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openwrt/target/linux/bcm53xx/base-files/lib/upgrade/platform.sh
Christian Lamparter e37ba80633 bcm53xx: add support for Meraki MR26 
Meraki MR26 is an EOL wireless access point featuring a
PoE ethernet port and two dual-band 3x3 MIMO 802.11n
radios and 1x1 dual-band WIFI dedicated to scanning.

Thank you Amir for the unit and PSU.

Hardware info:
SOC   : Broadcom BCM53015A1KFEBG (dual-core Cortex-A9 CPU at 800 MHz)
RAM   : SK hynix Inc. H5TQ1G63EFR, 1 Gbit DDR3 SDRAM = 128 MiB
NAND  : Spansion S34ML01G100TF100, 1 Gbit SLC NAND Flash = 128 MiB
ETH   : 1 GBit Ethernet Port - PoE
WIFI1 : Broadcom BCM43431KMLG, BCM43431 802.11 abgn
WIFI1 : Broadcom BCM43431KMLG, BCM43431 802.11 abgn
WIFI3 : Broadcom BCM43428 abgn (1x1:1 - id: 43428)
BUTTON: one reset button
LEDS  : RGB-LED
MISC  : Atmel AT24C64 8KiB EEPROM (i2c - seems empty)
      : Ti INA219 26V, 12-bit, i2c output current/voltage/power monitor
      : TPS23754, High Power/High Efficiency PoE Interface+DC/DC Controller

SERIAL:
	WARNING: The serial port needs a TTL/RS-232 3V3 level converter!
	The Serial setting is 115200-8-N-1. The board has a populated
	right angle 1x4 0.1" pinheader.
	The pinout is: VCC (next to J3, has little white arrow), RX, TX, GND.

This flashing procedure for the MR26 was tested with firmware:
    "22-143410M-gf25cbf5a-asa".
    U-Boot 2012.10-00063-g83f9fe4 (Jun 04 2014 - 21:22:39)

A guide how to open up the device is available on the wiki:
<https://openwrt.org/toh/meraki/mr26>

Notes:
 - The WIFI do work to a degree. Limited to 802.11bg in the 2.4GHz band.
 - the WIFI macs are made up.

0. Create a separate Ethernet LAN which can't have access to the internet.
   Ideally use 192.168.1.2 for your PC. The new OpenWrt firmware will setup
   the network via DHCP Discovery, so make sure your PC is running
   a DHCP-Server (i.e.: dnsmasq)
   '# dnsmasq -i eth# -F 192.168.1.5,192.168.1.50
   Download the openwrt-meraki-mr26 initramfs file from openwrt.org and
   rename it to something simple like mr26.bin. Then put it into the tftp's
   server directory.

1. Disassemble the MR26 device by removing all screws (4 screws are located
   under the 4 rubber feets!) and prying open the plastic covers without
   breaking the plastic retention clips. Once inside, remove the plastic
   back casing. Be careful, there some "hidden" retention clips on both
   sides of the LAN port, you need a light to see those. Next, you want to
   remove all the screws on the outer metal shielding to get to the PCB.
   It's not necessary to remove the antennas!

2. Connect the serial cable to the serial header and Ethernet patch cable
   to the device.

4. Before connecting the power, get ready flood the serial console program
   with the magic:   xyzzy  . This is necessary in order to get into the
   u-boot prompt. Once Ready: connect power cable.

5. If you don't get the "u-boot>" prompt within the first few seconds,
   you have to disconnect and reconnect the power cable and try again.

6. In the u-boot prompt enter:

   setenv ipaddr 192.168.1.4
   setenv serverip 192.168.1.2
   tftpboot ${meraki_loadaddr} mr26.bin; bootm

   this will boot a in-ram-only OpenWrt image.

7. Once it booted use sysupgrade to permanently install OpenWrt.
   To do this: Download the latest sysupgrade.bin file and move
   it to the device. Then use sysupgrade *sysupgrade.bin to install it.

    WARNING: DO NOT DELETE the "storage" ubi volume!

Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
2022-07-15 15:21:44 +02:00

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RAMFS_COPY_BIN='osafeloader oseama otrx truncate'
PART_NAME=firmware
BCM53XX_FW_FORMAT=
BCM53XX_FW_BOARD_ID=
BCM53XX_FW_INT_IMG_FORMAT=
BCM53XX_FW_INT_IMG_TRX_OFFSET=
BCM53XX_FW_INT_IMG_EXTRACT_CMD=
LXL_FLAGS_VENDOR_LUXUL=0x00000001
# $(1): file to read magic from
# $(2): offset in bytes
get_magic_long_at() {
dd if="$1" skip=$2 bs=1 count=4 2>/dev/null | hexdump -v -e '1/1 "%02x"'
}
# $(1): file to read LE long number from
# $(2): offset in bytes
get_le_long_at() {
echo $((0x$(dd if="$1" skip=$2 bs=1 count=4 2>/dev/null | hexdump -v -e '1/4 "%02x"')))
}
platform_flash_type() {
# On NAND devices "rootfs" is UBI volume, so won't be find in /proc/mtd
grep -q "\"rootfs\"" /proc/mtd && {
echo "serial"
return
}
echo "nand"
}
platform_expected_image() {
local machine=$(board_name)
case "$machine" in
"dlink,dir-885l") echo "seamaseal wrgac42_dlink.2015_dir885l"; return;;
"luxul,abr-4500-v1") echo "lxl ABR-4500"; return;;
"luxul,xap-810-v1") echo "lxl XAP-810"; return;;
"luxul,xap-1410v1") echo "lxl XAP-1410"; return;;
"luxul,xap-1440-v1") echo "lxl XAP-1440"; return;;
"luxul,xap-1510v1") echo "lxl XAP-1510"; return;;
"luxul,xap-1610-v1") echo "lxl XAP-1610"; return;;
"luxul,xbr-4500-v1") echo "lxl XBR-4500"; return;;
"luxul,xwc-1000") echo "lxl XWC-1000"; return;;
"luxul,xwc-2000-v1") echo "lxl XWC-2000"; return;;
"luxul,xwr-1200v1") echo "lxl XWR-1200"; return;;
"luxul,xwr-3100v1") echo "lxl XWR-3100"; return;;
"luxul,xwr-3150-v1") echo "lxl XWR-3150"; return;;
"netgear,r6250v1") echo "chk U12H245T00_NETGEAR"; return;;
"netgear,r6300v2") echo "chk U12H240T00_NETGEAR"; return;;
"netgear,r7000") echo "chk U12H270T00_NETGEAR"; return;;
"netgear,r7900") echo "chk U12H315T30_NETGEAR"; return;;
"netgear,r8000") echo "chk U12H315T00_NETGEAR"; return;;
"netgear,r8500") echo "chk U12H334T00_NETGEAR"; return;;
"tplink,archer-c9-v1") echo "safeloader"; return;;
esac
}
platform_identify() {
local magic
magic=$(get_magic_long "$1")
case "$magic" in
"48445230")
BCM53XX_FW_FORMAT="trx"
return
;;
"2a23245e")
local header_len=$((0x$(get_magic_long_at "$1" 4)))
local board_id_len=$(($header_len - 40))
BCM53XX_FW_FORMAT="chk"
BCM53XX_FW_BOARD_ID=$(dd if="$1" skip=40 bs=1 count=$board_id_len 2>/dev/null | hexdump -v -e '1/1 "%c"')
BCM53XX_FW_INT_IMG_FORMAT="trx"
BCM53XX_FW_INT_IMG_TRX_OFFSET="$header_len"
BCM53XX_FW_INT_IMG_EXTRACT_CMD="dd skip=$header_len iflag=skip_bytes"
return
;;
"4c584c23")
local hdr_len=$(get_le_long_at "$1" 8)
local flags=$(get_le_long_at "$1" 12)
[ $((flags & LXL_FLAGS_VENDOR_LUXUL)) -gt 0 ] && notify_firmware_no_backup
BCM53XX_FW_FORMAT="lxl"
BCM53XX_FW_BOARD_ID=$(dd if="$1" skip=16 bs=1 count=16 2>/dev/null | hexdump -v -e '1/1 "%c"')
BCM53XX_FW_INT_IMG_FORMAT="trx"
BCM53XX_FW_INT_IMG_TRX_OFFSET="$hdr_len"
BCM53XX_FW_INT_IMG_EXTRACT_CMD="dd skip=$hdr_len iflag=skip_bytes"
return
;;
"5ea3a417")
BCM53XX_FW_FORMAT="seamaseal"
BCM53XX_FW_BOARD_ID=$(oseama info "$1" | grep "Meta entry:.*signature=" | sed "s/.*=//")
BCM53XX_FW_INT_IMG_EXTRACT_CMD="oseama extract - -e 0"
return
;;
esac
magic=$(get_magic_long_at "$1" 14)
[ "$magic" = "55324e44" ] && {
BCM53XX_FW_FORMAT="cybertan"
BCM53XX_FW_BOARD_ID=$(dd if="$1" bs=1 count=4 2>/dev/null | hexdump -v -e '1/1 "%c"')
BCM53XX_FW_INT_IMG_FORMAT="trx"
BCM53XX_FW_INT_IMG_TRX_OFFSET="32"
