build/packages/bsp/rk322x/rk322x-config

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#!/bin/bash
DEVICE_TREE_PATH="/boot/dtb"
DEVICE_TREE_GLOB="rk322*-box*.dtb"
DEVICE_TREE_OVERLAY_PATH="/boot/dtb/overlay"
ARMBIAN_ENV_TXT="/boot/armbianEnv.txt"
BLACKLIST_MODPROBE_CONF="/etc/modprobe.d/blacklist-rk322x-box.conf"
BACKTITLE="Armbian RK322x device tree board selection | Paolo Sabatino"
TITLE="Board configuration"
MENU_TITLE="Please choose your board"
COLOR_RED="\Z1"
COLOR_BLACK="\Z0"
CONFIRM_FLASH_MISMATCH="\nYour board has a type of internal memory but you \
selected a board without support for that.\n\nYou will not be able to detect \
the internal memory and your system may not boot anymore\n\nAre you sure?"
NOTE_LED_GPIO_SELECTION="${COLOR_RED}Important:${COLOR_BLACK} select the \
led/gpio configuration looking on the markings of the board.\nThe right \
configuration may solve problems with devices detection like leds,\nwifi and bluetooth\n"
EMMC_OPTIONS_WARNING="eMMC optimizations that can increase stability, reliability and \n\
performance, but may also cause errors and misdetections.\n\
${COLOR_RED}emmc-pins${COLOR_BLACK} sets the default pin configuration. Suggested to use.\n\
${COLOR_RED}emmc-ddr-*${COLOR_BLACK} DDR mode, may work or not. Try one overlay at a time\n\
${COLOR_RED}emmc-hs200${COLOR_BLACK} enables HS200 mode, preferred over DDR mode, but\n\
old eMMC may not support it\n\
Test througly the eMMC after setting any of these options, \n\
${COLOR_RED}Do not set any of these options you are unsure!${COLOR_BLACK}"
HANG_OPTIONS_WARNING="\n${COLOR_RED}The wrong choice will make the system unstable or even unable to boot\n
Use default option if you are unsure!${COLOR_BLACK}"
EFUSE_PATH="/sys/bus/nvmem/devices/rockchip-efuse0/nvmem"
SDIO_WIFI_PATH="/sys/bus/sdio/devices/mmc1:0001:1"
EMMC_DEVICE_PATH="/sys/bus/mmc/devices/mmc2:0001"
NAND_DEVICE_PATH="/sys/block/rknand0/device"
declare -A CHIP_IDS
declare -A WIFI_NAMES
declare -A WIFI_CHIPS
declare -A DT_FLASH_OVERLAYS
declare -A DT_EMMC_OVERLAYS
declare -a DT_EMMC_OVERLAYS_ORDER
declare -A DT_LED_OVERLAYS
declare -a DT_LED_OVERLAYS_ORDER
declare -A DT_CPU_OVERLAYS
declare -A DT_WIFI_OVERLAYS
declare -A DT_DDR_OVERLAYS
declare -a DT_DDR_OVERLAYS_ORDER
# Declarations for the various SoCs IDs
CHIP_IDS+=(["524b2382"]="RK3228A/B")
CHIP_IDS+=(["524b2392"]="RK3229")
# Declarations for the various Wifi IDs
WIFI_NAMES+=(["3030:3030"]="South Silicon Valley 6051p/6256p")
WIFI_NAMES+=(["024c:b703"]="Realtek RTL8703bs/8723cs")
WIFI_NAMES+=(["024c:8179"]="Realtek RTL8189ES/ETV")
WIFI_NAMES+=(["6666:1111"]="Espressif ESP8089")
