openwrtv3/target/linux/ramips/image/mt7621.mk

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#
# MT7621 Profiles
#
DEVICE_VARS += TPLINK_BOARD_ID TPLINK_HEADER_VERSION TPLINK_HWID TPLINK_HWREV
define Build/elecom-gst-factory
$(eval product=$(word 1,$(1)))
$(eval version=$(word 2,$(1)))
( $(STAGING_DIR_HOST)/bin/mkhash md5 $@ | tr -d '\n' ) >> $@
( \
echo -n "ELECOM $(product) v$(version)" | \
dd bs=32 count=1 conv=sync; \
dd if=$@; \
) > $@.new
mv $@.new $@
echo -n "MT7621_ELECOM_$(product)" >> $@
endef
define Build/elecom-wrc-factory
$(eval product=$(word 1,$(1)))
$(eval version=$(word 2,$(1)))
$(STAGING_DIR_HOST)/bin/mkhash md5 $@ >> $@
( \
echo -n "ELECOM $(product) v$(version)" | \
dd bs=32 count=1 conv=sync; \
dd if=$@; \
) > $@.new
mv $@.new $@
endef
ramips: add support for I-O DATA WN-AX1167GR I-O DATA WN-AX1167GR is a 2.4/5 GHz band 11ac router, based on MediaTek MT7621A. Specification: - MT7621A (2-Cores, 4-Threads) - 64 MB of RAM (DDR2) - 16 MB of Flash (SPI) - 2T2R 2.4/5 GHz - 5x 10/100/1000 Mbps Ethernet - 2x LEDs, 4x keys (2x buttons, 1x slide switch) - UART header on PCB - Vcc, GND, TX, RX from ethernet port side - baudrate: 115200 bps (U-Boot, OpenWrt) Stock firmware: In the stock firmware, WN-AX1167GR has two os images each composed of Linux kernel and rootfs. These images are stored in "Kernel" and "app" partition of the following partitions, respectively. (excerpt from dmesg): MX25L12805D(c2 2018c220) (16384 Kbytes) mtd .name = raspi, .size = 0x01000000 (16M) .erasesize = 0x00010000 (64K) .numeraseregions = 0 Creating 10 MTD partitions on "raspi": 0x000000000000-0x000001000000 : "ALL" 0x000000000000-0x000000030000 : "Bootloader" 0x000000030000-0x000000040000 : "Config " 0x000000040000-0x000000050000 : "Factory" 0x000000050000-0x000000060000 : "iNIC_rf" 0x000000060000-0x0000007e0000 : "Kernel" 0x000000800000-0x000000f80000 : "app" 0x000000f90000-0x000000fa0000 : "Key" 0x000000fa0000-0x000000fb0000 : "backup" 0x000000fb0000-0x000001000000 : "storage" The flag for boot partition is stored in "Key" partition, and U-Boot reads this and determines the partition to boot. If the image that U-Boot first reads according to the flag is "Bad Magic Number", U-Boot then tries to boot from the other image. If the second image is correct, change the flag to the number corresponding to that image and boot from that image. (example): ## Booting image at bc800000 ... Bad Magic Number,FFFFFFFF Boot from KERNEL 1 !! ## Booting image at bc060000 ... Image Name: MIPS OpenWrt Linux-4.14.50 Image Type: MIPS Linux kernel Image (lzma compressed) Data Size: 1865917 Bytes = 1.8 MB Load Address: 80001000 Entry Point: 80001000 Verifying Checksum ... OK Uncompressing Kernel Image ... OK raspi_erase_write: offs:f90000, count:34 . . Done! Starting kernel ... Flash instruction using factory image: 1. Connect the computer to the LAN port of WN-AX1167GR 2. Connect power cable to WN-AX1167GR and turn on it 3. Access to "192.168.0.1" on the web browser and open firmware update page ("ファームウェア") 4. Select the OpenWrt factory image and perform firmware update 5. On the initramfs image, execute "mtd erase firmware" to erase stock firmware and execute sysupgrade with sysupgrade image for WN-AX1167GR 6. Wait ~180 seconds to complete flasing Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
2018-06-27 13:47:13 +00:00
define Build/iodata-factory
$(eval fw_size=$(word 1,$(1)))
$(eval fw_type=$(word 2,$(1)))
$(eval product=$(word 3,$(1)))
$(eval factory_bin=$(word 4,$(1)))
if [ -e $(KDIR)/tmp/$(KERNEL_INITRAMFS_IMAGE) -a "$$(stat -c%s $@)" -lt "$(fw_size)" ]; then \
$(CP) $(KDIR)/tmp/$(KERNEL_INITRAMFS_IMAGE) $(factory_bin); \
$(STAGING_DIR_HOST)/bin/mksenaofw \
-r 0x30a -p $(product) -t $(fw_type) \
-e $(factory_bin) -o $(factory_bin).new; \
mv $(factory_bin).new $(factory_bin); \
$(CP) $(factory_bin) $(BIN_DIR)/; \
else \
echo "WARNING: initramfs kernel image too big, cannot generate factory image" >&2; \
fi
endef
define Build/ubnt-erx-factory-image
if [ -e $(KDIR)/tmp/$(KERNEL_INITRAMFS_IMAGE) -a "$$(stat -c%s $@)" -lt "$(KERNEL_SIZE)" ]; then \
echo '21001:6' > $(1).compat; \
$(TAR) -cf $(1) --transform='s/^.*/compat/' $(1).compat; \
\
$(TAR) -rf $(1) --transform='s/^.*/vmlinux.tmp/' $(KDIR)/tmp/$(KERNEL_INITRAMFS_IMAGE); \
mkhash md5 $(KDIR)/tmp/$(KERNEL_INITRAMFS_IMAGE) > $(1).md5; \
$(TAR) -rf $(1) --transform='s/^.*/vmlinux.tmp.md5/' $(1).md5; \
\
echo "dummy" > $(1).rootfs; \
$(TAR) -rf $(1) --transform='s/^.*/squashfs.tmp/' $(1).rootfs; \
\
mkhash md5 $(1).rootfs > $(1).md5; \
$(TAR) -rf $(1) --transform='s/^.*/squashfs.tmp.md5/' $(1).md5; \
\
echo '$(BOARD) $(VERSION_CODE) $(VERSION_NUMBER)' > $(1).version; \
$(TAR) -rf $(1) --transform='s/^.*/version.tmp/' $(1).version; \
\
$(CP) $(1) $(BIN_DIR)/; \
else \
echo "WARNING: initramfs kernel image too big, cannot generate factory image" >&2; \
fi
endef
define Device/11acnas
DTS := 11ACNAS
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := WeVO 11AC NAS Router
DEVICE_PACKAGES := kmod-mt7603 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += 11acnas
define Device/dir-860l-b1
DTS := DIR-860L-B1
BLOCKSIZE := 64k
IMAGES += factory.bin
KERNEL := kernel-bin | patch-dtb | relocate-kernel | lzma | uImage lzma
IMAGE_SIZE := $(ralink_default_fw_size_16M)
IMAGE/sysupgrade.bin := \
append-kernel | pad-offset $$$$(BLOCKSIZE) 64 | append-rootfs | \
seama -m "dev=/dev/mtdblock/2" -m "type=firmware" | \
pad-rootfs | append-metadata | check-size $$$$(IMAGE_SIZE)
IMAGE/factory.bin := \
append-kernel | pad-offset $$$$(BLOCKSIZE) 64 | \
append-rootfs | pad-rootfs -x 64 | \
seama -m "dev=/dev/mtdblock/2" -m "type=firmware" | \
seama-seal -m "signature=wrgac13_dlink.2013gui_dir860lb" | \