BCM53XX_FW_INT_IMG_EXTRACT_CMD="dd skip=32 iflag=skip_bytes"
return
}
magic=$(get_magic_long_at "$1" 60)
[ "$magic" = "4c584c23" ] && {
notify_firmware_no_backup
BCM53XX_FW_FORMAT="lxlold"
BCM53XX_FW_BOARD_ID=$(dd if="$1" skip=48 bs=1 count=12 2>/dev/null | hexdump -v -e '1/1 "%c"')
BCM53XX_FW_INT_IMG_FORMAT="trx"
BCM53XX_FW_INT_IMG_TRX_OFFSET="64"
BCM53XX_FW_INT_IMG_EXTRACT_CMD="dd skip=64 iflag=skip_bytes"
return
}
if osafeloader info "$1" > /dev/null 2>&1; then
BCM53XX_FW_FORMAT="safeloader"
return
fi
}
platform_other_check_image() {
[ "$#" -gt 1 ] && return 1
local error=0
platform_identify "$1"
[ -z "$BCM53XX_FW_FORMAT" ] && {
echo "Invalid image type. Please use firmware specific for this device."
notify_firmware_broken
return 1
}
echo "Found $BCM53XX_FW_FORMAT firmware for device $BCM53XX_FW_BOARD_ID"
local expected_image="$(platform_expected_image)"
local tmp_format=$BCM53XX_FW_FORMAT
[ "$tmp_format" = "lxlold" ] && tmp_format="lxl"
[ -n "$expected_image" -a -n "$BCM53XX_FW_BOARD_ID" -a "$expected_image" != "$tmp_format $BCM53XX_FW_BOARD_ID" ] && {
echo "Firmware doesn't match device ($expected_image)"
error=1
}
case "$BCM53XX_FW_FORMAT" in
"seamaseal")
$(oseama info "$1" -e 0 | grep -q "Meta entry:.*type=firmware") || {
echo "Seama seal doesn't contain firmware entity"
error=1
}
;;
"trx")
if ! otrx check "$1"; then
echo "Failed to find a valid TRX in firmware"
notify_firmware_test_result "trx_valid" 0
error=1
else
notify_firmware_test_result "trx_valid" 1
fi
[ "$expected_image" == "safeloader" ] && {
echo "This device expects SafeLoader format and may not work with TRX"
error=1
}
;;
*)
case "$BCM53XX_FW_INT_IMG_FORMAT" in
"trx")
# Make sure that both ways of extracting TRX work.
# platform_do_upgrade() may use any of them.
if ! otrx check "$1" -o "$BCM53XX_FW_INT_IMG_TRX_OFFSET" || \
! $BCM53XX_FW_INT_IMG_EXTRACT_CMD < $1 | otrx check -; then
echo "Invalid (corrupted?) TRX firmware"
notify_firmware_test_result "trx_valid" 0
error=1
else
notify_firmware_test_result "trx_valid" 1
fi
;;
esac
;;
esac
return $error
}
platform_check_image() {
local board
board="$(board_name)"
case "$board" in
# Ideally, REQUIRE_IMAGE_METADATA=1 would suffice
# but this would require converting all other
# devices too.
meraki,mr26 | \
meraki,mr32)
nand_do_platform_check "${board//,/_}" "$1"
return $?
;;
*)
platform_other_check_image "$1"
return $?
;;
esac
return 1
}
# $(1): TRX image or firmware containing TRX
# $(2): offset of TRX in firmware (optional)
platform_do_upgrade_nand_trx() {
local dir="/tmp/sysupgrade-bcm53xx"
local trx="$1"
local offset="$2"
# Extract partitions from trx
rm -fR $dir
mkdir -p $dir
otrx extract "$trx" \
${offset:+-o $offset} \
-1 $dir/kernel \
-2 $dir/root
[ $? -ne 0 ] && {
echo "Failed to extract TRX partitions."
return
}
# Firmwares without UBI image should be flashed "normally"
local root_type=$(identify $dir/root)
[ "$root_type" != "ubi" ] && {
echo "Provided firmware doesn't use UBI for rootfs."
return
}
# Prepare TRX file with just a kernel that will replace current one
local linux_length=$(grep "\"linux\"" /proc/mtd | sed "s/mtd[0-9]*:[ \t]*\([^ \t]*\).*/\1/")
[ -z "$linux_length" ] && {
echo "Unable to find \"linux\" partition size"
exit 1
}
linux_length=$((0x$linux_length))
local kernel_length=$(wc -c $dir/kernel | cut -d ' ' -f 1)
[ $kernel_length -gt $linux_length ] && {
echo "New kernel doesn't fit \"linux\" partition."
