openwrt/target/linux/realtek/image/Makefile

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# SPDX-License-Identifier: GPL-2.0-only
rtl838x: add new architecture This adds support for the RTL838x Architecture. SoCs of this type are used in managed and un-managed Switches and Routers with 8-28 ports. Drivers are provided for SoC initialization, GPIOs, Flash, Ethernet including a DSA switch driver and internal and external PHYs used with these switches. Supported SoCs: RTL8380M RTL8381M RTL8382M The kernel will also boot on the following RTL839x SoCs, however driver support apart from spi-nor is missing: RTL8390 RTL8391 RTL8393 The following PHYs are supported: RTL8214FC (Quad QSGMII multiplexing GMAC and SFP port) RTL8218B internal: internal PHY of the RTL838x chips RTL8318b external (QSGMII 8-port GMAC phy) RTL8382M SerDes for 2 SFP ports Initialization sequences for the PHYs are provided in the form of firmware files. Flash driver supports 3 / 4 byte access DSA switch driver supports VLANs, port isolation, STP and port mirroring. The ALLNET ALL-SG8208M is supported as Proof of Concept: RTL8382M SoC 1 MIPS 4KEc core @ 500MHz 8 Internal PHYs (RTL8218B) 128MB DRAM (Nanya NT5TU128MB) 16MB NOR Flash (MXIC 25L128) 8 GBEthernet ports with one green status LED each (SoC controlled) 1 Power LED (not configurable) 1 SYS LED (configurable) 1 On-Off switch (not configurable) 1 Reset button at the right behind right air-vent (not configurable) 1 Reset button on front panel (configurable) 12V 1A barrel connector 1 serial header with populated standard pin connector and with markings GND TX RX Vcc(3.3V), connection properties: 115200 8N1 To install, upload the sysupgrade image to the OEM webpage. Signed-off-by: Birger Koblitz <git@birger-koblitz.de>
2020-09-13 07:06:13 +00:00
include $(TOPDIR)/rules.mk
include $(INCLUDE_DIR)/image.mk
KERNEL_LOADADDR = 0x80000000
KERNEL_ENTRY = 0x80000400
realtek: add DGS-1210-28 factory image DGS-1210 switches support dual image, with each image composed of a kernel and a rootfs partition. For image1, kernel and rootfs are in sequence. The current OpenWrt image (written using a serial console), uses those partitions together as the firmware partition, ignoring the partition division. The current OEM u-boot fails to validate image1 but it will only trigger firmware recovery if both image1 and image2 fail, and it does not switch the boot image in case one of them fails the check. The OEM factory image is composed of concatenated blocks of data, each one prefixed with a 0x40-byte cameo header. A normal OEM firmware will have two of these blocks (kernel, rootfs). The OEM firmware only checks the header before writing unconditionally the data (except the header) to the correspoding partition. The OpenWrt factory image mimics the OEM image by cutting the kernel+rootfs firmware at the exact size of the OEM kernel partition and packing it as "the kernel partition" and the rest of the kernel and the rootfs as "the rootfs partition". It will only work if written to image1 because image2 has a sysinfo partition between kernel2 and rootfs2, cutting the kernel code in the middle. Steps to install: 1) switch to image2 (containing an OEM image), using web or these CLI commands: - config firmware image_id 2 boot_up - reboot 2) flash the factory_image1.bin to image1. OEM web (v6.30.016) is crashing for any upload (ssh keys, firmware), even applying OEM firmwares. These CLI commands can upload a new firmware to the other image location (not used to boot): - download firmware_fromTFTP <tftpserver> factory_image1.bin - config firmware image_id 1 boot_up - reboot To debrick the device, you'll need serial access. If you want to recover to an OpenWrt, you can replay the serial installation instructions. For returning to the original firmware, press ESC during the boot to trigger the emergency firmware recovery procedure. After that, use D-Link Network Assistant v2.0.2.4 to flash a new firmware. The device documentation does describe that holding RESET for 12s trigger the firmware recovery. However, the latest shipped U-Boot "2011.12.