# Declarations for the various wifi IDs -> kernel modules
# In case the vendor has the same vendor:device ids for more than one
# device (the infamouse ssv6051p/6256p), modules are separated by comma
# and the user is asked which one she pefers.
# Note: this is only for legacy kernel for rockchip_wlan modules which
# load themselves without declaring their device ids.
WIFI_CHIPS+=(["3030:3030"]="ssv6051 ssv6x5x")
WIFI_CHIPS+=(["024c:b703"]="8723cs")
WIFI_CHIPS+=(["024c:8179"]="8189es")
WIFI_CHIPS+=(["6666:1111"]="")
# Declarations for device tree overlays
DT_FLASH_OVERLAYS+=(["emmc"]="eMMC flash memory")
DT_FLASH_OVERLAYS+=(["nand"]="NAND flash memory")
DT_EMMC_OVERLAYS+=(["emmc-pins"]="set pin configuration")
DT_EMMC_OVERLAYS+=(["emmc-ddr-ph45"]="enable DDR mode, 45 degrees phase shift")
DT_EMMC_OVERLAYS+=(["emmc-ddr-ph180"]="enable DDR mode, 180 degrees phase shift")
DT_EMMC_OVERLAYS+=(["emmc-hs200"]="enable eMMC HS200 mode")
DT_EMMC_OVERLAYS_ORDER=("emmc-pins" "emmc-ddr-ph45" "emmc-ddr-ph180" "emmc-hs200")
DT_LED_OVERLAYS+=(["led-conf-default"]="Use default (single led)")
DT_LED_OVERLAYS+=(["led-conf1"]="Chiptrip brand (MX1VR, MX4VR)")
DT_LED_OVERLAYS+=(["led-conf2"]="R329q, MXQ-RK3229")
DT_LED_OVERLAYS+=(["led-conf3"]="R28-MXQ")
DT_LED_OVERLAYS+=(["led-conf4"]="T066/T066-V2")
DT_LED_OVERLAYS+=(["led-conf5"]="AEMS IPB900")
DT_LED_OVERLAYS+=(["led-conf6"]="MXQPRO_V72/V73")
DT_LED_OVERLAYS+=(["led-conf7"]="R29_MXQ")
DT_LED_OVERLAYS_ORDER=("led-conf-default" "led-conf1" "led-conf2" "led-conf3" "led-conf4" "led-conf5" "led-conf6" "led-conf7")
DT_CPU_OVERLAYS+=(["cpu-hs"]="RK3228B or RK3229")
DT_WIFI_OVERLAYS+=(["024c:b703"]="bt-8723cs")
DT_DDR_OVERLAYS+=(["default"]="Use DDR2/DDR3 default")
DT_DDR_OVERLAYS+=(["ddr3-330"]="DDR3 330 Mhz")
DT_DDR_OVERLAYS+=(["ddr3-528"]="DDR3 528 Mhz")
DT_DDR_OVERLAYS+=(["ddr3-660"]="DDR3 660 Mhz")
DT_DDR_OVERLAYS+=(["ddr3-800"]="DDR3 800 Mhz")
DT_DDR_OVERLAYS_ORDER=("default" "ddr3-330" "ddr3-528" "ddr3-660" "ddr3-800")
KERNEL_VERSION=$(uname -r | cut -d "-" -f 1)
if [[ "$KERNEL_VERSION" < "4.5.0" ]]; then
LEGACY_KERNEL=1
else
LEGACY_KERNEL=0
fi
DT_OVERLAY_PREFIX="$(grep overlay_prefix /boot/armbianEnv.txt | cut -d "=" -f 2)-"
# Query the efuse to get the chip type.
# Not always reliable, but often.
function get_chip_type() {
CHIP_ID=$(od -A none -N 4 -tx1 $EFUSE_PATH | tr -d " ")
CHIP_TYPE=${CHIP_IDS[$CHIP_ID]}
CHIP_TYPE=${CHIP_TYPE:-"unknown"}
echo $CHIP_TYPE
return 0
}
# Get the chip serial, from bytes 7 to 22 of the efuse
function get_chip_serial() {
ASCII_PART=$(od -A none -j 7 -N 9 -tc $EFUSE_PATH | tr -d " ")
BIN_PART=$(od -A none -j 16 -N 7 -tx1 $EFUSE_PATH | tr -d " ")
echo "$ASCII_PART $BIN_PART"
return 0
}
# Get the cpu leakage, byte 23 of the efuse
function get_cpu_leakage() {
LEAKAGE=$(od -A none -j 23 -N 1 -tx1 $EFUSE_PATH | tr -d " ")
echo $LEAKAGE
return 0
}
# Get the logic leakage, byte 25 of the efuse
function get_logic_leakage() {
LEAKAGE=$(od -A none -j 25 -N 1 -tx1 $EFUSE_PATH | tr -d " ")
echo $LEAKAGE
return 0
}
# Get the vendor and device ids of the wifi chip
function get_wifi_chip_id() {
if [ -d "$SDIO_WIFI_PATH" ]; then
VENDOR=$(cut -c 3- "$SDIO_WIFI_PATH/vendor")
DEVICE=$(cut -c 3- "$SDIO_WIFI_PATH/device")
