger, and if you manually 
			# assign that value below, the > 5000 test works again, and a print of the value
			# shows the proper value, so the corruption might be internal in awk. 
			# Note: gensub is the culprit I think, assigning type string for range 501-1000 but 
			# type integer for all others, this triggers true for >
			for (j = 1; j <= indexCountaFanDefault; j++) {
				if ( j in aFanDefault && int( aFanDefault[j] ) > 5000 && aFanMain[2] == "" ) {
					aFanMain[2] = aFanDefault[j]
					aFanDefault[j] = ""
					# then add one if required for output
					if ( indexCountaFanMain < 2 ) {
						indexCountaFanMain = 2
					}
				}
			}

			# then construct the sys_fan string for echo, note that iteration 1
			# makes: fanDefaultString separator null, ie, no space or ,
			for (j = 1; j <= indexCountaFanDefault; j++) {
				fanDefaultString = fanDefaultString separator aFanDefault[j]
				separator=","
			}
			separator="" # reset to null for next loop
			# then construct the sys_fan string for echo
			for (j = 1; j <= indexCountaFanMain; j++) {
				fanMainString = fanMainString separator aFanMain[j]
				separator=","
			}
			
			# and then build the temps:
			if ( moboTempReal != "" ) {
				moboTempReal = moboTempReal tempUnit
			}
			if ( cpuTempReal != "" ) {
				cpuTempReal = cpuTempReal tempUnit
			}
			
			# if they are ALL null, print error message. psFan is not used in output currently
			if ( cpuTempReal == "" && moboTempReal == "" && aFanMain[1] == "" && aFanMain[2] == "" && aFanMain[3] == "" && fanDefaultString == "" ) {
				print "No active sensors found. Have you configured your sensors yet?"
			}
			else {
				# then build array arrays: 
				print cpuTempReal "," moboTempReal "," psuTemp
				# this is for output, a null print line does NOT create a new array index in bash
				if ( fanMainString == "" ) {
					fanMainString=","
				}
				print fanMainString
				print fanDefaultString
			}
		}
		'
		) )
	# the error case needs to go here because we are setting special array delimiter ','
	else
		A_SENSORS_DATA=( "You do not have the sensors app installed." )
	fi
	
	IFS="$ORIGINAL_IFS"
	log_function_data "A_SENSORS_DATA: ${A_SENSORS_DATA[@]}"
# 	echo "A_SENSORS_DATA: ${A_SENSORS_DATA[@]}"
	eval $LOGFE
}

get_unmounted_partition_data()
{
	eval $LOGFS
	local a_unmounted_working='' mounted_partitions='' separator='' unmounted_fs=''
	local dev_working='' uuid_working='' label_working=''
	
	if [[ $B_PARTITIONS_FILE == 'true' ]];then
		# set dev disk label/uuid data globals
		get_partition_uuid_label_data 'label'
		get_partition_uuid_label_data 'uuid'
		
		# create list for slicing out the mounted partitions
		for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_unmounted_working=( ${A_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			if [[ -n ${a_unmounted_working[6]} ]];then
				mounted_partitions="$mounted_partitions$separator${a_unmounted_working[6]}"
				separator='|'
			fi
		done
	
		A_UNMOUNTED_PARTITION_DATA=( $( grep -Ev '('$mounted_partitions')$' $FILE_PARTITIONS | gawk '
		BEGIN {
			IGNORECASE=1
		}
		# note that size 1 means it is a logical extended partition container
		# lvm might have dm-1 type syntax
		# need to exclude loop type file systems, squashfs for example
		/[a-z][0-9]+$|dm-[0-9]+$/ && $3 != 1 && $NF !~ /loop/ {
			size = sprintf( "%.2f", $3*1024/1000**3 )
			print $4 "," size "G"
		}' ) )

		for (( i=0; i < ${#A_UNMOUNTED_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_unmounted_working=( ${A_UNMOUNTED_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			
			label_working=$( grep -E "${a_unmounted_working[0]}$" <<< "$DEV_DISK_LABEL"  | gawk '{
				print $(NF - 2)
			}' )
			uuid_working=$( grep -E "${a_unmounted_working[0]}$" <<< "$DEV_DISK_UUID"  | gawk '{
				print $(NF - 2)
			}' )
			unmounted_fs=$( get_unmounted_partition_filesystem "/dev/${a_unmounted_working[0]}" )
			
			IFS=","
			A_UNMOUNTED_PARTITION_DATA[i]=${a_unmounted_working[0]}","${a_unmounted_working[1]}","$label_working","$uuid_working","$unmounted_fs
			IFS="$ORIGINAL_IFS"
		done
	fi
#	echo "${A_PARTITION_DATA[@]}"
# 	echo "${A_UNMOUNTED_PARTITION_DATA[@]}"
	eval $LOGFE
}

# a few notes, normally file -s requires root, but you can set user rights in /etc/sudoers.
# list of file systems: http://en.wikipedia.org/wiki/List_of_file_systems
# args: $1 - /dev/<disk><part> to be tested for
get_unmounted_partition_filesystem()
{
	eval $LOGFS
	local partition_filesystem='' sudo_command=''
	
	if [[ $B_FILE_TESTED != 'true' ]];then
		B_FILE_TESTED='true'
		FILE_PATH=$( type -p file )
	fi
	
	if [[ $B_SUDO_TESTED != 'true' ]];then
		B_SUDO_TESTED='true'
		SUDO_PATH=$( type -p sudo )
	fi
	
	if [[ -n $FILE_PATH && -n $1 ]];then
		# only use sudo if not root, -n option requires sudo -V 1.7 or greater. sudo will just error out
		# which is the safest course here for now, otherwise that interactive sudo password thing is too annoying
		# important: -n makes it non interactive, no prompt for password
		if [[ $B_ROOT != 'true' && -n $SUDO_PATH ]];then
			sudo_command='sudo -n '
		fi
		# this will fail if regular user and no sudo present, but that's fine, it will just return null
		# note the hack that simply slices out the first line if > 1 items found in string
		# also, if grub/lilo is on partition boot sector, no file system data is available
		partition_filesystem=$( eval $sudo_command $FILE_PATH -s $1 | grep -Eio '(ext2|ext3|ext4|ext5|ext[[:space:]]|ntfs|fat32|fat16|fat[[:space:]]\(.*\)|vfat|fatx|tfat|swap|btrfs|ffs[[:space:]]|hfs\+|hfs[[:space:]]plus|hfs[[:space:]]extended[[:space:]]version[[:space:]][1-9]|hfsj|hfs[[:space:]]|jfs[[:space:]]|nss[[:space:]]|reiserfs|reiser4|ufs2|ufs[[:space:]]|xfs[[:space:]]|zfs[[:space:]])' | grep -Em 1 '.*' )
		if [[ -n $partition_filesystem ]];then
			echo $partition_filesystem
		fi
	fi
	eval $LOGFE
}

## return uptime string
get_uptime()
{
	eval $LOGFS
	## note: removing gsub(/ /,"",a); to get get space back in there, goes right before print a
	local uptime_value="$( uptime | gawk '{
		a = gensub(/^.*up *([^,]*).*$/,"\\1","g",$0)
		print a
	}' )"
	echo "$uptime_value"
	log_function_data "uptime_value: $uptime_value"
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### special data handling for specific options and conditions
#### -------------------------------------------------------------------

## multiply the core count by the data to be calculated, bmips, cache
# args: $1 - string to handle; $2 - cpu count
calculate_multicore_data()
{
	eval $LOGFS
	local string_number=$1 string_data=''

	if [[ -n $( egrep -i '( mb| kb)' <<< $1 ) ]];then
		string_data=" $( gawk '{print $2}' <<< $1 )" # add a space for output
		string_number=$( gawk '{print $1}' <<< $1 )
	fi
	# handle weird error cases where it's not a number
	if [[ -n $( egrep '^[0-9\.,]+$' <<< $string_number ) ]];then
		string_number=$( echo $string_number $2 | gawk '{
			total = $1*$2
			print total
		}' )
	elif [[ $string_number == '' ]];then
		string_number='Not Available'
	else
		# I believe that the above returns 'unknown' by default so no need for extra text
		string_number="$string_number "
	fi
	echo "$string_number$string_data"
	log_function_data "string_numberstring_data: $string_number$string_data"
	eval $LOGFE
}