(2.1.5.67086)-Candidate1" from "Aug 24 2021 - 17:33:09" cannot trigger that from a cold boot. In fact, any U-Boot procedure that relies on the RESET button, like reset settings, will only work if started from a running original firmware. That, in practice, cancels the benefit of having two images and a firmware recovery procedure (if you are not consider dual-booting OpenWrt). Signed-off-by: Luiz Angelo Daros de Luca <luizluca@gmail.com>
2022-06-23 20:50:03 +00:00
DEVICE_VARS += ZYXEL_VERS DLINK_KERNEL_PART_SIZE
DEVICE_VARS += CAMEO_KERNEL_PART CAMEO_ROOTFS_PART CAMEO_CUSTOMER_SIGNATURE CAMEO_BOARD_VERSION
DEVICE_VARS += H3C_PRODUCT_ID H3C_DEVICE_ID
realtek: build ZyXEL vendor firmware compatible initramfs Append a device specific version trailer used by the stock firmware upgrade application to validate firmwares. The trailer contains a list of ZyXEL firmware version numbers, which includes a four letter hardware identifier. The stock web UI requires that the current hardware matches one of the listed versions, and that the version number is larger than a model specific minimum value. The minimum version varies between V1.00 and V2.60 for the currently known GS1900 models. The number is not used anywhere else to our knowlege, and has no direct relation to the version info in the u-image header. We can therefore use an arbitrary value larger than V2.60. The stock firmware upgrade application will only load and flash the part of the file specified in the u-image header, regardless of file size. It can therefore not be used to flash images with an appended rootfs. There is therefore no need to include the trailer in other images than the initramfs. This prevents accidentally bricking by attempts to flash other images from the stock web UI. Stock images support all models in the series, listing all of them in the version trailer. OpenWrt provide model specific images. We therefore only list the single supported hardware identifier for each image. This eliminates the risk of flashing the wrong OpenWrt image from stock web UI. OpenWrt can be installed from stock firmware in two steps: 1) flash OpenWrt initramfs image from stock web gui 2) boot OpenWrt and sysupgrade to a squasfs image The OpenWrt squashfs image depends on a static partition map in the DTS. It can only be installed to the "firmware" partition. This partition is labeled "RUNTIME1" in u-boot and in stock firmware, and is referred to as "image 0" in the stock flash management tool. The OpenWrt initramfs can be installed and run from either partitions. But if you want to keep stock irmware in the spare system partition, then you must make sure stock firmware is installed to the "RUNTIME2" partition referred to as "image 1" in the stock web UI. And the initial OpenWrt initramfs must be flashed to "RUNTIME1"/"image 0". The stock flash management application supports direct selection of both which partition to flash and which partition to boot next. This allows software controlled "dual-boot" between OpenWrt and stock firmware, without using console access to u-boot. u-boot use the "bootpartition" variable stored in the second u-boot environment to select which of the two system partitions to boot. This variable is set by the stock flash management application, by direct user input. It can also be set in OpenWrt using e.g fw_setsys bootpartition 1 to select "RUNTIME2"/"image 1" as default, assuming a stock firmware version is installed in that partition. Signed-off-by: Bjørn Mork <bjorn@mork.no>
