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JTAGenum.sh
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JTAGenum.sh
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#!/usr/bin/env bash
# JTAGenum for Raspberry Pi
#
# Strategically there is no user interface.
# You will probably want to understand and edit things.
# So, to use, source script and call functions:
#
# source JTAGenum.sh
# loopback_check
# scan
# scan_idcode
#
# To test without raspberrypi:
#
# DEBUG=1 scan
#
# Run with verbose output:
#
# VERBOSE=1 scan
# NOTE:
# This code provides mixed results. Sometimes it works dead-on, others times
# not. Until someone has a chance to thoroughly test you may consider this
# experimental.
#
# USER DEFINITIONS
#
# define BCM pins (mapped directly to /sys/class/gpio/gpio${pin[N]})
# 5v 5v g 14 15 18 g 23 24 g 25 8 7 1 g 12 g 16 20 21
# 3v 2 3 4 g 17 27 22 3v 10 9 11 g 0 5 6 13 19 26 g
pins=(2 3 4 17 27 22)
pinnames=(pin1 pin2 pin3 pin4 pin5 pin6)
# pinnames are strings used when printing info to console
#
# /USER DEFINITIONS
#
pattern="0110011101001101101000010111001001"
#
# WRAPPER FUNCTIONS
#
# you do not need to change this
INPUT=in
OUTPUT=out
LOW=0
HIGH=1
IGNOREPIN=255
TAP_RESET="11111"
TAP_SHIFTDR="111110100"
TAP_SHIFTIR="1111101100"
MAX_DEV_NR=8
IDCODE_LEN=32
function pinMode () {
# /sys does not support pullups. To support this swap
# out this function for a userspace library that does
# support setting pullups.
#
# I just couldn't bring myself to dealing with
# wiringPi again
local pin=$1 mode=$2 #assume passed either INPUT/OUTPUT define
test "$DEBUG" && echo -en "\t[$pin$mode] ">&2 && return 0
test -e /sys/class/gpio/gpio${pin} || \
echo "$pin" > /sys/class/gpio/export
echo "$mode" > /sys/class/gpio/gpio${pin}/direction
}
function digitalWrite () {
local pin=$1 val=$2 #assumes passed either HIGH/LOW define
test "$DEBUG" && echo -n "$pin:$val ">&2 && return 0
test $pin -ne $IGNOREPIN && \
echo "$val" > /sys/class/gpio/gpio${pin}/value
}
function digitalRead () {
local pin=$1
test "$DEBUG" && echo -n "<$pin ">&2 && echo 1 && return
cat /sys/class/gpio/gpio${pin}/value
}
#
# /WRAPPER FUNCTIONS
#
##
# Set the JTAG TAP state machine
##
function tap_state () {
local state=$1 tck=$2 tms=$3
for (( i=0; i<${#state}; i++ )); do
digitalWrite $tck $LOW
digitalWrite $tms ${state:$i:1}
digitalWrite $tck $HIGH
done
}
function pulse_tms () {
local tck=$1 tms=$2 s_tms=$3
test $tck -ne $IGNOREPIN && digitalWrite $tck $LOW
digitalWrite $tms $s_tms
test $tck -ne $IGNOREPIN && digitalWrite $tck $HIGH
}
function pulse_tdo () {
local tck=$1 tdo=$2 tdo_read=0
digitalWrite $tck $LOW
tdo_read=$(digitalRead $tdo)
digitalWrite $tck $HIGH
echo $tdo_read
}
function pulse_tdi () {
local tck=$1 tdi=$2 s_tdi=$3
digitalWrite $tck $LOW
test $tck -ne $IGNOREPIN && digitalWrite $tck $LOW
digitalWrite $tdi $s_tdi
test $tck -ne $IGNOREPIN && digitalWrite $tck $HIGH
}
function init_pins () {
local tck=$1 tms=$2 tdi=$3 ntrst=$4