# prints out shortened list of flags, the main ones of interest
# args: $1 - string of cpu flags to process
process_cpu_flags()
{
	eval $LOGFS
	# must have a space after last item in list for RS=" "
	local cpu_flags_working="$1 "
	
	# nx = AMD stack protection extensions
	# lm = Intel 64bit extensions
	# sse, sse2, pni = sse1,2,3,4,5 gfx extensions
	# svm = AMD pacifica virtualization extensions
	# vmx = Intel IVT (vanderpool) virtualization extensions
	cpu_flags=$( 
	echo "$cpu_flags_working" | gawk '
	BEGIN {
		RS=" "
		count = 0
		i = 1 # start at one because of for increment issue
		flag_string = ""
	}
	/^(lm|nx|pni|svm|vmx|(sss|ss)e([2-9])?([a-z])?(_[0-9])?)$/ {
		if ( $0 == "pni" ){
			a_flags[i] = "sse3"
		}
		else {
			a_flags[i] = $0
		}
		i++
	}
	END {
		count = asort( a_flags )
		# note: why does gawk increment before the loop and not after? weird.
		for ( i=0; i <= count; i++ ){
			if ( flag_string == "" ) {
				flag_string = a_flags[i] 
			}
			else {
				flag_string = flag_string " " a_flags[i]
			}
		}
		print flag_string
	}' 
	)

	#grep -oE '\<(nx|lm|sse[0-9]?|pni|svm|vmx)\>' | tr '\n' ' '))
	if [[ -z $cpu_flags ]];then
		cpu_flags="-"
	fi
	echo "$cpu_flags"
	log_function_data "cpu_flags: $cpu_flags"
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### print and processing of output data
#### -------------------------------------------------------------------

#### MASTER PRINT FUNCTION - triggers all line item print functions
## main function to print out, master for all sub print functions.
print_it_out()
{
	eval $LOGFS
	# note that print_it_out passes local variable values on to its children,
	# and in some cases, their children, with Lspci_Data
	local Lspci_Data='' # only for verbose

	if [[ $B_SHOW_SHORT_OUTPUT == 'true' ]];then
		print_short_data
	else
		Lspci_Data="$( get_lspci_data )"
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_SYSTEM == 'true' ]];then
			print_system_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_CPU == 'true' ]];then
			print_cpu_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_GRAPHICS == 'true' ]];then
			print_gfx_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 5 || $B_SHOW_AUDIO == 'true' ]];then
			print_audio_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 2 || $B_SHOW_NETWORK == 'true' ]];then
			print_networking_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_DISK == 'true' ]];then
			print_hard_disk_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 4 || $B_SHOW_PARTITIONS == 'true' ]];then
			print_partition_data
		fi
		if [[ $B_SHOW_UNMOUNTED_PARTITIONS == 'true' ]];then
			print_unmounted_partition_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 5 || $B_SHOW_SENSORS == 'true' ]];then
			print_sensors_data
		fi
		if [[ $B_SHOW_REPOS == 'true' ]];then
			print_repo_data
		fi
		if [[ $B_SHOW_PS_CPU_DATA == 'true' || $B_SHOW_PS_MEM_DATA == 'true' ]];then
			print_ps_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_INFO == 'true' ]];then
			print_info_data
		fi
	fi
	eval $LOGFE
}

#### SHORT OUTPUT PRINT FUNCTION, ie, verbosity 0
# all the get data stuff is loaded here to keep execution time down for single line print commands
# these will also be loaded in each relevant print function for long output
print_short_data()
{
	eval $LOGFS
	local current_kernel=$( uname -rm ) # | gawk '{print $1,$3,$(NF-1)}' )
	local processes="$(( $( ps aux | wc -l ) - 1 ))"
	local short_data='' i='' b_background_black='false'
	local memory=$( get_memory_data )
	local up_time="$( get_uptime )"

	# set A_CPU_CORE_DATA
	get_cpu_core_count
	local cpc_plural='' cpu_count_print='' model_plural=''
	local cpu_physical_count=${A_CPU_CORE_DATA[0]}
	local cpu_core_count=${A_CPU_CORE_DATA[3]}
	local cpu_core_alpha=${A_CPU_CORE_DATA[1]}
	local cpu_type=${A_CPU_CORE_DATA[2]}

	if [[ $cpu_physical_count -gt 1 ]];then
		cpc_plural='(s)'
		model_plural='s'
		cpu_count_print="$cpu_physical_count "
	fi

	local cpu_data_string="${cpu_count_print}${cpu_core_alpha} core"
# 	local cpu_core_count=${A_CPU_CORE_DATA[0]}

	# load A_HDD_DATA
	get_hdd_data_basic
	## note: if hdd_model is declared prior to use, whatever string you want inserted will
	## be inserted first. In this case, it's desirable to print out (x) before each disk found.
	local a_hdd_data_count=$(( ${#A_HDD_DATA[@]} - 1 ))
	IFS=","
	local a_hdd_basic_working=( ${A_HDD_DATA[$a_hdd_data_count]} )
	IFS="$ORIGINAL_IFS"
	local hdd_capacity=${a_hdd_basic_working[0]}
	local hdd_used=${a_hdd_basic_working[1]}

	# load A_CPU_DATA
	get_cpu_data

	IFS=","
	local a_cpu_working=(${A_CPU_DATA[0]})
	IFS="$ORIGINAL_IFS"
	local cpu_model="${a_cpu_working[0]}"
	## assemble data for output
	local cpu_clock="${a_cpu_working[1]}" # old CPU3
	# this gets that weird min/max final array item
	local min_max_clock_nu=$(( ${#A_CPU_DATA[@]} - 1 ))
	local min_max_clock=${A_CPU_DATA[$min_max_clock_nu]}

	#set_color_scheme 12
	if [[ $B_RUNNING_IN_SHELL == 'false' ]];then
		for i in $C1 $C2 $CN
		do
			case "$i" in
				"$GREEN"|"$WHITE"|"$YELLOW"|"$CYAN")
					b_background_black='true'
					;;
			esac
		done
		if [[ $b_background_black == 'true' ]];then
			for i in C1 C2 CN
			do
				## these need to be in quotes, don't know why
				if [[ ${!i} == $NORMAL ]];then
					declare $i="${!i}15,1"
				else
					declare $i="${!i},1"
				fi
			done
			#C1="${C1},1"; C2="${C2},1"; CN="${CN},1"
		fi
	fi
	short_data="${C1}CPU$cpc_plural${C2}${SEP1}${cpu_data_string} ${cpu_model}$model_plural (${cpu_type}) clocked at ${min_max_clock}${SEP2}${C1}Kernel${C2}${SEP1}${current_kernel}${SEP2}${C1}Up${C2}${SEP1}${up_time}${SEP2}${C1}Mem${C2}${SEP1}${memory}${SEP2}${C1}HDD${C2}${SEP1}${hdd_capacity}($hdd_used)${SEP2}${C1}Procs${C2}${SEP1}${processes}${SEP2}"

	if [[ $SHOW_IRC -gt 0 ]];then
		short_data="${short_data}${C1}Client${C2}${SEP1}${IRC_CLIENT}${IRC_CLIENT_VERSION}${SEP2}"
	fi
	short_data="${short_data}${C1}$SCRIPT_NAME${C2}${SEP1}$SCRIPT_VERSION_NUMBER${SEP2}${CN}"
	if [[ $SCHEME -gt 0 ]];then
		short_data="${short_data} $NORMAL"
	fi
	print_screen_output "$short_data"
	eval $LOGFE
}