2021-01-23 10:08:12 +00:00
define Build/zyxel-vers
( echo VERS;\
for hw in $(ZYXEL_VERS); do\
realtek: build ZyXEL vendor firmware compatible initramfs Append a device specific version trailer used by the stock firmware upgrade application to validate firmwares. The trailer contains a list of ZyXEL firmware version numbers, which includes a four letter hardware identifier. The stock web UI requires that the current hardware matches one of the listed versions, and that the version number is larger than a model specific minimum value. The minimum version varies between V1.00 and V2.60 for the currently known GS1900 models. The number is not used anywhere else to our knowlege, and has no direct relation to the version info in the u-image header. We can therefore use an arbitrary value larger than V2.60. The stock firmware upgrade application will only load and flash the part of the file specified in the u-image header, regardless of file size. It can therefore not be used to flash images with an appended rootfs. There is therefore no need to include the trailer in other images than the initramfs. This prevents accidentally bricking by attempts to flash other images from the stock web UI. Stock images support all models in the series, listing all of them in the version trailer. OpenWrt provide model specific images. We therefore only list the single supported hardware identifier for each image. This eliminates the risk of flashing the wrong OpenWrt image from stock web UI. OpenWrt can be installed from stock firmware in two steps: 1) flash OpenWrt initramfs image from stock web gui 2) boot OpenWrt and sysupgrade to a squasfs image The OpenWrt squashfs image depends on a static partition map in the DTS. It can only be installed to the "firmware" partition. This partition is labeled "RUNTIME1" in u-boot and in stock firmware, and is referred to as "image 0" in the stock flash management tool. The OpenWrt initramfs can be installed and run from either partitions. But if you want to keep stock irmware in the spare system partition, then you must make sure stock firmware is installed to the "RUNTIME2" partition referred to as "image 1" in the stock web UI. And the initial OpenWrt initramfs must be flashed to "RUNTIME1"/"image 0". The stock flash management application supports direct selection of both which partition to flash and which partition to boot next. This allows software controlled "dual-boot" between OpenWrt and stock firmware, without using console access to u-boot. u-boot use the "bootpartition" variable stored in the second u-boot environment to select which of the two system partitions to boot. This variable is set by the stock flash management application, by direct user input. It can also be set in OpenWrt using e.g fw_setsys bootpartition 1 to select "RUNTIME2"/"image 1" as default, assuming a stock firmware version is installed in that partition. Signed-off-by: Bjørn Mork <bjorn@mork.no>
2021-01-23 10:08:12 +00:00
echo -n "V9.99($$hw.0) | ";\
date -d @$(SOURCE_DATE_EPOCH) +%m/%d/%Y;\
done ) >> $@
endef
define Build/dlink-cameo
$(SCRIPT_DIR)/cameo-tag.py $@ $(DLINK_KERNEL_PART_SIZE)
endef
define Build/dlink-version
echo -n "OpenWrt" >> $@
dd if=/dev/zero bs=25 count=1 >> $@
endef