check-size $$$$(IMAGE_SIZE)
DEVICE_TITLE := D-Link DIR-860L B1
DEVICE_PACKAGES := kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += dir-860l-b1
define Device/mediatek_ap-mt7621a-v60
DTS := AP-MT7621A-V60
IMAGE_SIZE := $(ralink_default_fw_size_8M)
DEVICE_TITLE := Mediatek AP-MT7621A-V60 EVB
DEVICE_PACKAGES := kmod-usb3 kmod-sdhci-mt7620 kmod-sound-mt7620
endef
TARGET_DEVICES += mediatek_ap-mt7621a-v60
define Device/elecom_wrc-1167ghbk2-s
DTS := WRC-1167GHBK2-S
IMAGE_SIZE := 15488k
DEVICE_TITLE := ELECOM WRC-1167GHBK2-S
IMAGES += factory.bin
IMAGE/factory.bin := $$(sysupgrade_bin) | check-size $$$$(IMAGE_SIZE) |\
elecom-wrc-factory WRC-1167GHBK2-S 0.00
endef
TARGET_DEVICES += elecom_wrc-1167ghbk2-s
define Device/elecom_wrc-2533gst
DTS := WRC-2533GST
IMAGE_SIZE := 11264k
DEVICE_TITLE := ELECOM WRC-2533GST
IMAGES += factory.bin
IMAGE/factory.bin := $$(sysupgrade_bin) | check-size $$$$(IMAGE_SIZE) |\
elecom-gst-factory WRC-2533GST 0.00
endef
TARGET_DEVICES += elecom_wrc-2533gst
define Device/elecom_wrc-1900gst
DTS := WRC-1900GST
IMAGE_SIZE := 11264k
DEVICE_TITLE := ELECOM WRC-1900GST
IMAGES += factory.bin
IMAGE/factory.bin := $$(sysupgrade_bin) | check-size $$$$(IMAGE_SIZE) |\
elecom-gst-factory WRC-1900GST 0.00
endef
TARGET_DEVICES += elecom_wrc-1900gst
define Device/ew1200
DTS := EW1200
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := AFOUNDRY EW1200
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-mt76x2 kmod-mt7603 kmod-usb3 \
kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += ew1200
define Device/firewrt
DTS := FIREWRT
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := Firefly FireWRT
DEVICE_PACKAGES := kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += firewrt
define Device/gnubee_gb-pc1
DTS := GB-PC1
DEVICE_TITLE := GnuBee Personal Cloud One
DEVICE_PACKAGES := kmod-ata-core kmod-ata-ahci kmod-usb3 kmod-sdhci-mt7620
IMAGE_SIZE := $(ralink_default_fw_size_32M)
endef
TARGET_DEVICES += gnubee_gb-pc1
define Device/gnubee_gb-pc2
DTS := GB-PC2
DEVICE_TITLE := GnuBee Personal Cloud Two
DEVICE_PACKAGES := kmod-ata-core kmod-ata-ahci kmod-usb3 kmod-sdhci-mt7620
IMAGE_SIZE := $(ralink_default_fw_size_32M)
endef
TARGET_DEVICES += gnubee_gb-pc2
define Device/hc5962
DTS := HC5962
BLOCKSIZE := 128k
PAGESIZE := 2048
KERNEL_SIZE := 2097152
UBINIZE_OPTS := -E 5
IMAGE_SIZE := $(ralink_default_fw_size_32M)
IMAGES += factory.bin
IMAGE/sysupgrade.bin := sysupgrade-tar | append-metadata
IMAGE/factory.bin := append-kernel | pad-to $$(KERNEL_SIZE) | append-ubi | check-size $$$$(IMAGE_SIZE)
DEVICE_TITLE := HiWiFi HC5962
DEVICE_PACKAGES := kmod-mt7603 kmod-mt76x2 kmod-usb3 wpad-mini
endef
TARGET_DEVICES += hc5962
ramips: add support for I-O DATA WN-AX1167GR I-O DATA WN-AX1167GR is a 2.4/5 GHz band 11ac router, based on MediaTek MT7621A. Specification: - MT7621A (2-Cores, 4-Threads) - 64 MB of RAM (DDR2) - 16 MB of Flash (SPI) - 2T2R 2.4/5 GHz - 5x 10/100/1000 Mbps Ethernet - 2x LEDs, 4x keys (2x buttons, 1x slide switch) - UART header on PCB - Vcc, GND, TX, RX from ethernet port side - baudrate: 115200 bps (U-Boot, OpenWrt) Stock firmware: In the stock firmware, WN-AX1167GR has two os images each composed of Linux kernel and rootfs. These images are stored in "Kernel" and "app" partition of the following partitions, respectively. (excerpt from dmesg): MX25L12805D(c2 2018c220) (16384 Kbytes) mtd .name = raspi, .size = 0x01000000 (16M) .erasesize = 0x00010000 (64K) .numeraseregions = 0 Creating 10 MTD partitions on "raspi": 0x000000000000-0x000001000000 : "ALL" 0x000000000000-0x000000030000 : "Bootloader" 0x000000030000-0x000000040000 : "Config " 0x000000040000-0x000000050000 : "Factory" 0x000000050000-0x000000060000 : "iNIC_rf" 0x000000060000-0x0000007e0000 : "Kernel" 0x000000800000-0x000000f80000 : "app" 0x000000f90000-0x000000fa0000 : "Key" 0x000000fa0000-0x000000fb0000 : "backup" 0x000000fb0000-0x000001000000 : "storage" The flag for boot partition is stored in "Key" partition, and U-Boot reads this and determines the partition to boot. If the image that U-Boot first reads according to the flag is "Bad Magic Number", U-Boot then tries to boot from the other image. If the second image is correct, change the flag to the number corresponding to that image and boot from that image. (example): ## Booting image at bc800000 ... Bad Magic Number,FFFFFFFF Boot from KERNEL 1 !! ## Booting image at bc060000 ... Image Name: MIPS OpenWrt Linux-4.14.50 Image Type: MIPS Linux kernel Image (lzma compressed) Data Size: 1865917 Bytes = 1.8 MB Load Address: 80001000 Entry Point: 80001000 Verifying Checksum ... OK Uncompressing Kernel Image ... OK raspi_erase_write: offs:f90000, count:34 . . Done! Starting kernel ... Flash instruction using factory image: 1. Connect the computer to the LAN port of WN-AX1167GR 2. Connect power cable to WN-AX1167GR and turn on it 3. Access to "192.168.0.1" on the web browser and open firmware update page ("ファームウェア") 4. Select the OpenWrt factory image and perform firmware update 5. On the initramfs image, execute "mtd erase firmware" to erase stock firmware and execute sysupgrade with sysupgrade image for WN-AX1167GR 6. Wait ~180 seconds to complete flasing Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
2018-06-27 13:47:13 +00:00
define Device/iodata_wn-ax1167gr
DTS := WN-AX1167GR
IMAGE_SIZE := 15552k
KERNEL_INITRAMFS := $$(KERNEL) | \
iodata-factory 7864320 4 0x1055 $(KDIR)/tmp/$$(KERNEL_INITRAMFS_PREFIX)-factory.bin
DEVICE_TITLE := I-O DATA WN-AX1167GR
DEVICE_PACKAGES := kmod-mt7603 kmod-mt76x2 wpad-mini
endef
TARGET_DEVICES += iodata_wn-ax1167gr
define Device/iodata_wn-gx300gr
DTS := WN-GX300GR
IMAGE_SIZE := 7798784
DEVICE_TITLE := I-O DATA WN-GX300GR
DEVICE_PACKAGES := kmod-mt7603 wpad-mini