#### LINE ITEM PRINT FUNCTIONS

# print sound card data
print_audio_data()
{
	eval $LOGFS
	local i='' card_one='Card-1' audio_data='' a_audio_data='' port_data='' pci_bus_id=''
	local a_audio_working='' alsa_driver='' alsa_data='' port_plural='' module_version=''
	# set A_AUDIO_DATA and get alsa data
	get_audio_data
	alsa_data=$( get_audio_alsa_data )
	IFS=","
	a_audio_working=(${A_AUDIO_DATA[0]})
	IFS="$ORIGINAL_IFS"

	if [[ -n ${A_AUDIO_DATA[@]} ]];then
		# slightly complicated because 2nd array item could be the alsa data
		if [[ ${#A_AUDIO_DATA[@]} -le 1 ]];then
			card_one='Card'
		fi

# 		if [[ -n ${a_audio_working[2]} ]];then
# 			port_data=" ${C1}port${C2} ${a_audio_working[2]}"
# 		fi
		# this should only trigger if the $FILE_ASOUND_DEVICE data is used, not lspci -nn
		if [[ -n ${a_audio_working[3]} && $B_EXTRA_DATA == 'true' ]];then
			# note that for some reason, the module name is not the same as the module
			# loaded to kernel name for audio drivers, and you'll need to change the -
			module_version=$( print_module_version "${a_audio_working[3]}" 'audio' )
		elif [[ -n ${a_audio_working[1]} && $B_EXTRA_DATA == 'true' ]];then
			module_version=$( print_module_version "${a_audio_working[1]}" 'audio' )
		fi
		if [[ -n ${a_audio_working[1]} ]];then
			alsa_driver=" ${C1}driver${C2} ${a_audio_working[1]}$module_version"
		fi
		if [[ -n ${a_audio_working[2]} && $B_EXTRA_DATA == 'true' ]];then
			if [[ $( wc -w <<< ${a_audio_working[2]} ) -gt 1 ]];then
				port_plural='s'
			fi
			port_data=" ${C1}port$port_plural${C2} ${a_audio_working[2]}"
		fi
		if [[ -n ${a_audio_working[4]} && $B_EXTRA_DATA == 'true' ]];then
			pci_bus_id=" ${C1}busID:${C2} ${a_audio_working[4]}"
		fi
		audio_data="${C1}$card_one${C2} ${a_audio_working[0]}$alsa_driver$port_data$pci_bus_id"
		audio_data=$( create_print_line "Audio:" "$audio_data" )
		print_screen_output "$audio_data"
		i=0 ## loop starts with 1 by auto-increment so it only shows cards > 1
		while [[ -n ${A_AUDIO_DATA[++i]} ]]
		do
			IFS=","
			a_audio_working=( ${A_AUDIO_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			port_data=''
			alsa_driver=''
			port_plural=''
			module_version=''
			pci_bus_id=''
			if [[ -n ${a_audio_working[3]} && $B_EXTRA_DATA == 'true' ]];then
				module_version=$( print_module_version "${a_audio_working[3]}" 'audio' )
			elif [[ -n ${a_audio_working[1]} && $B_EXTRA_DATA == 'true' ]];then
				module_version=$( print_module_version "${a_audio_working[1]}" 'audio' )
			fi
			# we're testing for the presence of the 2nd array item here, which is the driver name
			if [[ -n ${a_audio_working[1]} ]];then
				alsa_driver=" ${C1}driver${C2} ${a_audio_working[1]}"
			fi
			if [[ -n ${a_audio_working[2]} && $B_EXTRA_DATA == 'true' ]];then
				if [[ $( wc -w <<< ${a_audio_working[2]} ) -gt 1 ]];then
					port_plural='s'
				fi
				port_data=" ${C1}port$port_plural${C2} ${a_audio_working[2]}"
			fi
			if [[ -n ${a_audio_working[4]} && $B_EXTRA_DATA == 'true' ]];then
				pci_bus_id=" ${C1}busID:${C2} ${a_audio_working[4]}"
			fi
			if [[ -n ${a_audio_working[0]} ]];then
				audio_data="${C1}Card-$(( $i + 1 ))${C2} ${a_audio_working[0]}$alsa_driver$port_data$pci_bus_id"
			fi
			if [[ -n $audio_data ]];then
				audio_data=$( create_print_line " " "$audio_data" )
				print_screen_output "$audio_data"
			fi
		done
		# alsa driver data only prints out if sound card data is found
		if [[ -n $alsa_data ]];then
			audio_data="${C1}Sound:${C2} $alsa_data"
			audio_data=$( create_print_line " " "$audio_data" )
			print_screen_output "$audio_data"
		fi
	fi
	eval $LOGFE
}

print_cpu_data()
{
	eval $LOGFS
	local cpu_data='' i='' cpu_clock_speed='' cpu_multi_clock_data=''
	local bmip_data='' cpu_cache='' cpu_vendor='' cpu_flags=''

	##print_screen_output "A_CPU_DATA[0]=\"${A_CPU_DATA[0]}\""
	# Array A_CPU_DATA always has one extra element: max clockfreq found.
	# that's why its count is one more than you'd think from cores/cpus alone
	# load A_CPU_DATA
	get_cpu_data

	IFS=","
	local a_cpu_working=(${A_CPU_DATA[0]})
	IFS="$ORIGINAL_IFS"
	local cpu_model="${a_cpu_working[0]}"
	## assemble data for output
	local cpu_clock="${a_cpu_working[1]}"

	cpu_vendor=${a_cpu_working[5]}

	# set A_CPU_CORE_DATA
	get_cpu_core_count
	local cpc_plural='' cpu_count_print='' model_plural=''
	local cpu_physical_count=${A_CPU_CORE_DATA[0]}
	local cpu_core_count=${A_CPU_CORE_DATA[3]}
	local cpu_core_alpha=${A_CPU_CORE_DATA[1]}
	local cpu_type=${A_CPU_CORE_DATA[2]}

	if [[ $cpu_physical_count -gt 1 ]];then
		cpc_plural='(s)'
		cpu_count_print="$cpu_physical_count "
		model_plural='s'
	fi

	local cpu_data_string="${cpu_count_print}${cpu_core_alpha} core"
	# Strange (and also some expected) behavior encountered. If print_screen_output() uses $1
	# as the parameter to output to the screen, then passing "<text1> ${ARR[@]} <text2>"
	# will output only <text1> and first element of ARR. That "@" splits in elements and "*" _doesn't_,
	# is to be expected. However, that text2 is consecutively truncated is somewhat strange, so take note.
	# This has been confirmed by #bash on freenode.
	# The above mentioned only emerges when using the debugging markers below
	## print_screen_output "a_cpu_working=\"***${a_cpu_working[@]} $hostName+++++++\"----------"

	if [[ -z ${a_cpu_working[2]} ]];then
		a_cpu_working[2]="unknown"
	fi

	cpu_data=$( create_print_line "CPU$cpc_plural:" "${C1}${cpu_data_string}${C2} ${a_cpu_working[0]}$model_plural (${cpu_type})" )
	if [[ $VERBOSITY_LEVEL -ge 3 || $B_SHOW_CPU == 'true' ]];then
		# update for multicore, bogomips x core count.
		if [[ $B_EXTRA_DATA == 'true' ]];then
# 			if [[ $cpu_vendor != 'intel' ]];then
				bmip_data=$( calculate_multicore_data "${a_cpu_working[4]}" "$(( $cpu_core_count * $cpu_physical_count ))" )
# 			else
# 				bmip_data="${a_cpu_working[4]}"
# 			fi
			bmip_data=" ${C1}bmips${C2} $bmip_data"
		fi
		## note: this handles how intel reports L2, total instead of per core like AMD does
		# note that we need to multiply by number of actual cpus here to get true cache size
		if [[ $cpu_vendor != 'intel' ]];then
			cpu_cache=$( calculate_multicore_data "${a_cpu_working[2]}" "$(( $cpu_core_count * $cpu_physical_count ))"  )
		else
			cpu_cache=$( calculate_multicore_data "${a_cpu_working[2]}" "$cpu_physical_count"  )
		fi
		# only print shortened list
		if [[ $B_CPU_FLAGS_FULL != 'true' ]];then
			cpu_flags=$( process_cpu_flags "${a_cpu_working[3]}" )
			cpu_flags=" ${C1}flags${C2} ($cpu_flags)"
		fi
		cpu_data="$cpu_data${C2} ${C1}cache${C2} $cpu_cache$cpu_flags$bmip_data${CN}"
	fi
	# we don't this printing out extra line unless > 1 cpu core
	if [[ ${#A_CPU_DATA[@]} -gt 2 ]] && [[ $B_SHOW_CPU == 'true' || $VERBOSITY_LEVEL -ge 5 ]];then
		cpu_clock_speed='' # null < verbosity level 5
	else
		cpu_data="$cpu_data ${C1}clocked at${C2} ${a_cpu_working[1]} MHz${CN}"
	fi

	cpu_data="$cpu_data $cpu_clock_speed"
	print_screen_output "$cpu_data"