realtek: add DGS-1210-28 factory image DGS-1210 switches support dual image, with each image composed of a kernel and a rootfs partition. For image1, kernel and rootfs are in sequence. The current OpenWrt image (written using a serial console), uses those partitions together as the firmware partition, ignoring the partition division. The current OEM u-boot fails to validate image1 but it will only trigger firmware recovery if both image1 and image2 fail, and it does not switch the boot image in case one of them fails the check. The OEM factory image is composed of concatenated blocks of data, each one prefixed with a 0x40-byte cameo header. A normal OEM firmware will have two of these blocks (kernel, rootfs). The OEM firmware only checks the header before writing unconditionally the data (except the header) to the correspoding partition. The OpenWrt factory image mimics the OEM image by cutting the kernel+rootfs firmware at the exact size of the OEM kernel partition and packing it as "the kernel partition" and the rest of the kernel and the rootfs as "the rootfs partition". It will only work if written to image1 because image2 has a sysinfo partition between kernel2 and rootfs2, cutting the kernel code in the middle. Steps to install: 1) switch to image2 (containing an OEM image), using web or these CLI commands: - config firmware image_id 2 boot_up - reboot 2) flash the factory_image1.bin to image1. OEM web (v6.30.016) is crashing for any upload (ssh keys, firmware), even applying OEM firmwares. These CLI commands can upload a new firmware to the other image location (not used to boot): - download firmware_fromTFTP <tftpserver> factory_image1.bin - config firmware image_id 1 boot_up - reboot To debrick the device, you'll need serial access. If you want to recover to an OpenWrt, you can replay the serial installation instructions. For returning to the original firmware, press ESC during the boot to trigger the emergency firmware recovery procedure. After that, use D-Link Network Assistant v2.0.2.4 to flash a new firmware. The device documentation does describe that holding RESET for 12s trigger the firmware recovery. However, the latest shipped U-Boot "2011.12.(2.1.5.67086)-Candidate1" from "Aug 24 2021 - 17:33:09" cannot trigger that from a cold boot. In fact, any U-Boot procedure that relies on the RESET button, like reset settings, will only work if started from a running original firmware. That, in practice, cancels the benefit of having two images and a firmware recovery procedure (if you are not consider dual-booting OpenWrt). Signed-off-by: Luiz Angelo Daros de Luca <luizluca@gmail.com>
2022-06-23 20:50:03 +00:00
define Build/dlink-headers
dd if=$@ bs=$(DLINK_KERNEL_PART_SIZE) count=1 of=$@.kernel_part; \
dd if=$@ bs=$(DLINK_KERNEL_PART_SIZE) skip=1 of=$@.rootfs_part; \
$(SCRIPT_DIR)/cameo-imghdr.py $@.kernel_part $@.kernel_part.hex \
"$(DEVICE_MODEL)" os $(CAMEO_KERNEL_PART) \
$(CAMEO_CUSTOMER_SIGNATURE) \
$(CAMEO_BOARD_VERSION) \
$(KERNEL_LOADADDR); \
$(SCRIPT_DIR)/cameo-imghdr.py $@.rootfs_part $@.rootfs_part.hex \
"$(DEVICE_MODEL)" squashfs $(CAMEO_ROOTFS_PART) \
$(CAMEO_CUSTOMER_SIGNATURE) \
$(CAMEO_BOARD_VERSION); \
cat $@.kernel_part.hex $@.rootfs_part.hex > $@
endef
define Build/7z
$(STAGING_DIR_HOST)/bin/7zr a $(@).new -t7z -m0=lzma $(@)
mv $@.new $@
endef
define Build/h3c-image
$(STAGING_DIR_HOST)/bin/mkh3cimg \
-i $(@) \
-o $(@).new \
-c 7z \
-p $(H3C_PRODUCT_ID) \
-d $(H3C_DEVICE_ID)
mv $@.new $@
endef
define Build/h3c-vfs
$(STAGING_DIR_HOST)/bin/mkh3cvfs \
-i $(@) \
-o $(@).new \
-f openwrt-kernel.bin
mv $@.new $@
endef
define Build/relocate-kernel
rm -rf $@.relocate
$(CP) ../../generic/image/relocate $@.relocate
$(MAKE) -j1 -C $@.relocate KERNEL_ADDR=$(KERNEL_LOADADDR) LZMA_TEXT_START=0x82000000 \
CROSS_COMPILE=$(TARGET_CROSS)
( \
dd if=$@.relocate/loader.bin bs=32 conv=sync && \