endef
TARGET_DEVICES += iodata_wn-gx300gr
define Device/k2p
DTS := K2P
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := Phicomm K2P
endef
TARGET_DEVICES += k2p
define Device/mir3g
DTS := MIR3G
BLOCKSIZE := 128k
PAGESIZE := 2048
KERNEL_SIZE := 4096k
KERNEL := $(KERNEL_DTB) | uImage lzma
IMAGE_SIZE := 32768k
UBINIZE_OPTS := -E 5
IMAGES := sysupgrade.tar kernel1.bin rootfs0.bin
IMAGE/kernel1.bin := append-kernel
IMAGE/rootfs0.bin := append-ubi | check-size $$$$(IMAGE_SIZE)
IMAGE/sysupgrade.tar := sysupgrade-tar | append-metadata
DEVICE_TITLE := Xiaomi Mi Router 3G
SUPPORTED_DEVICES += R3G
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini \
ramips: improve Xiaomi Mi Router 3G support This commit improves support for the Xiaomi Mi Router 3G originally added in commit 6e283cdc0da25928f8148805ebef7f8f2b769ee8 Improvements: - Remove software watchdog as hardware watchdog now working as per commit 3fbf3ab44f5cebb22e30a4c8681b13341feed6a6 for all mt7621 devices. - Reset button polarity corrected - length of press determines reboot (short press) vs. reset to defaults (long press) behaviour. - Enable GPIO amber switch port LEDs on board rear - lit indicates 1Gbit link and blink on activity. Green LEDs driven directly by switch indicating any link speed and tx activity. - USB port power on/off GPIO exposed as 'usbpower' - Add access to uboot environment settings for checking/setting uboot boot order preference from user space. Changes: - Front LED indicator is physically made of independent Yellow/Amber, Red & Blue LEDs combined via a plastic 'lightpipe' to a front panel indicator, hence the colour behaviour is similar to an RGB LED. RGB LEDs are not supported at this time because they produce colour results that do not then match colour labels, e.g. enabling 'mir3g:red' and 'mir3g:blue' would result in a purple indicator and we have no such label for purple. The yellow, red & blue LEDs have been split out as individual yellow, red & blue status LEDs, with yellow being the default status LED as before and with red's WAN and blue's USB default associations removed. - Swapped order of vlan interfaces (eth0.1 & eth0.2) to match stock vlan layout. eth0.1 is LAN, eth0.2 is WAN - Add 'lwlll' vlan layout to mt7530 switch driver to prevent packet leakage between kernel switch init and uci swconfig uboot behaviour & system 'recovery' uboot expects to find bootable kernels at nand addresses 0x200000 & 0x600000 known by uboot as "system 1" and "system 2" respectively. uboot chooses which system to hand control to based on 3 environment variables: flag_last_success, flag_try_sys1_failed & flag_try_sys2_failed last_success represents a preference for a particular system and is set to 0 for system 1, set to 1 for system 2. last_success is considered *if* and only if both try_sys'n'_failed flags are 0 (ie. unset) If *either* failed flags are set then uboot will attempt to hand control to the non failed system. If both failed flags are set then uboot will check the uImage CRC of system 1 and hand control to it if ok. If the uImage CRC of system is not ok, uboot will hand control to system 2 irrespective of system 2's uImage CRC. NOTE: uboot only ever sets failed flags, it *never* clears them. uboot sets a system's failed flag if that system's was selected for boot but the uImage CRC is incorrect. Fortunately with serial console access, uboot provides the ability to boot an initramfs image transferred via tftp, similarly an image may be flashed to nand however it will flash to *both* kernels so a backup of stock kernel image is suggested. Note that the suggested install procedure below set's system 1's failed flag (stock) thus uboot ignores the last_success preference and boots LEDE located in system 2. Considerable thought has gone into whether LEDE should replace both kernels, only one (and which one) etc. LEDE kernels do not include a minimal rootfs and thus unlike the stock kernel cannot include a method of controlling uboot environment variables in the event of rootfs mount failure. Similarly uboot fails to provide an external mechanism for indicating boot system failure. Installation - from stock. Installation through telnet/ssh: - copy lede-ramips-mt7621-mir3g-squashfs-kernel1.bin and lede-ramips-mt7621-mir3g-squashfs-rootfs0.bin to usb disk or wget it from LEDE download site to /tmp - switch to /extdisks/sda1/ (if copied to USB drive) or to /tmp if wgetted from LEDE download site - run: mtd write lede-ramips-mt7621-mir3g-squashfs-kernel1.bin kernel1 - run: mtd write lede-ramips-mt7621-mir3g-squashfs-rootfs0.bin rootfs0 - run: nvram set flag_try_sys1_failed=1 - run: nvram commit - run: reboot Recovery - to stock. Assuming you used the above installation instructions you will have a stock kernel image in system 1. If it can be booted then it may be used to perform a stock firmware recovery, thus erasing LEDE completely. From a 'working' LEDE state (even failsafe) Failsafe only: - run: mount_root - run: sh /etc/uci-defaults/30_uboot-envtools Then do the steps for 'All' All: - run: fw_setenv flag_try_sys2_failed 1 - run: reboot The board will reboot into system 1 (stock basic kernel) and wait with system red light slowly blinking for a FAT formatted usb stick with a recovery image to be inserted. Press and hold the reset button for around 1 second. Status LED will turn yellow during recovery and blue when recovery complete. Signed-off-by: Kevin Darbyshire-Bryant <ldir@darbyshire-bryant.me.uk>
2017-09-25 19:41:13 +00:00
uboot-envtools
endef
TARGET_DEVICES += mir3g
define Device/mt7621
DTS := MT7621
BLOCKSIZE := 64k
IMAGE_SIZE := $(ralink_default_fw_size_4M)
DEVICE_TITLE := MediaTek MT7621 EVB
endef
TARGET_DEVICES += mt7621