	# we don't this printing out extra line unless > 1 cpu core
	if [[ ${#A_CPU_DATA[@]} -gt 2 ]] && [[ $B_SHOW_CPU == 'true' || $VERBOSITY_LEVEL -ge 5 ]];then
		for (( i=0; i < ${#A_CPU_DATA[@]}-1; i++ ))
		do
			IFS=","
			a_cpu_working=(${A_CPU_DATA[i]})
			IFS="$ORIGINAL_IFS"
			# note: the first iteration will create a first space, for color code separation below
			cpu_multi_clock_data="$cpu_multi_clock_data ${C1}($(( i + 1 )))${C2} ${a_cpu_working[1]} MHz${CN}"
			# someone actually appeared with a 16 core system, so going to stop the cpu core throttle
			# if this had some other purpose which we can't remember we'll add it back in
			#if [[ $i -gt 10 ]];then
			#	break
			#fi
		done
		if [[ -n $cpu_multi_clock_data ]];then
			cpu_multi_clock_data=$( create_print_line " " "${C1}Clock Speeds:${C2}$cpu_multi_clock_data" )
			print_screen_output "$cpu_multi_clock_data"
		fi
	fi
	if [[ $B_CPU_FLAGS_FULL == 'true' ]];then
		print_cpu_flags_full "${a_cpu_working[3]}"
	fi
	eval $LOGFE
}

# takes list of all flags, split them and prints x per line
# args: $1 - cpu flag string
print_cpu_flags_full()
{
	eval $LOGFS
	local cpu_flags_full="$1" a_cpu_flags='' line_starter=''
	local i=0 counter=0 max_length=18 max_length_add=18 flag='' flag_data=''

	# build the flag line array
	for flag in $cpu_flags_full
	do
		a_cpu_flags[$counter]="${a_cpu_flags[$counter]}$flag "
		if [[ $i -ge $max_length ]];then
			(( counter++ ))
			max_length=$(( $max_length + $max_length_add ))
		fi
		((i++))
	done
	# then print it out
	for (( i=0; i < ${#a_cpu_flags[@]};i++ ))
	do
		if [[ $i -eq 0 ]];then
			line_starter="${C1}CPU Flags${C2} "
		else
			line_starter=''
		fi
		flag_data=$( create_print_line " " "$line_starter${a_cpu_flags[$i]}" )
		print_screen_output "$flag_data"
	done
	eval $LOGFE
}

print_gfx_data()
{
	eval $LOGFS
	local gfx_data='' i='' card_id='' root_alert='' root_x_string='' a_gfx_working=''
	local screen_resolution="$( get_graphics_res_data )"
	local b_is_mesa='false' display_full_string='' gfx_bus_id='' gfx_card_data=''
	# set A_GFX_CARD_DATA
	get_graphics_card_data
	# set A_X_DATA
	get_graphics_x_data
	local x_vendor=${A_X_DATA[0]}
	local x_version=${A_X_DATA[1]}
	# set A_GLX_DATA
	get_graphics_glx_data
	local glx_renderer="${A_GLX_DATA[0]}"
	local glx_version="${A_GLX_DATA[1]}"
	# this can contain a long No case debugging message, so it's being sliced off
	# note: using grep -ioE '(No|Yes)' <<< ${A_GLX_DATA[2]} did not work in Arch, no idea why
	local glx_direct_render=$( gawk '{
		print $1
	}'  <<< "${A_GLX_DATA[2]}" )
	# some basic error handling:
	if [[ -z $screen_resolution ]];then
		screen_resolution='N/A'
	fi
	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		if [[ -z $x_vendor || -z $x_version ]];then
			x_vendor='X-Vendor: N/A'
		fi
		display_full_string="${C1}$x_vendor${C2} $x_version ${C1}Res:${C2} ${screen_resolution} "
	else
		root_x_string=''
		if [[ $B_ROOT == 'true' ]];then
			root_x_string='for root '
		fi
		if [[ $B_X_RUNNING != 'true' ]];then
			root_x_string="${root_x_string}out of X"
		fi
		if [[ -n $x_vendor && -n $x_version ]];then
			display_full_string="${C1}$x_vendor${C2} $x_version ${C1}Res:${C2} ${screen_resolution} ${C1}Gfx Data:${C2} N/A $root_x_string"
		elif [[ $B_X_RUNNING == 'true' && $B_ROOT == 'true' ]];then
			root_alert="${C1}Gfx Data:${C2} N/A for root user"
			display_full_string="${C1}tty res:${C2} ${screen_resolution} $root_alert"
		fi
	fi

	if [[ ${#A_GFX_CARD_DATA[@]} -gt 0 ]];then
		for (( i=0; i < ${#A_GFX_CARD_DATA[@]}; i++ ))
		do
			IFS=","
			a_gfx_working=( ${A_GFX_CARD_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			gfx_bus_id=''
			gfx_card_data=${a_gfx_working[0]}
			if [[ $B_EXTRA_DATA == 'true' ]];then
				if [[ -n ${a_gfx_working[1]} ]];then
					gfx_bus_id=" ${C1}busID:${C2} ${a_gfx_working[1]}"
				else
					gfx_bus_id=" ${C1}busID:${C2} N/A"
				fi
			fi
			if [[ ${#A_GFX_CARD_DATA[@]} -gt 1 ]];then
				card_id="Card-$(($i+1)):"
			else
				card_id='Card:'
			fi
			gfx_data="$gfx_data${C1}$card_id${C2} $gfx_card_data$gfx_bus_id "
		done
	# handle cases where card detection fails, like in PS3, where lspci gives no output, or headless boxes..
	else
		gfx_data="${C1}Card:${C2} Failed to Detect Video Card! "
	fi
	gfx_data=$( create_print_line "Graphics:" "${gfx_data}$display_full_string" )
	print_screen_output "$gfx_data"

# 	if [[ -z $glx_renderer || -z $glx_version ]];then
# 		b_is_mesa='true'
# 	fi

	## note: if glx render or version have no content, then mesa is true
	# if [[ $B_X_RUNNING == 'true' ]] && [[ $b_is_mesa != 'true' ]];then
	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		if [[ -z $glx_renderer ]];then
			glx_renderer='N/A'
		fi
		if [[ -z $glx_version ]];then
			glx_version='N/A'
		fi
		if [[ -z $glx_direct_render ]];then
			glx_direct_render='N/A'
		fi
		gfx_data=$( create_print_line " " "${C1}GLX Renderer${C2} ${glx_renderer} ${C1}GLX Version${C2} ${glx_version}${CN}" )
		if [[ $B_HANDLE_CORRUPT_DATA == 'true' || $B_EXTRA_DATA == 'true' ]];then
			gfx_data="$gfx_data ${C1}Direct Rendering${C2} ${glx_direct_render}${CN}"
		fi
		print_screen_output "$gfx_data"
	fi
	eval $LOGFE
}

print_hard_disk_data()
{
	eval $LOGFS
	local hdd_data='' hdd_data_2='' a_hdd_working='' hdd_temp_data='' hdd_string=''
	local dev_data='' size_data='' hdd_model='' usb_data='' hdd_name='' divisor=5