perl -e '@s = stat("$@"); print pack("N", @s[7])' && \
cat "$@" \
) > "$@.new"
mv "$@.new" "$@"
rm -rf $@.relocate
endef
rtl838x: add new architecture This adds support for the RTL838x Architecture. SoCs of this type are used in managed and un-managed Switches and Routers with 8-28 ports. Drivers are provided for SoC initialization, GPIOs, Flash, Ethernet including a DSA switch driver and internal and external PHYs used with these switches. Supported SoCs: RTL8380M RTL8381M RTL8382M The kernel will also boot on the following RTL839x SoCs, however driver support apart from spi-nor is missing: RTL8390 RTL8391 RTL8393 The following PHYs are supported: RTL8214FC (Quad QSGMII multiplexing GMAC and SFP port) RTL8218B internal: internal PHY of the RTL838x chips RTL8318b external (QSGMII 8-port GMAC phy) RTL8382M SerDes for 2 SFP ports Initialization sequences for the PHYs are provided in the form of firmware files. Flash driver supports 3 / 4 byte access DSA switch driver supports VLANs, port isolation, STP and port mirroring. The ALLNET ALL-SG8208M is supported as Proof of Concept: RTL8382M SoC 1 MIPS 4KEc core @ 500MHz 8 Internal PHYs (RTL8218B) 128MB DRAM (Nanya NT5TU128MB) 16MB NOR Flash (MXIC 25L128) 8 GBEthernet ports with one green status LED each (SoC controlled) 1 Power LED (not configurable) 1 SYS LED (configurable) 1 On-Off switch (not configurable) 1 Reset button at the right behind right air-vent (not configurable) 1 Reset button on front panel (configurable) 12V 1A barrel connector 1 serial header with populated standard pin connector and with markings GND TX RX Vcc(3.3V), connection properties: 115200 8N1 To install, upload the sysupgrade image to the OEM webpage. Signed-off-by: Birger Koblitz <git@birger-koblitz.de>
2020-09-13 07:06:13 +00:00
define Device/Default
PROFILES = Default
KERNEL := kernel-bin | append-dtb | gzip | uImage gzip
KERNEL_INITRAMFS := kernel-bin | append-dtb | gzip | uImage gzip
DEVICE_DTS_DIR := ../dts-$(KERNEL_PATCHVER)
rtl838x: add new architecture This adds support for the RTL838x Architecture. SoCs of this type are used in managed and un-managed Switches and Routers with 8-28 ports. Drivers are provided for SoC initialization, GPIOs, Flash, Ethernet including a DSA switch driver and internal and external PHYs used with these switches. Supported SoCs: RTL8380M RTL8381M RTL8382M The kernel will also boot on the following RTL839x SoCs, however driver support apart from spi-nor is missing: RTL8390 RTL8391 RTL8393 The following PHYs are supported: RTL8214FC (Quad QSGMII multiplexing GMAC and SFP port) RTL8218B internal: internal PHY of the RTL838x chips RTL8318b external (QSGMII 8-port GMAC phy) RTL8382M SerDes for 2 SFP ports Initialization sequences for the PHYs are provided in the form of firmware files. Flash driver supports 3 / 4 byte access DSA switch driver supports VLANs, port isolation, STP and port mirroring. The ALLNET ALL-SG8208M is supported as Proof of Concept: RTL8382M SoC 1 MIPS 4KEc core @ 500MHz 8 Internal PHYs (RTL8218B) 128MB DRAM (Nanya NT5TU128MB) 16MB NOR Flash (MXIC 25L128) 8 GBEthernet ports with one green status LED each (SoC controlled) 1 Power LED (not configurable) 1 SYS LED (configurable) 1 On-Off switch (not configurable) 1 Reset button at the right behind right air-vent (not configurable) 1 Reset button on front panel (configurable) 12V 1A barrel connector 1 serial header with populated standard pin connector and with markings GND TX RX Vcc(3.3V), connection properties: 115200 8N1 To install, upload the sysupgrade image to the OEM webpage. Signed-off-by: Birger Koblitz <git@birger-koblitz.de>
2020-09-13 07:06:13 +00:00
DEVICE_DTS = $$(SOC)_$(1)
IMAGES := sysupgrade.bin
IMAGE/sysupgrade.bin := append-kernel | pad-to 64k | append-rootfs | pad-rootfs | \
check-size | append-metadata
rtl838x: add new architecture This adds support for the RTL838x Architecture. SoCs of this type are used in managed and un-managed Switches and Routers with 8-28 ports. Drivers are provided for SoC initialization, GPIOs, Flash, Ethernet including a DSA switch driver and internal and external PHYs used with these switches. Supported SoCs: RTL8380M RTL8381M RTL8382M The kernel will also boot on the following RTL839x SoCs, however driver support apart from spi-nor is missing: RTL8390 RTL8391 RTL8393 The following PHYs are supported: RTL8214FC (Quad QSGMII multiplexing GMAC and SFP port) RTL8218B internal: internal PHY of the RTL838x chips RTL8318b external (QSGMII 8-port GMAC phy) RTL8382M SerDes for 2 SFP ports Initialization sequences for the PHYs are provided in the form of firmware files. Flash driver supports 3 / 4 byte access DSA switch driver supports VLANs, port isolation, STP and port mirroring. The ALLNET ALL-SG8208M is supported as Proof of Concept: RTL8382M SoC 1 MIPS 4KEc core @ 500MHz 8 Internal PHYs (RTL8218B) 128MB DRAM (Nanya NT5TU128MB) 16MB NOR Flash (MXIC 25L128) 8 GBEthernet ports with one green status LED each (SoC controlled) 1 Power LED (not configurable) 1 SYS LED (configurable) 1 On-Off switch (not configurable) 1 Reset button at the right behind right air-vent (not configurable) 1 Reset button on front panel (configurable) 12V 1A barrel connector 1 serial header with populated standard pin connector and with markings GND TX RX Vcc(3.3V), connection properties: 115200 8N1 To install, upload the sysupgrade image to the OEM webpage. Signed-off-by: Birger Koblitz <git@birger-koblitz.de>
2020-09-13 07:06:13 +00:00
endef
define Device/hpe_1920
DEVICE_VENDOR := HPE
IMAGE_SIZE := 29632k
BLOCKSIZE := 64k
H3C_PRODUCT_ID := 0x3c010501
KERNEL := kernel-bin | append-dtb | relocate-kernel | 7z | h3c-image | h3c-vfs
KERNEL_INITRAMFS := kernel-bin | append-dtb | relocate-kernel | 7z | h3c-image
IMAGE/sysupgrade.bin := append-kernel | pad-to $$$$(BLOCKSIZE) | append-rootfs | \
pad-rootfs | check-size | append-metadata
endef
# "NGE" refers to the uImage magic
define Device/netgear_nge
KERNEL := kernel-bin | append-dtb | lzma | uImage lzma
KERNEL_INITRAMFS := kernel-bin | append-dtb | lzma | uImage lzma
SOC := rtl8380
IMAGE_SIZE := 14848k
UIMAGE_MAGIC := 0x4e474520
DEVICE_VENDOR := NETGEAR
endef
include $(SUBTARGET).mk
realtek: add ZyXEL GS1900-24HPv2 support The ZyXEL GS1900-24HPv2 is a 24 port PoE switch with two SFP ports, similar to the other GS1900 switches. Specifications -------------- * Device: ZyXEL GS1900-24HPv2 * SoC: Realtek RTL8382M 500 MHz MIPS 4KEc * Flash: 16 MiB * RAM: W631GG8MB-12 128 MiB DDR3 SDRAM (stock firmware is configured to use only 64 MiB) * Ethernet: 24x 10/100/1000 Mbps, 2x SFP 100/1000 Mbps * LEDs: 1 PWR LED (green, not configurable) 1 SYS LED (green, configurable) 24 ethernet port link/activity LEDs (green, SoC controlled) 24 ethernet port PoE status LEDs 2 SFP status/activity LEDs (green, SoC controlled) * Buttons: 1 "RESTORE" button on front panel 1 "RESET" button on front panel * Power 120-240V AC C13 * UART: 1 serial header (J41) with populated standard pin connector on the left edge of the PCB, angled towards the side. The casing has a rectangular cutout on the side that provides external access to these pins. Pinout (front to back): + GND + TX + RX + VCC Serial connection parameters for both devices: 115200 8N1. Installation ------------ OEM upgrade method: (Possible on master once https://patchwork.ozlabs.org/project/openwrt/patch/20210624210408.19248-1-bjorn@mork.no/ is merged) * Log in to OEM management web interface * Navigate to Maintenance > Firmware > Management * If "Active Image" has the first option selected, OpenWrt will need to be flashed to the "Active" partition. If the second option is selected, OpenWrt will need to be flashed to the "Backup" partition. * Navigate to Maintenance > Firmware > Upload * Upload the openwrt-realtek-generic-zyxel_gs1900-24hp-v2-initramfs-kernel.bin file by your preferred method to the previously determined partition. When prompted, select to boot from the newly flashed image, and reboot the switch. * Once OpenWrt has booted, scp the sysupgrade image to /tmp and flash it: > sysupgrade -n /tmp/openwrt-realtek-generic-zyxel_gs1900-24hp-v2-squashfs-sysupgrade.bin it may be necessary to restart the network (/etc/init.d/network restart) on the running initramfs image. U-Boot TFTP method: * Configure your client with a static 192.168.1.x IP (e.g. 192.168.1.10). * Set up a TFTP server on your client and make it serve the initramfs image. * Connect serial, power up the switch, interrupt U-boot by hitting the space bar, and enable the network: > rtk network on * Since the GS1900-24HPv2 is a dual-partition device, you want to keep the OEM firmware on the backup partition for the time being. OpenWrt can only boot from the first partition anyway (hardcoded in the DTS). To make sure we are manipulating the first partition, issue the following commands: > setsys bootpartition 0 > savesys * Download the image onto the device and boot from it: > tftpboot 0x84f00000 192.168.1.10:openwrt-realtek-generic-zyxel_gs1900-24hp-v2-initramfs-kernel.bin > bootm * Once OpenWrt has booted, scp the sysupgrade image to /tmp and flash it: > sysupgrade -n /tmp/openwrt-realtek-generic-zyxel_gs1900-24hp-v2-squashfs-sysupgrade.bin it may be necessary to restart the network (/etc/init.d/network restart) on the running initramfs image. Signed-off-by: Soma Zambelly <zambelly.soma@gmail.com>
2021-08-24 21:46:08 +00:00
rtl838x: add new architecture This adds support for the RTL838x Architecture. SoCs of this type are used in managed and un-managed Switches and Routers with 8-28 ports. Drivers are provided for SoC initialization, GPIOs, Flash, Ethernet including a DSA switch driver and internal and external PHYs used with these switches. Supported SoCs: RTL8380M RTL8381M RTL8382M The kernel will also boot on the following RTL839x SoCs, however driver support apart from spi-nor is missing: RTL8390 RTL8391 RTL8393 The following PHYs are supported: RTL8214FC (Quad QSGMII multiplexing GMAC and SFP port) RTL8218B internal: internal PHY of the RTL838x chips RTL8318b external (QSGMII 8-port GMAC phy) RTL8382M SerDes for 2 SFP ports Initialization sequences for the PHYs are provided in the form of firmware files. Flash driver supports 3 / 4 byte access DSA switch driver supports VLANs, port isolation, STP and port mirroring. The ALLNET ALL-SG8208M is supported as Proof of Concept: RTL8382M SoC 1 MIPS 4KEc core @ 500MHz 8 Internal PHYs (RTL8218B) 128MB DRAM (Nanya NT5TU128MB) 16MB NOR Flash (MXIC 25L128) 8 GBEthernet ports with one green status LED each (SoC controlled) 1 Power LED (not configurable) 1 SYS LED (configurable) 1 On-Off switch (not configurable) 1 Reset button at the right behind right air-vent (not configurable) 1 Reset button on front panel (configurable) 12V 1A barrel connector 1 serial header with populated standard pin connector and with markings GND TX RX Vcc(3.3V), connection properties: 115200 8N1 To install, upload the sysupgrade image to the OEM webpage. Signed-off-by: Birger Koblitz <git@birger-koblitz.de>
2020-09-13 07:06:13 +00:00
$(eval $(call BuildImage))