define Device/newifi-d1
DTS := Newifi-D1
IMAGE_SIZE := $(ralink_default_fw_size_32M)
DEVICE_TITLE := Newifi D1
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += newifi-d1
define Device/d-team_newifi-d2
DTS := Newifi-D2
IMAGE_SIZE := $(ralink_default_fw_size_32M)
DEVICE_TITLE := Newifi D2
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += d-team_newifi-d2
define Device/pbr-m1
DTS := PBR-M1
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := PBR-M1
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-mt7603 kmod-mt76x2 kmod-sdhci-mt7620 \
kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += pbr-m1
define Device/r6220
DTS := R6220
BLOCKSIZE := 128k
PAGESIZE := 2048
KERNEL_SIZE := 4096k
KERNEL := $(KERNEL_DTB) | uImage lzma
IMAGE_SIZE := 28672k
UBINIZE_OPTS := -E 5
IMAGES := sysupgrade.tar kernel.bin rootfs.bin
IMAGE/sysupgrade.tar := sysupgrade-tar | append-metadata
IMAGE/kernel.bin := append-kernel
IMAGE/rootfs.bin := append-ubi | check-size $$$$(IMAGE_SIZE)
DEVICE_TITLE := Netgear R6220
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += r6220
define Device/rb750gr3
DTS := RB750Gr3
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := MikroTik RB750Gr3
DEVICE_PACKAGES := kmod-usb3 uboot-envtools
endef
TARGET_DEVICES += rb750gr3
define Device/MikroTik
ramips: Add support for Mikrotik RouterBOARD RBM33g This commit adds support for the Mikrotik RouterBOARD RBM33g. =Hardware= The RBM33g is a mt7621 based device featuring three gigabit ports, 2 miniPCIe slots with sim card sockets, 1 M.2 slot, 1 USB 3.0 port and a male onboard RS-232 serial port. Additionally there are a lot of accessible GPIO ports and additional buses like i2c, mdio, spi and uart. ==Switch== The three Ethernet ports are all connected to the internal switch of the mt7621 SoC: port 0: Ethernet Port next to barrel jack with PoE printed on it port 1: Innermost Ethernet Port on opposite side of RS-232 port port 2: Outermost Ethernet Port on opposite side of RS-232 port port 6: CPU ==Flash== The device has two spi flash chips. The first flash chips is rather small (512 kB), connected to CS0 by default and contains only the RouterBOOT bootloader and some factory information (e.g. mac address). The second chip has a size of 16 MB, is by default connected to CS1 and contains the firmware image. ==PCIe== The board features three PCIe-enabled slots. Two of them are miniPCIe slots (PCIe0, PCIe1) and one is a M.2 (Key M) slot (PCIe2). Each of the miniPCIe slots is connected to a dedicated mini SIM socket on the back of the board. Power to all three PCIe-enabled slots is controlled via GPIOs on the mt7621 SoC: PCIe0: GPIO9 PCIe1: GPIO10 PCIe2: GPIO11 ==USB== The board has one external USB 3.0 port at the rear. Additionally PCIe port 0 has a permanently enabled USB interface. PCIe slot 1 shares its USB interface with the rear USB port. Thus only either the rear USB port or the USB interface of PCIe slot 1 can be active at the same time. The jumper next to the rear USB port controls which one is active: open: USB on PCIe 1 is active closed: USB on rear USB port is active ==Power== The board can accept both, passive PoE and external power via a 2.1 mm barrel jack. The input voltage range is 11-32 V. =Installation= ==Prerequisites== A USB -> RS-232 Adapter and a null modem cable are required for installation. To install an OpenWRT image to the device two components must be built: 1. A openwrt initramfs image 2. A openwrt sysupgrade image ===initramfs & sysupgrade image=== Select target devices "Mikrotik RBM33G" in openwrt menuconfig and build the images. This will create the images "openwrt-ramips-mt7621-mikrotik_rbm33g-initramfs-kernel.bin" and "openwrt-ramips-mt7621-mikrotik_rbm33g-squashfs-sysupgrade.bin" in the output directory. ==Installing== **Make sure to back up your RouterOS license in case you do ever want to go back to RouterOS using "/system license output" and back up the created license file.** Serial settings: 115200 8N1 The installation is a two-step process. First the "openwrt-ramips-mt7621-mikrotik_rbm33g-initramfs-kernel.bin" must be booted via tftp: 1. Set up a dhcp server that points the bootfile to tftp server serving the "openwrt-ramips-mt7621-mikrotik_rbm33g-initramfs-kernel.bin" initramfs image 2. Connect to WAN port (left side, next to sys-LED and power indicator) 3. Connect to serial port of board 4. Power on board and enter RouterBOOT setup menu 5. Set boot device to "boot over ethernet" 6. Set boot protocol to "dhcp protocol" (can be omitted if DHCP server allows dynamic bootp) 6. Save config 7. Wait for board to boot via Ethernet On the serial port you should now be presented with the OpenWRT boot log. The next steps will install OpenWRT persistently. 1. Copy "openwrt-ramips-mt7621-mikrotik_rbm33g-squashfs-sysupgrade.bin" to the device using scp. 2. Write openwrt to flash using "sysupgrade openwrt-ramips-mt7621-mikrotik_rbm33g-squashfs-sysupgrade.bin" Once the flashing completes reboot the router and let it boot from flash. It should boot straight to OpenWRT. Signed-off-by: Tobias Schramm <tobleminer@gmail.com>
2018-05-04 01:47:23 +00:00
BLOCKSIZE := 64k
IMAGE_SIZE := 16128k
DEVICE_PACKAGES := kmod-usb3
LOADER_TYPE := elf
PLATFORM := mt7621
KERNEL := kernel-bin | patch-dtb | lzma | loader-kernel
IMAGE/sysupgrade.bin := append-kernel | kernel2minor -s 1024 | pad-to $$$$(BLOCKSIZE) | \
append-rootfs | pad-rootfs | append-metadata | check-size $$$$(IMAGE_SIZE)
endef
define Device/mikrotik_rbm33g
$(Device/MikroTik)
DTS := RBM33G
DEVICE_TITLE := MikroTik RouterBOARD M33G
endef