	# load A_HDD_DATA
	get_hdd_data_basic
	## note: if hdd_model is declared prior to use, whatever string you want inserted will
	## be inserted first. In this case, it's desirable to print out (x) before each disk found.
	local a_hdd_data_count=$(( ${#A_HDD_DATA[@]} - 1 ))
	IFS=","
	local a_hdd_basic_working=( ${A_HDD_DATA[$a_hdd_data_count]} )
	IFS="$ORIGINAL_IFS"
	local hdd_capacity=${a_hdd_basic_working[0]}
	local hdd_used=${a_hdd_basic_working[1]}

	if [[ $VERBOSITY_LEVEL -ge 3 || $B_SHOW_DISK == 'true' ]];then
	## note: the output part of this should be in the print hdd data function, not here
		get_hard_drive_data_advanced
		for (( i=0; i < ${#A_HDD_DATA[@]} - 1; i++ ))
		do
			# this adds the (x) numbering in front of each disk found, and creates the full disk string
			IFS=","
			a_hdd_working=( ${A_HDD_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			if [[ $B_SHOW_DISK == 'true' || $VERBOSITY_LEVEL -ge 5 ]];then
				if [[ -n ${a_hdd_working[3]} ]];then
					usb_data="${a_hdd_working[3]} "
				else
					usb_data=''
				fi
				dev_data="/dev/${a_hdd_working[0]} "
				size_data=" ${a_hdd_working[1]}"
				if [[ $B_EXTRA_DATA == 'true' && -n $dev_data ]];then
					hdd_temp_data=$( get_hdd_temp_data "$dev_data" )
					# error handling is done in get data function
					if [[ -n $hdd_temp_data ]];then
						hdd_temp_data=" ${hdd_temp_data}C"
					else
						hdd_temp_data=''
					fi
				fi
				divisor=2 # for modulus line print out, either 2 items for full, or default for short
			fi
			hdd_name="${a_hdd_working[2]}"
			hdd_string="$usb_data$dev_data$hdd_name$size_data$hdd_temp_data"
			hdd_model="${hdd_model}${C1}$(($i+1)):${C2} $hdd_string "
			# printing line one, then new lines according to $divisor setting, and after, if leftovers, print that line.
			case $i in 
				0)
					hdd_data=$( create_print_line "Disks:" "${C1}HDD${C2} ${C1}Total Size:${C2} ${hdd_capacity} (${hdd_used}) ${hdd_model}" )
					print_screen_output "$hdd_data"
					hdd_model=''
					;;
				*)
					# using modulus here, if divisible by $divisor, print line, otherwise skip
					if [[ $(( $i % $divisor )) -eq 0 ]];then
						hdd_data=$( create_print_line " " "${hdd_model}${CN}" )
						print_screen_output "$hdd_data"
						hdd_model=''
					fi
					;;
			esac
		done
		# then print any leftover items
		if [[ -n $hdd_model ]];then
			hdd_data=$( create_print_line " " "${hdd_model}${CN}" )
			print_screen_output "$hdd_data"
		fi
	else
		hdd_data=$( create_print_line "Disks:" "${C1}HDD Total Size:${C2} ${hdd_capacity} (${hdd_used})${CN}" )
		print_screen_output "$hdd_data"
	fi

	eval $LOGFE
}

print_info_data()
{
	eval $LOGFS

	local info_data=''
	local runlvl=''
	local memory="$( get_memory_data )"
	local processes="$(( $( ps aux | wc -l ) - 1 ))"
	local up_time="$( get_uptime )"

	# Some code could look superfluous but BitchX doesn't like lines not ending in a newline. F*&k that bitch!
	# long_last=$( echo -ne "${C1}Processes${C2} ${processes}${CN} | ${C1}Uptime${C2} ${up_time}${CN} | ${C1}Memory${C2} ${MEM}${CN}" )
	info_data=$( create_print_line "Info:" "${C1}Processes${C2} ${processes} ${C1}Uptime${C2} ${up_time} ${C1}Memory${C2} ${memory}${CN}" )

	# this only triggers if no X data is present or if extra data switch is on
	if [[ $B_X_RUNNING != 'true' || $B_EXTRA_DATA == 'true' ]];then
		runlvl="$( get_runlevel_data )"
		if [[ -n $runlvl ]];then
			info_data="${info_data} ${C1}Runlevel${C2} ${runlvl}${CN}"
		fi
	fi

	if [[ $SHOW_IRC -gt 0 ]];then
		info_data="${info_data} ${C1}Client${C2} ${IRC_CLIENT}${IRC_CLIENT_VERSION}${CN}"
	fi
	info_data="${info_data} ${C1}$SCRIPT_NAME${C2} $SCRIPT_VERSION_NUMBER${CN}"

	if [[ $SCHEME -gt 0 ]];then
		info_data="${info_data} ${NORMAL}"
	fi
	print_screen_output "$info_data"
	eval $LOGFE
}

# args: $1 - module name (could be > 1, so loop it ); $2 - audio (optional)
print_module_version()
{
	eval $LOGFS
	local module_versions='' module='' version='' prefix='' modules=$1
	
	# note that sound driver data tends to have upper case, but modules are lower
	if [[ $2 == 'audio' ]];then
		if [[ -z $( grep -E '^snd' <<< $modules ) ]];then
			prefix='snd_' # sound modules start with snd_
		fi
		modules=$( tr '[A-Z]' '[a-z]' <<< $modules )
		modules=$( tr '-' '_' <<< $modules )
		# special intel processing, generally no version info though
		if [[ $modules == 'hda intel' ]];then
			modules='hda_intel'
		elif [[ $modules == 'intel ich' ]];then
			modules='intel8x0'
		fi
	fi

	for module in $modules
	do
		version=$( get_module_version_number "$prefix$module" )
		if [[ -n $version ]];then
			module_versions="$module_versions $version"
		fi
	done

	if [[ -n $module_versions ]];then
		echo " ${C1}v:${C2}$module_versions"
	fi
	eval $LOGFE
}

print_networking_data()
{
	eval $LOGFS
	local i='' card_one='Card-1' network_data='' a_network_working='' port_data='' driver_data=''
	local card_string='' port_plural='' module_version='' pci_bus_id=''
	# set A_NETWORK_DATA
	get_networking_data

	IFS=","
	a_network_working=(${A_NETWORK_DATA[0]})
	IFS="$ORIGINAL_IFS"

	# will never be null because null is handled in get_network_data, but in case we change
	# that leaving this test in place.
	if [[ -n ${A_NETWORK_DATA[@]} ]];then
		if [[ ${#A_NETWORK_DATA[@]} -le 1 ]];then
			card_one='Card'
		fi
		if [[ -n ${a_network_working[1]} && $B_EXTRA_DATA == 'true' ]];then
			module_version=$( print_module_version "${a_network_working[1]}" )
		fi
		if [[ -n ${a_network_working[1]} ]];then
			driver_data=" ${C1}driver${C2} ${a_network_working[1]}$module_version"
		fi
		if [[ -n ${a_network_working[2]} && $B_EXTRA_DATA == 'true' ]];then
			if [[ $( wc -w <<< ${a_network_working[2]} ) -gt 1 ]];then
				port_plural='s'
			fi
			port_data=" ${C1}port$port_plural${C2} ${a_network_working[2]}"
		fi
		if [[ -n ${a_network_working[4]} && $B_EXTRA_DATA == 'true' ]];then
			pci_bus_id=" ${C1}busID:${C2} ${a_network_working[4]}"
		fi
		
		card_string=''
		network_data="${C1}$card_one${C2} ${a_network_working[0]}$driver_data$port_data$pci_bus_id"
		network_data=$( create_print_line "Network:" "$network_data" )
		print_screen_output "$network_data"
		print_network_advanced_data
		i=0 ## loop starts with 1 by auto-increment so it only shows cards > 1
		while [[ -n ${A_NETWORK_DATA[++i]} ]]
		do
			IFS=","
			a_network_working=( ${A_NETWORK_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			port_data=''
			driver_data=''
			port_plural=''
			module_version=''
			pci_bus_id=''
			if [[ -n ${a_network_working[1]} && $B_EXTRA_DATA == 'true' ]];then
				module_version=$( print_module_version "${a_network_working[1]}" )
			fi
			if [[ -n ${a_network_working[1]} ]];then
				driver_data=" ${C1}driver${C2} ${a_network_working[1]}$module_version"
			fi
			if [[ -n ${a_network_working[2]} && $B_EXTRA_DATA == 'true' ]];then
				if [[ $( wc -w <<< ${a_network_working[2]} ) -gt 1 ]];then
					port_plural='s'
				fi
				port_data=" ${C1}port$port_plural${C2} ${a_network_working[2]}"
			fi
			if [[ -n ${a_network_working[4]} && $B_EXTRA_DATA == 'true' ]];then
				pci_bus_id=" ${C1}busID:${C2} ${a_network_working[4]}"
			fi
			network_data="${C1}Card-$(( $i + 1 ))${C2} ${a_network_working[0]}$driver_data$port_data$pci_bus_id"
			network_data=$( create_print_line " " "$network_data" )
			
			print_screen_output "$network_data"
			print_network_advanced_data
		done
	fi
	if [[ $B_SHOW_IP == 'true' ]];then
		print_networking_ip_data
	fi
	eval $LOGFE
}

print_network_advanced_data()
{
	eval $LOGFS
	local network_data='' if_id='N/A' duplex='N/A' mac_id='N/A' speed='N/A' oper_state='N/A'
	
	if [[ $B_SHOW_ADVANCED_NETWORK == 'true' ]];then
		if [[ -n ${a_network_working[5]} ]];then
			if_id=${a_network_working[5]}
		fi
		if [[ -n ${a_network_working[6]} ]];then
			oper_state=${a_network_working[6]}
		fi
		if [[ -n ${a_network_working[7]} ]];then
			# make sure the value is strictly numeric before appending Mbps
			if [[ -n $( grep -E '^[0-9\.,]+$' <<< "${a_network_working[7]}" ) ]];then
				speed="${a_network_working[7]} Mbps"
			else
				speed=${a_network_working[7]}
			fi
		fi
		if [[ -n ${a_network_working[8]} ]];then
			duplex=${a_network_working[8]}
		fi
		if [[ -n ${a_network_working[9]} ]];then
			if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
				mac_id=${a_network_working[9]}
			else
				mac_id='<irc-filter>'
			fi
		fi
		network_data="${C1}IF:${C2} $if_id ${C1}state:${C2} $oper_state ${C1}speed:${C2} $speed"
		network_data="$network_data ${C1}duplex:${C2} $duplex ${C1}mac:${C2} $mac_id"
		network_data=$( create_print_line " " "$network_data" )
		print_screen_output "$network_data"
	fi
	
	eval $LOGFE
}

print_networking_ip_data()
{
	eval $LOGFS
	local ip=$( get_networking_wan_ip_data )
	local ip_data='' a_interfaces_working='' interfaces='' interfaces_2='' i=''
	local if_id='' if_ip=''

	# set A_INTERFACES_DATA
	get_networking_local_ip_data
	# first print output for wan ip line. Null is handled in the get function
	if [[ -z $ip ]];then
		ip='N/A'
	fi
	ip_data=$( create_print_line " " "${C1}Wan IP:${C2} $ip" )

	# then create the list of local interface/ip
	i=0 ## loop starts with 1 by auto-increment so it only shows cards > 1
	while [[ -n ${A_INTERFACES_DATA[i]} ]]
	do
		IFS=","
		a_interfaces_working=(${A_INTERFACES_DATA[i]})
		IFS="$ORIGINAL_IFS"
		if_id='N/A'
		if_ip='N/A'
		if [[ -n ${a_interfaces_working[1]} ]];then
			if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
				if_ip=${a_interfaces_working[1]}
			else
				if_ip='<irc-filter>'
			fi
		fi
		if [[ -n ${a_interfaces_working[0]} ]];then
			if_id=${a_interfaces_working[0]}
		fi
		if [[ $i -lt 3 ]];then
			interfaces="$interfaces ${C1}IF IP:${C2} $if_id ${C1}-${C2} $if_ip"
		else
			# space on end here for lining up with line starter
			interfaces_2="$interfaces_2${C1}IF IP:${C2} $if_id ${C1}-${C2} $if_ip "
		fi
		((i++))
	done
	print_screen_output "$ip_data$interfaces"
	# then wrap it if needed
	if [[ -n $interfaces_2 ]];then
		interfaces_2=$( create_print_line " " "$interfaces_2" )
		print_screen_output "$interfaces_2"
	fi
	eval $LOGFE
}

print_partition_data()
{
	eval $LOGFS
	local a_partition_working='' partition_used='' partition_data=''
	local counter=0 line_max=160  i=0 a_partition_data='' line_starter=''
	local partitionIdClean='' part_dev='' full_dev='' part_label='' full_label=''
	local part_uuid='' full_uuid='' dev_remote='' full_fs=''

	# this handles the different, shorter, irc colors strings embedded in variable data
	if [[ $B_RUNNING_IN_SHELL != 'true' ]];then
		line_max=130
	fi
	# and no color string data at all
	if [[ $SCHEME -eq 0 ]];then
		line_max=75
	fi
	if [[ $B_SHOW_LABELS == 'true' || $B_SHOW_UUIDS == 'true' ]];then
		line_max=20
	fi

	# set A_PARTITION_DATA
	get_partition_data

	for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
	do
		IFS=","
		a_partition_working=(${A_PARTITION_DATA[i]})
		IFS="$ORIGINAL_IFS"
		full_label=''
		full_uuid=''

		if [[ $B_SHOW_PARTITIONS_FULL == 'true' ]] || [[ ${a_partition_working[4]} == 'main' ]];then
			if [[ -n ${a_partition_working[2]} ]];then
				partition_used=" ${C1}used:${C2} ${a_partition_working[2]} (${a_partition_working[3]})"
			else
				partition_used='' # reset partition used to null
			fi
			if [[ -n ${a_partition_working[5]} ]];then
				full_fs="${a_partition_working[5]}"
			else
				full_fs='N/A' # reset partition used to null
			fi
			full_fs=" ${C1}fs:${C2} $full_fs"

			# don't show user names in output
			if [[ $B_SHOW_LABELS == 'true' || $B_SHOW_UUIDS == 'true' ]];then
				if [[ -n ${a_partition_working[6]} ]];then
					if [[ -z $( grep -E '(^//|:/)' <<< ${a_partition_working[6]} ) ]];then
						part_dev="/dev/${a_partition_working[6]}"
						dev_remote='dev'
					else
						part_dev="${a_partition_working[6]}"
						dev_remote='remote'
					fi
				else
					dev_remote='dev'
					part_dev='N/A'
				fi
				full_dev=" ${C1}$dev_remote:${C2} $part_dev"
				if [[ $B_SHOW_LABELS == 'true' && $dev_remote != 'remote' ]];then
					if [[ -n ${a_partition_working[7]} ]];then
						part_label="${a_partition_working[7]}"
					else
						part_label='N/A'
					fi
					full_label=" ${C1}label:${C2} $part_label"
				fi
				if [[ $B_SHOW_UUIDS == 'true' && $dev_remote != 'remote' ]];then
					if [[ -n ${a_partition_working[8]} ]];then
						part_uuid="${a_partition_working[8]}"
					else
						part_uuid='N/A'
					fi
					full_uuid=" ${C1}uuid:${C2} $part_uuid"
				fi
			fi
			if [[ $B_RUNNING_IN_SHELL == 'false' ]];then
				partitionIdClean=$( sed -r 's|/home/(.*)/(.*)|/home/##/\2|' <<< ${a_partition_working[0]} )
			else
				partitionIdClean=${a_partition_working[0]}
			fi
			# because these lines can vary widely, using dynamic length handling here
			a_partition_data[$counter]="${a_partition_data[$counter]}${C1}ID:${C2}$partitionIdClean ${C1}size:${C2} ${a_partition_working[1]}$partition_used$full_fs$full_dev$full_label$full_uuid "