echo "$VENDOR:$DEVICE"
return 0
fi
return 1
}
function get_internal_flash_type() {
if [ -d "$EMMC_DEVICE_PATH" ]; then
echo "eMMC"
elif [ -d "$NAND_DEVICE_PATH" ]; then
echo "NAND"
fi
return 0
}
function select_wifi_module() {
MODULES=$1
declare -a DIALOG_ENTRIES
declare -a MODULES
IDX=0
for MODULE in $WIFI_MODULE; do
MODULES[$IDX]="$MODULE"
DIALOG_ENTRIES+=("$IDX" "$MODULE")
IDX=$((IDX + 1))
done
MENU_TITLE="${BOARD_INFO}Please choose the wifi module suitable for your configuration\n"
MENU_CMD=(dialog --colors --backtitle "$BACKTITLE" --title "$TITLE" --default-item "0" --menu "$MENU_TITLE" 24 0 20)
SELECTION=$("${MENU_CMD[@]}" "${DIALOG_ENTRIES[@]}" 2>&1 >/dev/tty)
if [[ $? -ne 0 ]]; then
return 1
fi
WIFI_MODULE="${MODULES[$SELECTION]}"
echo $WIFI_MODULE
return 0
}
# Blacklists all the modules buth whitelist only that one
# that has been detected
function apply_wifi_blacklist() {
# Detect wifi chip on legacy kernel and unblacklist it
WIFI_MODULE=$1
if [ ! -f $BLACKLIST_MODPROBE_CONF ]; then
touch $BLACKLIST_MODPROBE_CONF
fi
if [ -n "$WIFI_MODULE" ]; then
for MODULES in "${WIFI_CHIPS[@]}"; do
for MODULE in $MODULES; do
sed -i "/blacklist $MODULE/d" $BLACKLIST_MODPROBE_CONF
done
done
declare -A BLACKLIST_MODULES
for MODULES in "${WIFI_CHIPS[@]}"; do
for MODULE in $MODULES; do
if [ "$MODULE" != "$WIFI_MODULE" ]; then
BLACKLIST_MODULES+=([$MODULE]=1)
fi
done
done
for MODULE in "${!BLACKLIST_MODULES[@]}"; do
echo "blacklist $MODULE" >> $BLACKLIST_MODPROBE_CONF
done
echo "#blacklist $WIFI_MODULE" >> $BLACKLIST_MODPROBE_CONF
fi
# unsupported wifi_chip_type: blacklist all known wifi
# modules if the blacklist file exists. If the blacklist file does not exist just skip over
if [ -z $WIFI_MODULE ]; then
if [ -f $BLACKLIST_MODPROBE_CONF ]; then
for MODULE in "${WIFI_CHIPS[@]}"; do
sed -i "s/#blacklist $MODULE/blacklist $MODULE/g" $BLACKLIST_MODPROBE_CONF
done
fi
fi
}
function select_soc() {
declare -a DIALOG_ENTRIES
# SoC section
SELECTION="0"
[[ "$CHIP_TYPE" = "RK3229" ]] && SELECTION="2"
DIALOG_ENTRIES=("0" "RK3228A (max 1.2Ghz)")
DIALOG_ENTRIES+=("1" "RK3228B (max 1.4Ghz)")
DIALOG_ENTRIES+=("2" "RK3229 (max 1.4Ghz)")
MENU_TITLE="${BOARD_INFO}Select the SoC type\n"
MENU_CMD=(dialog --colors --backtitle "$BACKTITLE" --title "$TITLE" --default-item "$SELECTION" --menu "$MENU_TITLE" 24 0 20)
SELECTION=$("${MENU_CMD[@]}" "${DIALOG_ENTRIES[@]}" 2>&1 >/dev/tty)
RET=$?
if [ "$RET" -eq 1 ]; then
echo "Cancelled"
return 1
fi
if [ "$RET" -ne 0 ]; then
echo "dialog utility returned an unexpected error code: $RET"
return 1
fi
[[ "$SELECTION" -eq 0 ]] && SELECTION=""
[[ "$SELECTION" -eq 1 ]] && SELECTION="cpu-hs"
[[ "$SELECTION" -eq 2 ]] && SELECTION="cpu-hs"
echo $SELECTION
return 0
}
function select_flash() {
declare -a DIALOG_ENTRIES
SELECTION="emmc-nand"
[[ "$FLASH_TYPE" = "eMMC" ]] && SELECTION="emmc"
[[ "$FLASH_TYPE" = "NAND" ]] && SELECTION="nand"
for KEY in "${!DT_FLASH_OVERLAYS[@]}"; do
DIALOG_ENTRIES+=($KEY "${DT_FLASH_OVERLAYS[$KEY]}")
done
MENU_TITLE="${BOARD_INFO}Select the internal flash type\n"
MENU_CMD=(dialog --colors --backtitle "$BACKTITLE" --title "$TITLE" --default-item "$SELECTION" --menu "$MENU_TITLE" 24 0 20)
SELECTION=$("${MENU_CMD[@]}" "${DIALOG_ENTRIES[@]}" 2>&1 >/dev/tty)
RET=$?