ramips: Add support for Mikrotik RouterBOARD RBM33g This commit adds support for the Mikrotik RouterBOARD RBM33g. =Hardware= The RBM33g is a mt7621 based device featuring three gigabit ports, 2 miniPCIe slots with sim card sockets, 1 M.2 slot, 1 USB 3.0 port and a male onboard RS-232 serial port. Additionally there are a lot of accessible GPIO ports and additional buses like i2c, mdio, spi and uart. ==Switch== The three Ethernet ports are all connected to the internal switch of the mt7621 SoC: port 0: Ethernet Port next to barrel jack with PoE printed on it port 1: Innermost Ethernet Port on opposite side of RS-232 port port 2: Outermost Ethernet Port on opposite side of RS-232 port port 6: CPU ==Flash== The device has two spi flash chips. The first flash chips is rather small (512 kB), connected to CS0 by default and contains only the RouterBOOT bootloader and some factory information (e.g. mac address). The second chip has a size of 16 MB, is by default connected to CS1 and contains the firmware image. ==PCIe== The board features three PCIe-enabled slots. Two of them are miniPCIe slots (PCIe0, PCIe1) and one is a M.2 (Key M) slot (PCIe2). Each of the miniPCIe slots is connected to a dedicated mini SIM socket on the back of the board. Power to all three PCIe-enabled slots is controlled via GPIOs on the mt7621 SoC: PCIe0: GPIO9 PCIe1: GPIO10 PCIe2: GPIO11 ==USB== The board has one external USB 3.0 port at the rear. Additionally PCIe port 0 has a permanently enabled USB interface. PCIe slot 1 shares its USB interface with the rear USB port. Thus only either the rear USB port or the USB interface of PCIe slot 1 can be active at the same time. The jumper next to the rear USB port controls which one is active: open: USB on PCIe 1 is active closed: USB on rear USB port is active ==Power== The board can accept both, passive PoE and external power via a 2.1 mm barrel jack. The input voltage range is 11-32 V. =Installation= ==Prerequisites== A USB -> RS-232 Adapter and a null modem cable are required for installation. To install an OpenWRT image to the device two components must be built: 1. A openwrt initramfs image 2. A openwrt sysupgrade image ===initramfs & sysupgrade image=== Select target devices "Mikrotik RBM33G" in openwrt menuconfig and build the images. This will create the images "openwrt-ramips-mt7621-mikrotik_rbm33g-initramfs-kernel.bin" and "openwrt-ramips-mt7621-mikrotik_rbm33g-squashfs-sysupgrade.bin" in the output directory. ==Installing== **Make sure to back up your RouterOS license in case you do ever want to go back to RouterOS using "/system license output" and back up the created license file.** Serial settings: 115200 8N1 The installation is a two-step process. First the "openwrt-ramips-mt7621-mikrotik_rbm33g-initramfs-kernel.bin" must be booted via tftp: 1. Set up a dhcp server that points the bootfile to tftp server serving the "openwrt-ramips-mt7621-mikrotik_rbm33g-initramfs-kernel.bin" initramfs image 2. Connect to WAN port (left side, next to sys-LED and power indicator) 3. Connect to serial port of board 4. Power on board and enter RouterBOOT setup menu 5. Set boot device to "boot over ethernet" 6. Set boot protocol to "dhcp protocol" (can be omitted if DHCP server allows dynamic bootp) 6. Save config 7. Wait for board to boot via Ethernet On the serial port you should now be presented with the OpenWRT boot log. The next steps will install OpenWRT persistently. 1. Copy "openwrt-ramips-mt7621-mikrotik_rbm33g-squashfs-sysupgrade.bin" to the device using scp. 2. Write openwrt to flash using "sysupgrade openwrt-ramips-mt7621-mikrotik_rbm33g-squashfs-sysupgrade.bin" Once the flashing completes reboot the router and let it boot from flash. It should boot straight to OpenWRT. Signed-off-by: Tobias Schramm <tobleminer@gmail.com>
2018-05-04 01:47:23 +00:00
TARGET_DEVICES += mikrotik_rbm33g
ramips: add support for MikroTik RouterBOARD RBM11g This commit adds support for the MikroTik RouterBOARD RBM11g. =Hardware= The RBM11g is a mt7621 based device featuring one GbE port and one miniPCIe slot with a sim card socket and USB 2.0. ==Switch== The single onboard Ethernet port is connected the CPU directly. The internal switch of the mt7621 SoC is disabled. ==Flash== The device has one spi nor flash chip. It is a 128 Mbit winbond 25Q128FVS connected to CS0. ==PCIe== The board features a single miniPCIe slot. It has a dedicated mini SIM socket and a USB 2.0 port. Power to the miniPCIe slot is controlled via GPIO9. ==USB== There are no external USB ports. ==Power== The board can accept both, passive PoE and external power via a 2.1 mm barrel jack (center-positive). The input voltage range is 11-32 V. ==Serial port== The device does have an onboard UART on an unpopulated header next to the flash chip: GND: pin 2 TX: pin 7 RX: pin 6 Settings: 115200, 8N1 See below illustration for positioning of the header. 0 = screw hole * = some pin T = TX pin R = RX pin G = GND pin Pinout: +--------------- |O | __ | / \ | \__/ | | | | +---+ | |RAM| | +--+ | | | |**| <- unpopulated header with UART | |*T| +---+ | |R*| +--------+ | |**| | | | |G*| | CPU | | +--+ | | | +--+ | | | | | +--------+ | +--+ <- flash chip |O | +-----+ | | | |+--+ | | || | | | +--------------------- =Installation= To install an OpenWRT image to the device two components must be built: 1. A openwrt initramfs image 2. A openwrt sysupgrade image ===initramfs & sysupgrade image=== Select target devices "Mikrotik RBM11G" in openwrt menuconfig and build the images. This will create the images "openwrt-ramips-mt7621-mikrotik_rbm11g-initramfs-kernel.bin" and "openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" in the output directory. ==Installing== **Make sure to back up your RouterOS license in case you do ever want to go back to RouterOS using "/system license output" and back up the created license file.