			if [[ $( wc -c <<< ${a_partition_data[$counter]} ) -gt $line_max ]];then
				((counter++))
			fi
		fi
	done
	# print out all lines, line starter on first line
	for (( i=0; i < ${#a_partition_data[@]};i++ ))
	do
		if [[ $i -eq 0 ]];then
			line_starter='Partition:'
		else
			line_starter=' '
		fi
		partition_data=$( create_print_line "$line_starter" "${a_partition_data[$i]}" )
		print_screen_output "$partition_data"
	done
	
	eval $LOGFE
}

print_ps_data()
{
	eval $LOGFS
	
	local b_print_first='true' 

	if [[ $B_SHOW_PS_CPU_DATA == 'true' ]];then
		get_ps_data 'cpu'
		print_ps_item 'cpu' "$b_print_first"
		b_print_first='false' 
	fi
	if [[ $B_SHOW_PS_MEM_DATA == 'true' ]];then
		get_ps_data 'mem'
		print_ps_item 'mem' "$b_print_first"
	fi
	
	eval $LOGFE
}

# args: $1 - cpu/mem; $2 true/false
print_ps_item()
{
	eval $LOGFS
	local a_ps_data='' ps_data='' line_starter='' line_start_data='' full_line=''
	local app_name='' app_pid='' app_cpu='' app_mem='' throttled='' app_daemon=''
	local b_print_first=$2 line_counter=0 i=0 count_nu='' extra_data=''
	
	if [[ -n $PS_THROTTLED ]];then
		throttled=" ${C1} - throttled from${C2} $PS_THROTTLED"
	fi
	case $1 in
		cpu)
			line_start_data="${C1}CPU - % used - top ${C2} $PS_COUNT ${C1}active$throttled "
			;;
		mem)
			line_start_data="${C1}Memory - MB / % used - top ${C2} $PS_COUNT ${C1}active$throttled"
			;;
	esac
	
	if [[ $b_print_first == 'true' ]];then
		line_starter='Processes:'
	else
		line_starter=' '
	fi
	
	# appName, appPath, appStarterName, appStarterPath, cpu, mem, pid, vsz, user
	ps_data=$( create_print_line "$line_starter" "$line_start_data" )
	print_screen_output "$ps_data"

	for (( i=0; i < ${#A_PS_DATA[@]}; i++ ))
	do
		IFS=","
		a_ps_data=(${A_PS_DATA[i]})
		IFS="$ORIGINAL_IFS"
		
		# handle the converted app names, with ~..~ means it didn't have a path
		if [[ -n $( grep -E '^~.*~$' <<<  ${a_ps_data[0]} ) ]];then
			app_daemon='daemon:'
		else
			app_daemon='command:'
		fi

		app_name=" ${C1}$app_daemon${C2} ${a_ps_data[0]}"
		if [[ ${a_ps_data[0]} != ${a_ps_data[2]} ]];then
			app_name="$app_name ${C1}(started by:${C2} ${a_ps_data[2]}${C1})${C2}"
		fi
		app_pid=" ${C1}pid:${C2} ${a_ps_data[6]}"
		#  ${C1}user:${C2} ${a_ps_data[8]}
		case $1 in
			cpu)
				app_cpu=" ${C1}cpu:${C2} ${a_ps_data[4]}%"
				if [[ $B_EXTRA_DATA == 'true' ]];then
					extra_data=" ${C1}mem:${C2} ${a_ps_data[7]}MB (${a_ps_data[5]}%)${C2}"
				fi
				;;
			mem)
				app_mem=" ${C1}mem:${C2} ${a_ps_data[7]}MB (${a_ps_data[5]}%)${C2}"
				if [[ $B_EXTRA_DATA == 'true' ]];then
					extra_data=" ${C1}cpu:${C2} ${a_ps_data[4]}%"
				fi
				;;
		esac
		(( line_counter++ ))
		count_nu="${C1}$line_counter -${C2}"
		full_line="$count_nu$app_cpu$app_mem$app_name$app_pid$extra_data"
		ps_data=$( create_print_line " " "$full_line" )
		print_screen_output "$ps_data"
	done
	
	eval $LOGFE
}


# currently only apt using distros support this feature, but over time we can add others
print_repo_data()
{
	eval $LOGFS
	local repo_count=0 repo_line='' file_name='' file_content='' file_name_holder=''
	local repo_full='' b_print_next_line='false' 
	
	get_repo_data
	
	if [[ -n $REPO_DATA ]];then
		# loop through the variable's lines one by one, update counter each iteration
		while read repo_line
		do
			(( repo_count++ ))
			file_name=$( cut -d ':' -f 1 <<< $repo_line )
			file_content=$( cut -d ':' -f 2-6 <<< $repo_line )
			# this will dump unwanted white space line starters. Some irc channels
			# use bots that show page title for urls, so need to break the url by adding 
			# a white space.
			if [[ $B_RUNNING_IN_SHELL != 'true' ]];then
				file_content=$( echo $file_content | sed 's|://|: //|' )
			else
				file_content=$( echo $file_content )
			fi
			# check file name, if different, update the holder for print out
			if [[ $file_name != $file_name_holder ]];then
				if [[ $REPO_FILE_ID != 'pisi repo' ]];then
					repo_full="${C1}Active $REPO_FILE_ID in file:${C2} $file_name"
				else
					repo_full="${C1}$REPO_FILE_ID:${C2} $file_name"
				fi
				file_name_holder=$file_name
				b_print_next_line='true'
			else
				repo_full=$file_content
			fi
			# first line print Repos: 
			if [[ $repo_count -eq 1 ]];then
				repo_full=$( create_print_line "Repos:" "$repo_full" )
			else
				repo_full=$( create_print_line " " "$repo_full" )
			fi
			print_screen_output "$repo_full"
			# this prints the content of the file as well as the file name
			if [[ $b_print_next_line == 'true' ]];then
				repo_full=$( create_print_line " " "$file_content" )
				print_screen_output "$repo_full"
				b_print_next_line='false'
			fi
		done <<< "$REPO_DATA"
	else
		repo_full=$( create_print_line "Repos:" "${C1}Error:${C2} $SCRIPT_NAME does not support this feature for your distro yet." )
		print_screen_output "$repo_full"
	fi
	eval $LOGFE
}

print_sensors_data()
{
	eval $LOGFS
	local mobo_temp='' cpu_temp='' psu_temp='' cpu_fan='' mobo_fan='' ps_fan='' sys_fans='' sys_fans2='' 
	local temp_data='' fan_data='' fan_data2='' b_is_error='false' fan_count=0 gpu_temp=''
	local a_sensors_working=''
	get_sensors_data
	