if [ "$RET" -eq 1 ]; then
echo "Cancelled"
return 1
fi
if [ "$RET" -ne 0 ]; then
echo "dialog utility returned an unexpected error code: $RET"
return 1
fi
echo $SELECTION
return 0
}
function select_emmc_options() {
declare -a DIALOG_ENTRIES
for KEY in "${DT_EMMC_OVERLAYS_ORDER[@]}"; do
DIALOG_ENTRIES+=($KEY "${DT_EMMC_OVERLAYS[$KEY]}" "off")
done
MENU_TITLE="${BOARD_INFO}${EMMC_OPTIONS_WARNING}"
MENU_CMD=(dialog --colors --backtitle "$BACKTITLE" --title "$TITLE" --checklist "$MENU_TITLE" 28 0 56)
SELECTION=$("${MENU_CMD[@]}" "${DIALOG_ENTRIES[@]}" 2>&1 >/dev/tty)
RET=$?
if [ "$RET" -eq 1 ]; then
echo "Cancelled"
return 1
fi
if [ "$RET" -ne 0 ]; then
echo "dialog utility returned an unexpected error code: $RET"
return 1
fi
echo $SELECTION
return 0
}
function select_ddr() {
declare -a DIALOG_ENTRIES
# DDR section
SELECTION="default"
for KEY in "${DT_DDR_OVERLAYS_ORDER[@]}"; do
DIALOG_ENTRIES+=($KEY "${DT_DDR_OVERLAYS[$KEY]}")
done
MENU_TITLE="${BOARD_INFO}Select the DDR type and speed\n${HANG_OPTIONS_WARNING}"
MENU_CMD=(dialog --colors --backtitle "$BACKTITLE" --title "$TITLE" --default-item "$SELECTION" --menu "$MENU_TITLE" 24 0 20)
SELECTION=$("${MENU_CMD[@]}" "${DIALOG_ENTRIES[@]}" 2>&1 >/dev/tty)
RET=$?
if [ "$RET" -eq 1 ]; then
echo "Cancelled"
return 1
fi
if [ "$RET" -ne 0 ]; then
echo "dialog utility returned an unexpected error code: $RET"
return 1
fi
[[ $SELECTION = "default" ]] && SELECTION=""
echo $SELECTION
return 0
}
function select_led_configuration() {
declare -a DIALOG_ENTRIES
for KEY in "${DT_LED_OVERLAYS_ORDER[@]}"; do
DIALOG_ENTRIES+=($KEY "${DT_LED_OVERLAYS[$KEY]}")
done
MENU_TITLE="${BOARD_INFO}${NOTE_LED_GPIO_SELECTION}${HANG_OPTIONS_WARNING}\n"
MENU_CMD=(dialog --colors --backtitle "$BACKTITLE" --title "$TITLE" --default-item "$SELECTION" --menu "$MENU_TITLE" 24 0 20)
SELECTION=$("${MENU_CMD[@]}" "${DIALOG_ENTRIES[@]}" 2>&1 >/dev/tty)
RET=$?