** When rebooted the board will try booting via ethernet first. If your board does not boot via ethernet automatically you will have to attach to the serial port and set ethernet as boot device within RouterBOOT. 1. Set up a dhcp server that points the bootfile to tftp server serving the "openwrt-ramips-mt7621-mikrotik_rbm11g-initramfs-kernel.bin" initramfs image 2. Connect to ethernet port on board 3. Power on the board 4. Wait for OpenWrt to boot Right now OpenWrt will be running with a SSH server listening. Now OpenWrt must be flashed to the devices flash: 1. Copy "openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" to the device using scp. 2. Write openwrt to flash using "sysupgrade openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" Once the flashing completes the board will reboot. Disconnect from the devices ethernet port or stop the DHCP/TFTP server to prevent the device from booting via ethernet again. The device should now boot straight to OpenWrt. Signed-off-by: Tobias Schramm <tobleminer@gmail.com>
2018-06-25 20:51:43 +00:00
define Device/mikrotik_rbm11g
$(Device/MikroTik)
ramips: add support for MikroTik RouterBOARD RBM11g This commit adds support for the MikroTik RouterBOARD RBM11g. =Hardware= The RBM11g is a mt7621 based device featuring one GbE port and one miniPCIe slot with a sim card socket and USB 2.0. ==Switch== The single onboard Ethernet port is connected the CPU directly. The internal switch of the mt7621 SoC is disabled. ==Flash== The device has one spi nor flash chip. It is a 128 Mbit winbond 25Q128FVS connected to CS0. ==PCIe== The board features a single miniPCIe slot. It has a dedicated mini SIM socket and a USB 2.0 port. Power to the miniPCIe slot is controlled via GPIO9. ==USB== There are no external USB ports. ==Power== The board can accept both, passive PoE and external power via a 2.1 mm barrel jack (center-positive). The input voltage range is 11-32 V. ==Serial port== The device does have an onboard UART on an unpopulated header next to the flash chip: GND: pin 2 TX: pin 7 RX: pin 6 Settings: 115200, 8N1 See below illustration for positioning of the header. 0 = screw hole * = some pin T = TX pin R = RX pin G = GND pin Pinout: +--------------- |O | __ | / \ | \__/ | | | | +---+ | |RAM| | +--+ | | | |**| <- unpopulated header with UART | |*T| +---+ | |R*| +--------+ | |**| | | | |G*| | CPU | | +--+ | | | +--+ | | | | | +--------+ | +--+ <- flash chip |O | +-----+ | | | |+--+ | | || | | | +--------------------- =Installation= To install an OpenWRT image to the device two components must be built: 1. A openwrt initramfs image 2. A openwrt sysupgrade image ===initramfs & sysupgrade image=== Select target devices "Mikrotik RBM11G" in openwrt menuconfig and build the images. This will create the images "openwrt-ramips-mt7621-mikrotik_rbm11g-initramfs-kernel.bin" and "openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" in the output directory. ==Installing== **Make sure to back up your RouterOS license in case you do ever want to go back to RouterOS using "/system license output" and back up the created license file.** When rebooted the board will try booting via ethernet first. If your board does not boot via ethernet automatically you will have to attach to the serial port and set ethernet as boot device within RouterBOOT. 1. Set up a dhcp server that points the bootfile to tftp server serving the "openwrt-ramips-mt7621-mikrotik_rbm11g-initramfs-kernel.bin" initramfs image 2. Connect to ethernet port on board 3. Power on the board 4. Wait for OpenWrt to boot Right now OpenWrt will be running with a SSH server listening. Now OpenWrt must be flashed to the devices flash: 1. Copy "openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" to the device using scp. 2. Write openwrt to flash using "sysupgrade openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" Once the flashing completes the board will reboot. Disconnect from the devices ethernet port or stop the DHCP/TFTP server to prevent the device from booting via ethernet again. The device should now boot straight to OpenWrt. Signed-off-by: Tobias Schramm <tobleminer@gmail.com>
2018-06-25 20:51:43 +00:00
DTS := RBM11G
DEVICE_TITLE := MikroTik RouterBOARD M11G
ramips: add support for MikroTik RouterBOARD RBM11g This commit adds support for the MikroTik RouterBOARD RBM11g. =Hardware= The RBM11g is a mt7621 based device featuring one GbE port and one miniPCIe slot with a sim card socket and USB 2.0. ==Switch== The single onboard Ethernet port is connected the CPU directly. The internal switch of the mt7621 SoC is disabled. ==Flash== The device has one spi nor flash chip. It is a 128 Mbit winbond 25Q128FVS connected to CS0. ==PCIe== The board features a single miniPCIe slot. It has a dedicated mini SIM socket and a USB 2.0 port. Power to the miniPCIe slot is controlled via GPIO9. ==USB== There are no external USB ports. ==Power== The board can accept both, passive PoE and external power via a 2.1 mm barrel jack (center-positive). The input voltage range is 11-32 V. ==Serial port== The device does have an onboard UART on an unpopulated header next to the flash chip: GND: pin 2 TX: pin 7 RX: pin 6 Settings: 115200, 8N1 See below illustration for positioning of the header. 