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5b7b0c68c7
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> |
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config | ||
include | ||
package | ||
scripts | ||
target | ||
toolchain | ||
tools | ||
.gitattributes | ||
.gitignore | ||
BSDmakefile | ||
Config.in | ||
feeds.conf.default | ||
LICENSE | ||
Makefile | ||
README | ||
rules.mk |
This is the buildsystem for the OpenWrt Linux distribution. