When targets for multiple ESPRESSObin devices were added, not all
files were updated which means any ESPRESSObin version beside generic
won't have proper networking, sysupgrade and uboot-env. This patch
fixes the issue.
* fixup network detection
* fixup uboot-env
* fixup platform.sh for sysupgrade
Signed-off-by: Vladimir Vid <vladimir.vid@sartura.hr>
(cherry picked from commit bc47285cb3)
Consistently handle boot-count reset and upgrade across
ipq40xx, ipq806x, kirkwood, mvebu
Dual-firmware devices often utilize a specific MTD partition
to record the number of times the boot loader has initiated boot.
Most of these devices are NAND, typically with a 2k erase size.
When this code was ported to the ipq40xx platform, the device in hand
used NOR for this partition, with a 16-byte "record" size. As the
implementation of `mtd resetbc` is by-platform, the hard-coded nature
of this change prevented proper operation of a NAND-based device.
* Unified the "NOR" variant with the rest of the Linksys variants
* Added logging to indicate success and failure
* Provided a meaningful return value for scripting
* "Protected" the use of `mtd resetbc` in start-up scripts so that
failure does not end the boot sequence
* Moved Linksys-specific actions into common `/etc/init.d/bootcount`
For upgrade, these devices need to determine which partition to flash,
as well as set certain U-Boot envirnment variables to change the next
boot to the newly flashed version.
* Moved upgrade-related environment changes out of bootcount
* Combined multiple flashes of environment into single one
* Current-partition detection now handles absence of `boot_part`
Runtime-tested: Linksys EA8300
Signed-off-by: Jeff Kletsky <git-commits@allycomm.com>
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
[checkpatch.pl fixes, traded split strings for 80+ chars per line]
Convert whole target to Device Tree based board detection instead of
identifying devices by dts file name. With this we can drop mvebu.sh
translation script and rely on common method for model detection.
Signed-off-by: Tomasz Maciej Nowak <tomek_n@o2.pl>
Add initial support for cortex-a72 based Armada DB-88F8040-Modular and
DB-88F7040-Modular development boards.
DB-88F8040-Modular specifications:
- Quad-core ARMv8 Cortex A72 CPU (up to 2 GHz)
- DDR4 DIMM - 64 bits + ECC
- 2 x 128 Mb SPI NOR flash memory
- 2 x 1G Ethernet port via RGMII (RJ45)
- 2 x SD card ports (4 bit port on CP, 8 bit port on AP)
- 2 SERDES modules with the following interfaces each:
- 2 x SATA Rev 3.0 port (Port1 via SERDES module CON4 (active port), Port0
via SERDES Module CON2 or CON1 (optional port))
- 3 x PCI Express (PCIe) Gen 3.0 (Port2 via SERDES module CON5 (active port),
Port1 via SERDES module CON7 (optional port), Port0 via SERDES module CON6
(optional port))
- 2 x USB3 (USB 2.0 backward compatible) host (via SERDES module CON9 and
CON10)
- 1 x 10G port over SFP+ connector (via SERDES module CON8)
- 1 x MCI interface by two over USB Type C connector
- 4 x serial COM port driven by the 88F8040 UART interface and converted to
USB via FTDI IC
- I2C Master Interface
- CP I2C 2x EEPROM @ Address 0x50 and 0x57
- 1 x I/O Expander @ Address 0x21
- Sample at Reset (SatR) memory device @ Address 0x4C and 0x4E
- I2C Slave Interface (via SERDES module) - Connection to each device on the
board via an I2C multiplexer
- JTAG interface for CPU emulator
- Board dimensions: 270 mm x 240 mm (main + SERDES module)
- SERDES Module Dimensions: 70 mm x 105 mm
DB-88F7040-Modular specifications:
- Quad-core ARMv8 Cortex A72 CPU
- CPU core operating speed of up to 1.6 GHz for Dual Core, 1.4 GHz for Quad
Core
- DDR4 - 32 bit + ECC on Module - SLM1366-V1 (DB-DDR4-40B-MODULE) 4 GByte
32-bit
- 1 x 128Mb SPI NOR flash memory
- 2 x 1G Ethernet port: 1 over RGMII (RJ45) and 1 over SGMII
- SD card 4 bits port on AP
- eMMc Module on CP
- 1 SERDES Modules with the following interfaces each:
- 1 x SATA Rev 3.0 port (via SERDES module CON4)
- 1 x PCI Express (PCIe) Gen 3.0 (via SERDES module CON5)
- 2 x USB 3.0 (USB 2.0 backward compatible) host (via SERDES module CON9 and
CON10)
- 1 x 10G port over SFP+ connector (via SERDES module CON8)
- 2 x MCi interface by one over USB Type C connector
- 4 x Serial COM port driven by the 88F7040 UA
- RT interface and converted to USB via FTDI IC
- I2C Master Interface
- 2 x EEPROM at address 0x57 and 0x50 in AP and 2 x EEPROM at address 0x57
and 0x50 in CP
- 1 x I/O Expander at address 0x21
- Sample at Reset (SatR) memory device at address 0x4C and 0x4E
- I2C Slave Interface (via SERDES module) - Connection to each device on the
board via an I2C multiplexer
- JTAG interface for CPU emulator
- Board dimensions - 270 mm x 240 mm (main + SERDES module)
- SERDES Module Dimensions - 70 mm x 105 mm
Booting from USB flash drive (dd sdcard image to the flash drive):
1. reset U-Boot environment:
env default -a
saveenv
2. prepare U-Boot manually (make sure to set correct dtb file name):
setenv bootargs_root 'root=/dev/sda2 rw rootdelay=2 ip=dhcp'
setenv fdtfile armada-7040-db.dtb
setenv image_name Image
setenv bootcmd 'usb start; ext4load usb 0:1 $kernel_addr $image_name; ext4load usb 0:1 $fdt_addr $fdtfile; setenv bootargs $console $mtdparts $bootargs_root; booti $kernel_addr - $fdt_addr'
saveenv
boot
Signed-off-by: Damir Samardzic <damir.samardzic@sartura.hr>
Add initial support for Marvell Armada cortex-a53 based
DB-88F3720-DDR3-Modular development board.
Specifications:
- Dual core ARMv8 Cortex-A53 CPU (up to 1.0 GHz)
- 4Gb 16-bit DDR3/3L DRAM memory
- 128Mb SPI NOR flash memory
- 8Gb eMMC NAND flash memory
- 1 x SATA Rev 3.0 port
- 1 x PCI Express (PCIe) Gen 2.0 or 1 x mini PCI Express (PCIe) Gen 2.0
- 1 x 1G Ethernet port via RGMII (RJ45)
- 1 x SD card port
- 1 x USB3 (USB2 backward) host\device port via type C connector
- 1 x USB2 host port via type A connector
- 1 x serial COM port driven by the 88F3720 UART interface and converted to
USB via FTDI IC (option to connect the UART DB9 adapter)
- I2C Master Interface:
- 1 x EEPROM @ address 0x57
- 1 x I/O Expanders @ address 0x22
- Sample at Reset (SatR) memory device @ address 0x4C
- RTC clock generator PT7C4337AWE @ address 0x68
- USB3 switch PI5USB30213XEA @ address 0x0D
- ID component of PHY module @ address 0x24
- 1 x JTAG interface for CPU emulator
- 1 x SETM and JTAG debug interface
- 1 x power connector for HDD supply
- 1 x 12V DC jack power connector
- Board dimensions: 150 mm x 179 mm
- LED interface for system status
Booting from SD card:
1. reset U-Boot environment:
env default -a
saveenv
2. prepare U-Boot with boot script:
setenv bootcmd "load mmc 0:1 0x4d00000 boot.scr; source 0x4d00000"
saveenv
or manually:
setenv fdt_name armada-3720-db.dtb
setenv image_name Image
setenv bootcmd 'mmc dev 0; ext4load mmc 0:1 $kernel_addr $image_name;ext4load mmc 0:1 $fdt_addr $fdt_name;setenv bootargs $console root=/dev/mmcblk1p2 rw rootwait; booti $kernel_addr - $fdt_addr'
saveenv
Signed-off-by: Damir Samardzic <damir.samardzic@sartura.hr>
Linksys WRT32X (Venom) is identical in hardware to the WRT3200ACM
with a different flash layout and boots zImage rather than uImage.