for (( i=0; i<${#pins[@]}; i++ )); do
pinMode ${pins[$i]} $INPUT
done
test $tck -ne $IGNOREPIN && pinMode $tck $OUTPUT
test $tms -ne $IGNOREPIN && pinMode $tms $OUTPUT
test $tdi -ne $IGNOREPIN && pinMode $tdi $OUTPUT
test $ntrst -ne $IGNOREPIN \
&& pinMode $ntrst $OUTPUT \
&& digitalWrite $ntrst $HIGH
return 0
}
# send pattern, check if we get it back on tdo
# return 0 = no match, 1 = match,
# 2+ no pattern but line is active
# on match sets global reg_len to the lengt of the
# register between TDI and TDO
function check_data () {
local pattern=$1 iterations=$2 tck=$3 tdi=$4 tdo=$5
w=0
tdo_prev=255
nr_toggle=0
rcv=""
echo "" > /tmp/reg_len
for (( i=0; i<$iterations; i++ )); do
pulse_tdi $tck $tdi ${pattern:$w:1}
w=$(($w+1))
test $w -eq ${#pattern} && w=0
tdo_read=$(digitalRead $tdo)
test $tdo_read -ne $tdo_prev \
&& nr_toggle=$(($nr_toggle+1))
tdo_prev=$tdo_read
if [[ $i -lt ${#pattern} ]]; then
rcv="${rcv}${tdo_read}"
else
rcv="${rcv:1}${tdo_read}"
fi
if [[ $i -ge ${#pattern} ]]; then
if [[ "$rcv" = "$pattern" ]]; then
reg_len=$(($i+1-${#pattern}))
# check_data called by parent with $()
# cant modify parents global var's so...
echo $reg_len > /tmp/reg_len
echo 1
return
fi
fi
done
test $nr_toggle -gt 1 \
&& echo $nr_toggle \
|| echo 0
}
function print_pins () {
local tck=$1 tms=$2 tdo=$3 tdi=$4 ntrst=$5
test $ntrst -ne $IGNOREPIN \
&& echo -n " ntrst:${pinnames[$ntrst]}"
echo -n " tck:${pinnames[$tck]}"
echo -n " tms:${pinnames[$tms]}"
echo -n " tdo:${pinnames[$tdo]}"
test $tdi -ne $IGNOREPIN \
&& echo -n " tdi:${pinnames[$tdi]}"
}
function scan () {
echo "================================"
echo "Starting scan for pattern: $pattern"
for (( ntrst=0; ntrst<${#pins[@]}; ntrst++ )); do
for (( tck=0; tck<${#pins[@]}; tck++ )); do
test $tck -eq $ntrst && continue
for (( tms=0; tms<${#pins[@]}; tms++ )); do
test $tms -eq $ntrst && continue
test $tms -eq $tck && continue
for (( tdo=0; tdo<${#pins[@]}; tdo++ )); do
test $tdo -eq $ntrst && continue
test $tdo -eq $tck && continue
test $tdo -eq $tms && continue
for (( tdi=0; tdi<${#pins[@]}; tdi++ )); do
test $tdi -eq $ntrst && continue
test $tdi -eq $tck && continue
test $tdi -eq $tms && continue
test $tdi -eq $tdo && continue
test -n "$VERBOSE" \
&& print_pins $tck $tms $tdo $tdi $ntrst \
&& echo -n " "
init_pins ${pins[$tck]} ${pins[$tms]} ${pins[$tdi]} ${pins[$ntrst]}
tap_state $TAP_SHIFTIR ${pins[$tck]} ${pins[$tms]}
checkdatret=$(check_data $pattern $((2*${#pattern})) ${pins[$tck]} ${pins[$tdi]} ${pins[$tdo]})
if [[ $checkdatret -eq 1 ]]; then
echo -n "FOUND! "
print_pins $tck $tms $tdo $tdi $ntrst
echo " IR length: $(cat /tmp/reg_len 2>/dev/null)"
elif [[ $checkdatret -gt 1 ]]; then
echo -n "active "
print_pins $tck $tms $tdo $tdi $ntrst
echo " bits toggled:$checkdatret"
elif [[ -n "$VERBOSE" ]]; then
echo ""
fi
done
done
done
done
done
echo "================================"
}
function loopback_check () {
echo "================================"
echo "Starting loopback check..."