	IFS=","
	a_sensors_working=( ${A_SENSORS_DATA[0]} )
	IFS="$ORIGINAL_IFS"
	# initial error cases, for missing app or unconfigured sensors. Note that array 0
	# always has at least 3 items, cpu/mobo/psu temp in it. If it's a single item, then
	# it's an error message, not the real data arrays.
	if [[ ${#a_sensors_working[@]} -eq 1 ]];then
		cpu_temp="${C1}Error:${C2} ${A_SENSORS_DATA[0]}"
		b_is_error='true'
	else
		for (( i=0; i < ${#A_SENSORS_DATA[@]}; i++ ))
		do
			IFS=","
			a_sensors_working=( ${A_SENSORS_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			case $i in
				# first the temp data
				0)
					if [[ -n ${a_sensors_working[0]} ]];then
						cpu_temp=${a_sensors_working[0]}
					else
						cpu_temp='N/A'
					fi
					cpu_temp="${C1}System Temperatures: cpu:${C2} $cpu_temp "

					if [[ -n ${a_sensors_working[1]} ]];then
						mobo_temp=${a_sensors_working[1]}
					else
						mobo_temp='N/A'
					fi
					mobo_temp="${C1}mobo:${C2} $mobo_temp "

					if [[ -n ${a_sensors_working[2]} ]];then
						psu_temp="${C1}psu:${C2} ${a_sensors_working[2]} "
					fi
					gpu_temp=$( get_gpu_temp_data )
					# dump the unneeded screen data for single gpu systems 
					if [[ $( wc -w <<< $gpu_temp ) -eq 1 && $B_EXTRA_DATA != 'true' ]];then
						gpu_temp=$( cut -d ':' -f 2 <<< $gpu_temp )
					fi
					if [[ -n $gpu_temp ]];then
						gpu_temp="${C1}gpu:${C2} ${gpu_temp} "
					fi
					;;
				# then the fan data from main fan array
				1)
					for (( j=0; j < ${#a_sensors_working[@]}; j++ ))
					do
						case $j in
							0)
								# we need to make sure it's either cpu fan OR cpu fan and sys fan 1
								if [[ -n ${a_sensors_working[0]} ]];then
									cpu_fan="${a_sensors_working[0]}"
								elif [[ -z ${a_sensors_working[0]} && -n ${a_sensors_working[1]} ]];then
									cpu_fan="${a_sensors_working[1]}"
								else
									cpu_fan='N/A'
								fi
								cpu_fan="${C1}Fan Speeds (in rpm): cpu:${C2} $cpu_fan "
								(( fan_count++ ))
								;;
							1)
								if [[ -n ${a_sensors_working[1]} ]];then
									mobo_fan="${C1}mobo:${C2} ${a_sensors_working[1]} "
									(( fan_count++ ))
								fi
								;;
							2)
								if [[ -n ${a_sensors_working[2]} ]];then
									ps_fan="${C1}psu:${C2} ${a_sensors_working[2]} "
									(( fan_count++ ))
								fi
								;;
							[3-9]|[1-9][0-9])
								if [[ -n ${a_sensors_working[$j]} ]];then
									fan_number=$(( $j - 2 )) # sys fans start on array key 5
									# wrap after fan 6 total
									if [[ $fan_count -lt 7 ]];then
										sys_fans="$sys_fans${C1}sys-$fan_number:${C2} ${a_sensors_working[$j]} "
									else
										sys_fans2="$sys_fans2${C1}sys-$fan_number:${C2} ${a_sensors_working[$j]} "
									fi
									(( fan_count++ ))
								fi
								;;
						esac
					done
					;;
				2)
					for (( j=0; j < ${#a_sensors_working[@]}; j++ ))
					do
						case $j in
							[0-9]|[1-9][0-9])
								if [[ -n ${a_sensors_working[$j]} ]];then
									fan_number=$(( $j + 1 )) # sys fans start on array key 5
									# wrap after fan 6 total
									if [[ $fan_count -lt 7 ]];then
										sys_fans="$sys_fans${C1}fan-$fan_number:${C2} ${a_sensors_working[$j]} "
									else
										sys_fans2="$sys_fans2${C1}fan-$fan_number:${C2} ${a_sensors_working[$j]} "
									fi
									(( fan_count++ ))
								fi
								;;
						esac
					done
					;;
			esac
		done
	fi
	# turning off all output for case where no sensors detected or no sensors output 
	# unless -s used explicitly. So for -F type output won't show unless valid or -! 1 used
	if [[ $b_is_error != 'true' || $B_SHOW_SENSORS == 'true' || $B_TESTING_1 == 'true' ]];then
		temp_data="$cpu_temp$mobo_temp$psu_temp$gpu_temp"
		temp_data=$( create_print_line "Sensors:" "$temp_data" )
		print_screen_output "$temp_data"
		# don't print second or subsequent lines if error data
		fan_data="$cpu_fan$mobo_fan$ps_fan$sys_fans"
		if [[ $b_is_error != 'true' && -n $fan_data ]];then
			fan_data=$( create_print_line " " "$fan_data" )
			print_screen_output "$fan_data"
			# and then second wrapped fan line if needed
			if [[ -n $sys_fans2 ]];then
				fan_data2=$( create_print_line " " "$sys_fans2" )
				print_screen_output "$fan_data2"
			fi
		fi
	fi
	eval $LOGFE
}

print_system_data()
{
	eval $LOGFS
	local system_data='' bits=''
	local host_name=$( hostname )
	local current_kernel=$( uname -rm ) # | gawk '{print $1,$3,$(NF-1)}' )
	local distro="$( get_distro_data )"
		# check for 64 bit first
	if [[ -n $( uname -m | grep -o 'x86_64' ) ]];then
		bits="(64 bit)"
	else
		bits="(32 bit)"
	fi

	if [[ $B_SHOW_HOST == 'true' ]];then
		system_data=$( create_print_line "System:" "${C1}Host${C2} $host_name ${C1}Kernel${C2}" )
	else
		system_data=$( create_print_line "System:" "${C1}Kernel${C2}" )
	fi
	system_data="$system_data $current_kernel $bits ${C1}Distro${C2} $distro"
	print_screen_output "$system_data"
	eval $LOGFE
}

print_unmounted_partition_data()
{
	eval $LOGFS
	local a_unmounted_data='' line_starter='' unmounted_data='' full_fs=''
	local full_dev='' full_size='' full_label='' full_uuid='' full_string=''
	
	if [[ -z ${A_PARTITION_DATA} ]];then
		get_partition_data
	fi
	get_unmounted_partition_data
	
	if [[ ${#A_UNMOUNTED_PARTITION_DATA[@]} -ge 1 ]];then
		for (( i=0; i < ${#A_UNMOUNTED_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_unmounted_data=(${A_UNMOUNTED_PARTITION_DATA[i]})
			IFS="$ORIGINAL_IFS"
			if [[ -z ${a_unmounted_data[0]} ]];then
				full_dev='N/A'
			else
				full_dev="/dev/${a_unmounted_data[0]}"
			fi
			full_dev="${C1}ID:${C2} $full_dev"
			if [[ -z ${a_unmounted_data[1]} ]];then
				full_size='N/A'
			else
				full_size=${a_unmounted_data[1]}
			fi
			full_size="${C1}size:${C2} $full_size"
			if [[ -z ${a_unmounted_data[2]} ]];then
				full_label='N/A'
			else
				full_label=${a_unmounted_data[2]}
			fi
			full_label="${C1}label:${C2} $full_label"
			if [[ -z ${a_unmounted_data[3]} ]];then
				full_uuid='N/A'
			else
				full_uuid=${a_unmounted_data[3]}
			fi
			full_uuid="${C1}uuid:${C2} $full_uuid"
			if [[ -z ${a_unmounted_data[4]} ]];then
				full_fs=''
			else
				full_fs="${C1}fs:${C2} ${a_unmounted_data[4]}"
			fi
			full_string="$full_dev $full_size $full_label $full_uuid $full_fs"
			if [[ $i -eq 0 ]];then
				line_starter='Unmounted:'
			else
				line_starter=' '
			fi
			unmounted_data=$( create_print_line "$line_starter" "$full_string" )
			print_screen_output "$unmounted_data"
		done
	else
		unmounted_data=$( create_print_line "Unmounted:" "No unmounted partitions detected." )
		print_screen_output "$unmounted_data"
	fi
	
	eval $LOGFE
}

########################################################################
#### SCRIPT EXECUTION
########################################################################

main $@ ## From the End comes the Beginning

## note: this EOF is needed for smxi handling, this is what triggers the full download ok
###**EOF**###