return
}
rm -f /tmp/null.bin
rm -f /tmp/kernel.trx
touch /tmp/null.bin
otrx create /tmp/kernel.trx \
-f $dir/kernel -b $(($linux_length + 28)) \
-f /tmp/null.bin
[ $? -ne 0 ] && {
echo "Failed to create simple TRX with new kernel."
return
}
# Prepare UBI image (drop unwanted extra blocks)
local ubi_length=0
while [ "$(dd if=$dir/root skip=$ubi_length bs=1 count=4 2>/dev/null)" = "UBI#" ]; do
ubi_length=$(($ubi_length + 131072))
done
truncate -s $ubi_length $dir/root
[ $? -ne 0 ] && {
echo "Failed to prepare new UBI image."
return
}
# Flash
mtd write /tmp/kernel.trx firmware || exit 1
nand_do_upgrade $dir/root
}
platform_do_upgrade_nand_seamaseal() {
local dir="/tmp/sysupgrade-bcm53xx"
local seamaseal="$1"
local tmp
# Extract Seama entity from Seama seal
rm -fR $dir
mkdir -p $dir
oseama extract "$seamaseal" \
-e 0 \
-o $dir/seama.entity
[ $? -ne 0 ] && {
echo "Failed to extract Seama entity."
return
}
local entity_size=$(wc -c $dir/seama.entity | cut -d ' ' -f 1)
local ubi_offset=0
tmp=0
while [ 1 ]; do
[ $tmp -ge $entity_size ] && break
[ "$(dd if=$dir/seama.entity skip=$tmp bs=1 count=4 2>/dev/null)" = "UBI#" ] && {
ubi_offset=$tmp
break
}
tmp=$(($tmp + 131072))
done
[ $ubi_offset -eq 0 ] && {
echo "Failed to find UBI in Seama entity."
return
}
local ubi_length=0
while [ "$(dd if=$dir/seama.entity skip=$(($ubi_offset + $ubi_length)) bs=1 count=4 2>/dev/null)" = "UBI#" ]; do
ubi_length=$(($ubi_length + 131072))
done
dd if=$dir/seama.entity of=$dir/kernel.seama bs=131072 count=$(($ubi_offset / 131072)) 2>/dev/null
dd if=$dir/seama.entity of=$dir/root.ubi bs=131072 skip=$(($ubi_offset / 131072)) count=$(($ubi_length / 131072)) 2>/dev/null
# Flash
local kernel_size=$(sed -n 's/mtd[0-9]*: \([0-9a-f]*\).*"\(kernel\|linux\)".*/\1/p' /proc/mtd)
mtd write $dir/kernel.seama firmware || exit 1
mtd ${kernel_size:+-c 0x$kernel_size} fixseama firmware
nand_do_upgrade $dir/root.ubi
}
platform_img_from_safeloader() {
local dir="/tmp/sysupgrade-bcm53xx"
# Extract partitions from SafeLoader
rm -fR $dir
mkdir -p $dir
osafeloader extract "$1" \
-p "os-image" \
-o $dir/os-image
osafeloader extract "$1" \
-p "file-system" \
-o $dir/file-system
mtd write $dir/file-system rootfs
echo -n $dir/os-image
}
platform_other_do_upgrade() {
platform_identify "$1"
[ "$(platform_flash_type)" == "nand" ] && {
# Try NAND-aware upgrade
case "$BCM53XX_FW_FORMAT" in
"seamaseal")
platform_do_upgrade_nand_seamaseal "$1"
;;
"trx")
platform_do_upgrade_nand_trx "$1"
;;
*)
case "$BCM53XX_FW_INT_IMG_FORMAT" in
"trx")
platform_do_upgrade_nand_trx "$1" "$BCM53XX_FW_INT_IMG_TRX_OFFSET"
;;
*)
echo "NAND aware sysupgrade is unsupported for $BCM53XX_FW_FORMAT format"
;;
esac
;;
esac
# Above calls exit on success.
# If we got here something went wrong.
echo "Writing whole image to NAND flash. All erase counters will be lost."
}
case "$BCM53XX_FW_FORMAT" in
"safeloader")
PART_NAME=os-image
img=$(platform_img_from_safeloader "$1")
default_do_upgrade "$img"
;;
"seamaseal")
default_do_upgrade "$1" "$BCM53XX_FW_INT_IMG_EXTRACT_CMD"
;;
"trx")
default_do_upgrade "$1"
;;
*)
case "$BCM53XX_FW_INT_IMG_FORMAT" in
"trx")
default_do_upgrade "$1" "$BCM53XX_FW_INT_IMG_EXTRACT_CMD"
;;
esac
;;
esac
}
platform_do_upgrade() {
case "$(board_name)" in
meraki,mr26 | \
meraki,mr32)
CI_KERNPART="part.safe"
nand_do_upgrade "$1"
;;
*)
platform_other_do_upgrade "$1"
;;
esac
}
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