0 = screw hole * = some pin T = TX pin R = RX pin G = GND pin Pinout: +--------------- |O | __ | / \ | \__/ | | | | +---+ | |RAM| | +--+ | | | |**| <- unpopulated header with UART | |*T| +---+ | |R*| +--------+ | |**| | | | |G*| | CPU | | +--+ | | | +--+ | | | | | +--------+ | +--+ <- flash chip |O | +-----+ | | | |+--+ | | || | | | +--------------------- =Installation= To install an OpenWRT image to the device two components must be built: 1. A openwrt initramfs image 2. A openwrt sysupgrade image ===initramfs & sysupgrade image=== Select target devices "Mikrotik RBM11G" in openwrt menuconfig and build the images. This will create the images "openwrt-ramips-mt7621-mikrotik_rbm11g-initramfs-kernel.bin" and "openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" in the output directory. ==Installing== **Make sure to back up your RouterOS license in case you do ever want to go back to RouterOS using "/system license output" and back up the created license file.** When rebooted the board will try booting via ethernet first. If your board does not boot via ethernet automatically you will have to attach to the serial port and set ethernet as boot device within RouterBOOT. 1. Set up a dhcp server that points the bootfile to tftp server serving the "openwrt-ramips-mt7621-mikrotik_rbm11g-initramfs-kernel.bin" initramfs image 2. Connect to ethernet port on board 3. Power on the board 4. Wait for OpenWrt to boot Right now OpenWrt will be running with a SSH server listening. Now OpenWrt must be flashed to the devices flash: 1. Copy "openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" to the device using scp. 2. Write openwrt to flash using "sysupgrade openwrt-ramips-mt7621-mikrotik_rbm11g-squashfs-sysupgrade.bin" Once the flashing completes the board will reboot. Disconnect from the devices ethernet port or stop the DHCP/TFTP server to prevent the device from booting via ethernet again. The device should now boot straight to OpenWrt. Signed-off-by: Tobias Schramm <tobleminer@gmail.com>
2018-06-25 20:51:43 +00:00
endef
TARGET_DEVICES += mikrotik_rbm11g
define Device/re350-v1
DTS := RE350
DEVICE_TITLE := TP-LINK RE350 v1
DEVICE_PACKAGES := kmod-mt7603 kmod-mt76x2 wpad-mini
TPLINK_BOARD_ID := RE350-V1
TPLINK_HWID := 0x0
TPLINK_HWREV := 0
TPLINK_HEADER_VERSION := 1
IMAGE_SIZE := 6016k
KERNEL := $(KERNEL_DTB) | tplink-v1-header -e -O
IMAGES := sysupgrade.bin factory.bin
IMAGE/sysupgrade.bin := append-rootfs | tplink-safeloader sysupgrade | append-metadata | check-size $$$$(IMAGE_SIZE)
IMAGE/factory.bin := append-rootfs | tplink-safeloader factory
endef
TARGET_DEVICES += re350-v1
define Device/re6500
DTS := RE6500
DEVICE_TITLE := Linksys RE6500
DEVICE_PACKAGES := kmod-mt76x2 wpad-mini
endef
TARGET_DEVICES += re6500
define Device/sap-g3200u3
DTS := SAP-G3200U3
DEVICE_TITLE := STORYLiNK SAP-G3200U3
DEVICE_PACKAGES := kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += sap-g3200u3
define Device/sk-wb8
DTS := SK-WB8
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := SamKnows Whitebox 8
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport \
uboot-envtools wpad-mini
endef
TARGET_DEVICES += sk-wb8
define Device/timecloud
DTS := Timecloud
DEVICE_TITLE := Thunder Timecloud
DEVICE_PACKAGES := kmod-usb3
endef
TARGET_DEVICES += timecloud
ramips: add support for UniElec U7621-06 UniElec U7621-06 is a router platform board based on MediaTek MT7621AT. The device has the following specifications: - MT7621AT (880 MHz) - 256/512 MB of RAM (DDR3) - 8/16/32/64 MB of FLASH (SPI NOR) - 5x 1 Gbps Ethernet (MT7621 built-in switch) - 1x ASMedia ASM1061 (for mSATA and SATA) - 2x miniPCIe slots (PCIe bus only) - 1x mSATA slot (with USB 2.0 bus for modem) - 1x SATA - 1x miniSIM slot - 1x microSD slot - 1x USB 3.0 - 12x LEDs (3 GPIO-controlled) - 1x reset button - 1x UART header (4-pins) - 1x GPIO header (30-pins) - 1x FPC connector for LEDs (20-pin, 0.5 mm pitch) - 1x DC jack for main power (12 V) The following has been tested and is working: - Ethernet switch - miniPCIe slots (tested with Wi-Fi cards) - mSATA slot (tested with modem and mSATA drive) - miniSIM slot - sysupgrade - reset button - microSD slot Installation: This board might come with a different firmware versions (MediaTek SDK, PandoraBox, Padavan, etc.). If your board comes with PandoraBox, you can install LEDE using sysupgrade. Just SSH to the router and perform forced sysupgrade (due to a board name mismatch). The default IP of this board should be: 192.168.1.1 and username/password: root/admin. In case of a different firmware, you can use web based recovery described below. Use the following command to perform the sysupgrade (for the 256MB RAM/16MB flash version): sysupgrade -n -F lede-ramips-mt7621-u7621-06-256M-16M-squashfs-sysupgrade.bin Recovery: This board contains a Chinese, closed-source bootloader called Breed (Boot and Recovery Environment for Embedded Devices). Breed supports web recovery and to enter it, you keep the reset button pressed for around 5 seconds during boot. Your machine will be assigned an IP through DHCP and the router will use IP address 192.168.1.1. The recovery website is in Chinese, but is easy to use. Click on the second item in the list to access the recovery page, then the second item on the next page is where you select the firmware. In order to start the recovery, you click the button at the bottom. LEDs list (top row, left to right): - LED_WWAN# (connected with pin 42 in LTE/mSATA slot) - Power (connected directly to 3V3) - CTS2_N (GPIO10, configured as "status" LED) - TXD2 (GPIO11, configured as "led4", without default trigger) - RXD2 (GPIO12, configured as "led5", without default trigger) - LED_WLAN# (connected with pin 44 in wifi0 slot) LEDs list (bottom row, left to right): - ESW_P0_LED_0 - ESW_P1_LED_0 - ESW_P2_LED_0 - ESW_P3_LED_0 - ESW_P4_LED_0 - LED_WLAN# (connected with pin 44 in wifi1 slot) Other notes: 1. The board is available with different amounts of RAM and flash. We have only added support for the 256/16 MB configuration, as that seems to be the default. However, all the required infrastructure is in place for making support for the other configurations easy. 2. The manufacturer offers five different wireless cards with MediaTek chipsets, based on MT76x2, MT7603 and MT7615. Images of the board all show that the miniPCIe slots are dedicated to specific Wi-Fi cards. However, the slots are generic. 