for (( tdo=0; tdo<${#pins[@]}; tdo++ )); do
for (( tdi=0; tdi<${#pins[@]}; tdi++ )); do
test $tdi -eq $tdo && continue
test -n "$VERBOSE" \
&& echo -n " tdo:${pinnames[$tdo]} tdi:${pinnames[$tdi]} "
init_pins $IGNOREPIN $IGNOREPIN ${pins[$tdi]} $IGNOREPIN
checkdatret=$(check_data $pattern $((2*${#pattern})) $IGNOREPIN ${pins[$tdi]} ${pins[$tdo]})
if [[ $checkdatret -eq 1 ]]; then
echo "FOUND! tdo: ${pinnames[$tdo]} tdi:${pinnames[$tdi]} reglen:$(cat /tmp/reg_len 2>/dev/null)"
elif [[ $checkdatret -gt 1 ]]; then
echo "active tdo: ${pinnames[$tdo]} tdi:${pinnames[$tdi]} bits toggled:$checkdatret"
elif [[ -n "$VERBOSE" ]]; then
echo ""
fi
done
done
echo "================================"
}
function scan_idcode () {
echo "================================"
echo "Starting scan for IDCODE..."
echo "(assumes IDCODE default DR)"
tdo_read=255
idcodes=()
for (( ntrst=0; ntrst<${#pins[@]}; ntrst++ )); do
for (( tck=0; tck<${#pins[@]}; tck++ )); do
test $tck -eq $ntrst && continue
for (( tms=0; tms<${#pins[@]}; tms++ )); do
test $tms -eq $ntrst && continue
test $tms -eq $tck && continue
for (( tdo=0; tdo<${#pins[@]}; tdo++ )); do
test $tdo -eq $ntrst && continue
test $tdo -eq $tck && continue
test $tdo -eq $tms && continue
for (( tdi=0; tdi<${#pins[@]}; tdi++ )); do
test $tdi -eq $ntrst && continue
test $tdi -eq $tck && continue
test $tdi -eq $tms && continue
test $tdi -eq $tdo && continue
test -n "$VERBOSE" \
&& print_pins $tck $tms $tdo $tdi $ntrst \
&& echo -n " "
init_pins ${pins[$tck]} ${pins[$tms]} ${pins[$tdi]} ${pins[$ntrst]}
tap_state $TAP_RESET ${pins[$tck]} ${pins[$tms]}
tap_state $TAP_SHIFTDR ${pins[$tck]} ${pins[$tms]}
for (( i=0; i<MAX_DEV_NR; i++ )); do
idcodes[$i]=0
for (( j=0; j<IDCODE_LEN; j++ )); do
pulse_tdi ${pins[$tck]} ${pins[$tdi]} 0
tdo_read=$(digitalRead ${pins[$tdo]})
test $tdo_read -ge 1 \
&& idcodes[$i]=$(( ${idcodes[$i]} | (1<<j) ))
test -n "$VERBOSE" \
&& echo -n "$tdo_read"
done
test -n "$VERBOSE" \
&& printf " %8x\n" ${idcodes[$i]}
# this probably just means we return on first idcode:
# FIXME or test at least on chained target
if [[ $((${idcodes[$i]} & 1)) -ne 1 ]] \
|| [[ ${idcodes[$i]} = $((0xffffffff)) ]]; then
break
fi
done
if [[ $i -gt 0 ]]; then
print_pins $tck $tms $tdo $tdi $ntrst
echo " devices: $i"
for (( j=0; j<i; j++ )); do
printf " 0x%08x\n" ${idcodes[$j]}
done
fi
done
done
done
done
done
echo "================================"
}
#set -e #exit on any error
# loopback_check
# scan
# scan_idcode