Specification:
- Marvell Armada 385 88F6820 (2x 1.8GHz)
- 256MB of Flash
- 512MB of RAM
- 2.4GHz (bgn) and 5GHz (an+ac wave 2)
- 4x 1Gbps LAN + 1x 1Gbps WAN
- 1x USB 3.0 and 1x USB 2.0/eSATA (combo port)
Flash instruction:
Apply factory image via web-gui.
Signed-off-by: Michael Gray <michael.gray@lantisproject.com>
Add initial support for Marvell MACCHIATObin, cortex-a72 based Marvell
ARMADA 8040 Community board. Comes in two forms: Single Shot and Double
Shot.
Specifications:
- Quad core Cortex-A72 (up to 2GHz)
- DDR4 DIMM slot with optional ECC and single/dual chip select support
- Dual 10GbE (1/2.5/10GbE) via copper or SFP
2.5GbE (1/2.5GbE) via SFP
1GbE via copper
- SPI Flash
- 3 X SATA 3.0 connectors
- MicroSD connector
- eMMC
- PCI x4 3.0 slot
- USB 2.0 Headers (Internal)
- USB 3.0 connector
- Console port (UART) over microUSB connector
- 20-pin Connector for CPU JTAG debugger
- 2 X UART Headers
- 12V input via DC Jack
- ATX type power connector
- Form Factor: Mini-ITX (170 mm x 170 mm)
More details at http://macchiatobin.net
Booting from micro SD card:
1. reset U-Boot environment:
env default -a
saveenv
2. prepare U-Boot with boot script:
setenv bootcmd "load mmc 1:1 0x4d00000 boot.scr; source 0x4d00000"
saveenv
or manually:
setenv fdt_name armada-8040-mcbin.dtb
setenv image_name Image
setenv bootcmd 'mmc dev 1; ext4load mmc 1:1 $kernel_addr $image_name;ext4load mmc 1:1 $fdt_addr $fdt_name;setenv bootargs $console root=/dev/mmcblk1p2 rw rootwait; booti $kernel_addr - $fdt_addr'
saveenv
Signed-off-by: Damir Samardzic <damir.samardzic@sartura.hr>
This commit introduces new subtarget for Marvell EBU Armada Cortex A53
processor based devices.
The first device is Globalscale ESPRESSObin. Some hardware specs:
SoC: Marvell Armada 3700LP (88F3720) dual core ARM Cortex A53
processor up to 1.2GHz
RAM: 512MB, 1GB or 2GB DDR3
Storage: SATA interface
µSD card slot with footprint for an optional 4GB EMMC
4MB SPI NOR flash for bootloader
Ethernet: Topaz Networking Switch (88E6341) with 3x GbE ports
Connectors: USB 3.0
USB 2.0
µUSB port connected to PL2303SA (USB to serial bridge
controller) for UART access
Expansion: 2x 46-pin GPIO headers for accessories and shields with
I2C, GPIOs, PWM, UART, SPI, MMC, etc
MiniPCIe slot
Misc: Reset button, JTAG interface
Currently booting only from µSD card is supported.
The boards depending on date of dispatch can come with various U-Boot
versions. For the newest version 2017.03-armada-17.10 no manual
intervention should be needed to boot OpenWrt image. For the older ones
it's necessary to modify default U-Boot environment:
1. Interrupt boot process to run U-Boot command line,
2. Run following commands:
(for version 2017.03-armada-17.06 and 2017.03-armada-17.08)
setenv bootcmd "load mmc 0:1 0x4d00000 boot.scr; source 0x4d00000"
saveenv
(for version 2015.01-armada-17.02 and 2015.01-armada-17.04)
setenv bootargs "console=ttyMV0,115200 root=/dev/mmcblk0p2 rw rootwait"
setenv bootcmd "ext4load mmc 0:1 ${fdt_addr} armada-3720-espressobin.dtb; ext4load mmc 0:1 ${kernel_addr} Image; booti ${kernel_addr} - ${fdt_addr}"
saveenv
3. Poweroff, insert SD card with OpenWrt image, boot and enjoy.
Signed-off-by: Tomasz Maciej Nowak <tomek_n@o2.pl>
Adds support for the Turris Omnia and builds an eMMC sysupgrade image in
the same format as the SolidRun ClearFog.