3. All boards we got access to had the same EEPROM content. The default firmware reads the Ethernet MAC from offset 0xe000 in factory partition. This offset only contains 0xffs, so a random MAC will be generated on every boot of the router. There is a valid MAC stored at offset 0xe006 and this MAC is shown as the WAN MAC in the bootloader. However, it is the same on all boards we have checked. Based on information provided by the vendor, all boards sold in small quantities are considered more as samples for development purposes. Signed-off-by: Piotr Dymacz <pepe2k@gmail.com> Signed-off-by: Kristian Evensen <kristian.evensen@gmail.com>
2017-11-02 15:04:49 +00:00
define Device/u7621-06-256M-16M
DTS := U7621-06-256M-16M
IMAGE_SIZE := 16064k
DEVICE_TITLE := UniElec U7621-06 (256M RAM/16M flash)
DEVICE_PACKAGES := kmod-ata-core kmod-ata-ahci kmod-sdhci-mt7620 kmod-usb3
endef
TARGET_DEVICES += u7621-06-256M-16M
define Device/ubnt-erx
DTS := UBNT-ERX
FILESYSTEMS := squashfs
KERNEL_SIZE := 3145728
KERNEL := $(KERNEL_DTB) | uImage lzma
IMAGES := sysupgrade.tar
KERNEL_INITRAMFS := $$(KERNEL) | ubnt-erx-factory-image $(KDIR)/tmp/$$(KERNEL_INITRAMFS_PREFIX)-factory.tar
IMAGE/sysupgrade.tar := sysupgrade-tar | append-metadata
DEVICE_TITLE := Ubiquiti EdgeRouter X
endef
TARGET_DEVICES += ubnt-erx
define Device/ubnt-erx-sfp
$(Device/ubnt-erx)
DTS := UBNT-ERX-SFP
DEVICE_TITLE := Ubiquiti EdgeRouter X-SFP
DEVICE_PACKAGES += kmod-i2c-algo-pca kmod-gpio-pca953x kmod-i2c-gpio-custom
endef
TARGET_DEVICES += ubnt-erx-sfp
define Device/vr500
DTS := VR500
IMAGE_SIZE := 66453504
DEVICE_TITLE := Planex VR500
DEVICE_PACKAGES := kmod-usb3
endef
TARGET_DEVICES += vr500
define Device/w2914nsv2
DTS := W2914NSV2
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := WeVO W2914NS v2
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += w2914nsv2
define Device/wf-2881
DTS := WF-2881
BLOCKSIZE := 128k
PAGESIZE := 2048
FILESYSTEMS := squashfs
IMAGE_SIZE := 129280k
KERNEL := $(KERNEL_DTB) | pad-offset $$(BLOCKSIZE) 64 | uImage lzma
UBINIZE_OPTS := -E 5
IMAGE/sysupgrade.bin := append-kernel | append-ubi | append-metadata | check-size $$$$(IMAGE_SIZE)
DEVICE_TITLE := NETIS WF-2881
DEVICE_PACKAGES := kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += wf-2881
define Device/mqmaker_witi-256m
DTS := WITI-256M
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := MQmaker WiTi (256MB RAM)
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-mt76x2 kmod-sdhci-mt7620 kmod-usb3 \
kmod-usb-ledtrig-usbport wpad-mini
SUPPORTED_DEVICES += witi
endef
TARGET_DEVICES += mqmaker_witi-256m
define Device/mqmaker_witi-512m
DTS := WITI-512M
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := MQmaker WiTi (512MB RAM)
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-mt76x2 kmod-sdhci-mt7620 kmod-usb3 \
kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += mqmaker_witi-512m
define Device/wndr3700v5
DTS := WNDR3700V5
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := Netgear WNDR3700v5
DEVICE_PACKAGES := kmod-mt7603 kmod-mt76x2 kmod-usb3 wpad-mini
endef
TARGET_DEVICES += wndr3700v5
define Device/youhua_wr1200js
DTS := WR1200JS
IMAGE_SIZE := 16064k
DEVICE_TITLE := YouHua WR1200JS
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += youhua_wr1200js
define Device/wsr-1166
DTS := WSR-1166
IMAGE/sysupgrade.bin := trx | pad-rootfs | append-metadata
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := Buffalo WSR-1166
DEVICE_PACKAGES := kmod-mt7603 kmod-mt76x2 wpad-mini
endef
TARGET_DEVICES += wsr-1166
define Device/wsr-600
DTS := WSR-600
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := Buffalo WSR-600
DEVICE_PACKAGES := kmod-mt7603 kmod-rt2800-pci wpad-mini
endef
TARGET_DEVICES += wsr-600
define Device/zbt-we1326
DTS := ZBT-WE1326
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := ZBT WE1326
DEVICE_PACKAGES := \
kmod-mt7603 kmod-mt76x2 kmod-usb3 kmod-sdhci-mt7620 wpad-mini
endef
TARGET_DEVICES += zbt-we1326
define Device/zbtlink_zbt-we3526
DTS := ZBT-WE3526
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := ZBT WE3526
DEVICE_PACKAGES := \
kmod-sdhci-mt7620 kmod-mt7603 kmod-mt76x2 \
kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += zbtlink_zbt-we3526
define Device/zbt-wg2626
DTS := ZBT-WG2626
IMAGE_SIZE := $(ralink_default_fw_size_16M)
DEVICE_TITLE := ZBT WG2626
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-sdhci-mt7620 kmod-mt76x2 kmod-usb3 \
kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += zbt-wg2626
define Device/zbt-wg3526-16M
DTS := ZBT-WG3526-16M
IMAGE_SIZE := $(ralink_default_fw_size_16M)
SUPPORTED_DEVICES += zbt-wg3526
DEVICE_TITLE := ZBT WG3526 (16MB flash)
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-sdhci-mt7620 kmod-mt7603 kmod-mt76x2 \
kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += zbt-wg3526-16M
define Device/zbt-wg3526-32M
DTS := ZBT-WG3526-32M
IMAGE_SIZE := $(ralink_default_fw_size_32M)
SUPPORTED_DEVICES += ac1200pro
DEVICE_TITLE := ZBT WG3526 (32MB flash)
DEVICE_PACKAGES := \
kmod-ata-core kmod-ata-ahci kmod-sdhci-mt7620 kmod-mt7603 kmod-mt76x2 \
kmod-usb3 kmod-usb-ledtrig-usbport wpad-mini
endef
TARGET_DEVICES += zbt-wg3526-32M
# FIXME: is this still needed?
define Image/Prepare
#define Build/Compile
rm -rf $(KDIR)/relocate
$(CP) ../../generic/image/relocate $(KDIR)
$(MAKE) -C $(KDIR)/relocate KERNEL_ADDR=$(KERNEL_LOADADDR) CROSS_COMPILE=$(TARGET_CROSS)
$(CP) $(KDIR)/relocate/loader.bin $(KDIR)/loader.bin
endef