if [ "$RET" -eq 1 ]; then
echo "Cancelled"
return 1
fi
if [ "$RET" -ne 0 ]; then
echo "dialog utility returned an unexpected error code: $RET"
return 1
fi
echo $SELECTION
return 0
}
# ----- Entry point -----
USER_ID=$(id -u)
if [ $USER_ID -ne 0 ]; then
echo "Please run this script with administrative privileges"
exit 2
fi
declare -a DT_OVERLAYS_TO_APPLY
CHIP_TYPE=$(get_chip_type)
CHIP_SERIAL=$(get_chip_serial)
CPU_LEAKAGE=$(get_cpu_leakage)
LOGIC_LEAKAGE=$(get_logic_leakage)
WIFI_ID=$(get_wifi_chip_id)
FLASH_TYPE=$(get_internal_flash_type)
if [ -z "$WIFI_ID" ]; then
WIFI_NAME="not available"
else
WIFI_NAME="${WIFI_NAMES[$WIFI_ID]:-"unknown"} - Device ID: ${WIFI_ID}"
fi
if [ -z "$FLASH_TYPE" ]; then
FLASH_NAME="not detected"
else
FLASH_NAME="$FLASH_TYPE"
fi
BOARD_INFO="\nDetected board features:\n\
Chip type: ${COLOR_RED}\Zb${CHIP_TYPE}\Zn${COLOR_BLACK} - \
Serial: $CHIP_SERIAL\n\
CPU Leakage: 0x$CPU_LEAKAGE - Logic Leakage: 0x$LOGIC_LEAKAGE\n\
Internal flash: ${COLOR_RED}\Zb${FLASH_NAME}\Zn${COLOR_BLACK}\n\
Wifi device: $WIFI_NAME\n\n"
### --- SOC selection ---
SELECTION=$(select_soc) || exit 1
DT_OVERLAYS_TO_APPLY+=($SELECTION)
SELECTION=$(select_flash) || exit 1
DT_OVERLAYS_TO_APPLY+=($SELECTION)
if [[ "$SELECTION" = "emmc" ]]; then
SELECTION=$(select_emmc_options) || exit 1
DT_OVERLAYS_TO_APPLY+=($SELECTION)
fi
SELECTION=$(select_ddr) || exit 1
DT_OVERLAYS_TO_APPLY+=($SELECTION)
SELECTION=$(select_led_configuration) || exit 1
DT_OVERLAYS_TO_APPLY+=($SELECTION)
# Apply overlays for wifi chips
if [[ -n $WIFI_ID ]] && [[ -n "${DT_WIFI_OVERLAYS[$WIFI_ID]}" ]]; then
DT_OVERLAYS_TO_APPLY+=(${DT_WIFI_OVERLAYS[$WIFI_ID]})
fi
# Remove all the unavailable overlays from the list of overlays to be applied
declare -a DT_OVERLAYS_LIST
for KEY in "${DT_OVERLAYS_TO_APPLY[@]}"; do
[[ -f "$DEVICE_TREE_OVERLAY_PATH/rk322x-$KEY.dtbo" ]] && DT_OVERLAYS_LIST+=($KEY)
done
DT_OVERLAYS_TO_APPLY=$DT_OVERLAYS_LIST
sed -i '/^overlays=/d' $ARMBIAN_ENV_TXT
if [ $? -ne 0 ]; then
echo "An error occurred while removing existing fdtfile entry from $ARMBIAN_ENV_TXT"
exit 1
fi
echo "overlays=${DT_OVERLAYS_TO_APPLY[@]}" >> $ARMBIAN_ENV_TXT
if [ $? -ne 0 ]; then
echo "An error occurred while adding overlays entry in $ARMBIAN_ENV_TXT"
exit 1
fi
# Apply the wifi blacklist only with legacy kernel
if [[ $LEGACY_KERNEL -eq 1 ]] && [[ -n "$WIFI_ID" ]]; then
WIFI_MODULE="${WIFI_CHIPS[$WIFI_ID]}"
if [[ -n $WIFI_MODULE ]]; then
echo "$WIFI_MODULE" | grep " " > /dev/null 2>&1
if [[ $? -eq 0 ]]; then
WIFI_MODULE=$(select_wifi_module "$WIFI_MODULE")
if [[ $? -ne 0 ]]; then
WIFI_MODULE=""
fi
fi
if [[ -n "$WIFI_MODULE" ]]; then
apply_wifi_blacklist "$WIFI_MODULE"
fi
fi
fi
echo ""
echo ""
echo "Device tree overlays enabled in ${ARMBIAN_ENV_TXT}:"
echo "overlays=${DT_OVERLAYS_TO_APPLY[@]}"
# Print the outcome of wifi chip selection only with legacy kernel
# Mainline kernel is supposed to work ok by itself with hardware recognition
if [[ $LEGACY_KERNEL -eq 1 ]]; then
if [[ -n "$WIFI_MODULE" ]]; then
echo "Forcefully enabled wifi module $WIFI_MODULE"
fi
if [[ -n "$WIFI_ID" ]] && [[ ! -v WIFI_CHIPS[$WIFI_ID] ]]; then
echo "Wifi chip $WIFI_ID has been detected, but currently it is unsupported"
echo "Please report to: https://forum.armbian.com/topic/12656-wip-armbian-for-rk322x-devices/"
fi
fi
echo "Reboot the device to make changes effective!"
echo ""