An initramfs image in the simple yet Omnia-specific 'medkit' image format
is also built in order to ease the initial flashing process.
Notable hardware support omissions are support for switching between SFP
cage and copper PHY, and RGB LED control.
Due to a current limitation of DSA, only 1/2 CPU switch uplinks are used.
Specifications:
- Marvell Armada 385 1.6GHz dual-core ARMv7 CPU
- 1GB DDR3 RAM
- 8GB eMMC Flash
- 5x Gigabit LAN via Marvell 88E6176 Switch (2x RGMII CPU ports)
- 1x switchable RJ45 (88E1514 PHY) / SFP SGMII WAN
- 2x USB 3.0
- 12x dimmable RGB LEDs controlled by independent MCU
- 3x Mini PCIe slots
- Optional Compex WLE200N2 Mini PCIe AR9287 2x2 802.11b/g/n (2.4GHz)
- Optional Compex WLE900VX Mini PCIe QCA9880 3x3 802.11ac (2.4 / 5GHz)
- Optional Quectel EC20 Mini PCIe LTE modem
Flash instructions:
If the U-Boot environment has been modified previously (likely manually via
serial console), first use serial to reset the default environment.
=> env default -a
=> saveenv
Method 1 - USB 'medkit' image w/o serial
- Copy openwrt-mvebu-turris-omnia-sysupgrade.img.gz and
omnia-medkit-openwrt-mvebu-turris-omnia-initramfs.tar.gz to the root of a
USB flash drive formatted with FAT32 / ext2/3/4 / btrfs / XFS.
Note that the medkit MUST be named omnia-medkit*.tar.gz
- Disconnect other USB devices from the Omnia and connect the flash drive
to either USB port.
- Power on the Omnia and hold down the rear reset button until 4 LEDs are
illuminated, then release.
- Wait approximately 2 minutes for the Turris Omnia to flash itself with
the temporary image, during which LEDs will change multiple times.
- Connect a computer to a LAN port of the Turris Omnia with a DHCP client
- (if necessary) ssh-keygen -R 192.168.1.1
- ssh root@192.168.1.1
$ mount /dev/sda1 /mnt
$ sysupgrade /mnt/openwrt-mvebu-turris-omnia-sysupgrade.img.gz
- Wait another minute for the final OpenWrt image to be flashed. The Turris
Omnia will reboot itself and you can remove the flash drive.
Method 2 - TFTP w/ serial
- Extract omnia-medkit-openwrt-mvebu-turris-omnia-initramfs.tar.gz and copy
dtb + zImage to your TFTP server (rename if desired)
- Connect Turris Omnia WAN port to DHCP-enabled network with TFTP server
- Connect serial console and interrupt U-Boot
=> dhcp
=> setenv serverip <tftp_server_ip_here>
=> tftpboot 0x01000000 zImage
=> tftpboot 0x02000000 dtb
=> bootz 0x01000000 - 0x02000000
- OpenWrt will now boot from ramdisk
- Download openwrt-mvebu-turris-omnia-sysupgrade.img.gz to /tmp/
$ sysupgrade /tmp/openwrt-mvebu-turris-omnia-sysupgrade.img.gz
- Wait another minute for the final OpenWrt image to be flashed. The Turris
Omnia will reboot itself.
Signed-off-by: Ryan Mounce <ryan@mounce.com.au>
The name of the PCIe controller node in device tree changed between
kernel 4.9 and kernel 4.14. Migrate the configuration when an update
from kernel 4.9 to 4.14 or back is done to the new name to make
the existing wifi configuration compatible with the new names.
This replaces the "pcie-controller" part with "pcie" on all nodes if the
file exists in sys fs.
This is not done in the uci-defualts, because they are getting executed
to late in the boot process. The kernel module gets loaded before the
uci-defaults scripts are executed. When the mwlwifi driver gets loaded
it will trigger an event via hotplug to detect new devices and as the
paths are not in the uci configuration they will be added again.
When the migration is done before the script will detect that they are
already there.
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
The single SFP port is meant for direct media access to WAN, such as
VDSL2, GPON). While it could also be used for in-home fiber, it is much
more likely that the LAN is standard ethernet, especially considering
that SFP is the onmly port that can go beyond 1Gbps.
Signed-off-by: Josua Mayer <josua.mayer97@gmail.com>
Take explicit note of what physical ports eth{0,1,2} refer to.
Also repair port assignment:
At some point between 4.9.20 and 4.9.29 the numbering changed.
Keep previous port assignment that was:
LAN = SFP+Switch
WAN = standalone ethernet
Also use the same assignment for Clearfog-Base to avoid confusion.
Signed-off-by: Josua Mayer <josua.mayer97@gmail.com>
Add support for SolidRun ClearFog Base board.
The base model is a smaller version of ClearFog Pro without
the DSA switch, replacing it with a second copper gigabit
port, and only one PCIe socket.
Signed-off-by: Marko Ratkaj <marko.ratkaj@sartura.hr>
After "73d923e base-files: emit tagged switch configuration by default"
some default network configurations are broken because the lan and wan
ifnames are forcibly set to untagged netdevs.
Adjust the offending set_interfaces_lan_wan() calls to use the proper
tagged device names.
Signed-off-by: Jo-Philipp Wich <jo@mein.io>
All mvebu boards have three USB LEDs. The first one is used for the
USB1 port.
There are two LEDs related to the second USB port. The top (bar) LED
gets bright in case any USB device is connected to the second USB port.
If the connected device is an USB 3 (SuperSpeed) device, the small dot
LED bellow the "bar" LED gets also bright.
While at it, use a name for the USB LEDs that matches the names printed
on the case.
Fixes: FS#423, FS#425
Signed-off-by: Kabuli Chana <newtownbuild@gmail.com>
Signed-off-by: Mathias Kresin <dev@kresin.me>
Unify switch configuration on Linksys WRTxx00AC series.
LAN = eth0, WAN = eth1
Signed-off-by: Paul Wassi <p.wassi@gmx.at>
[Álvaro]: also change WAN LEDs
Signed-off-by: Álvaro Fernández Rojas <noltari@gmail.com>
Replace former uci-defaults.sh implementation with the uci-defaults-new.sh one
and update all users accordingly.
Signed-off-by: Jo-Philipp Wich <jow@openwrt.org>
SVN-Revision: 47867
This changes uci-defaults-new.sh, config_generate and all relevant board.d
files in order combine ucidef_add_switch() and ucidef_add_switch_ports() into
a single function.
Also removes now superfluous enable and reset arguments.
Signed-off-by: Jo-Philipp Wich <jow@openwrt.org>
SVN-Revision: 47721
Roll back the mvebu conversion to board detection code as we need to fix
some strcutural issues first.
Signed-off-by: Jo-Philipp Wich <jow@openwrt.org>
SVN-Revision: 47597
The u-boot boot counter was never reset after a successful boot,
which sometimes could make some variables become out of sync.
This patch adds support for the boot counter and enables
auto_recovery unconditionally.
Signed-off-by: Jonas Gorski <jogo@openwrt.org>
Signed-off-by: Rob Mosher <nyt-openwrt@countercultured.net>
Signed-off-by: Imre Kaloz <kaloz@openwrt.org>
SVN-Revision: 46690
Turn on the auto recovery feature when flashing
and turn it off on successful bootup.
Signed-off-by: Imre Kaloz <kaloz@openwrt.org>
SVN-Revision: 45792
This sets 'enable_vlan' and thus uses 802.1q
VLANs, but without tagging on either interface.
Signed-off-by: Claudio Leite <leitec@staticky.com>
Signed-off-by: Imre Kaloz <kaloz@openwrt.org>
SVN-Revision: 44509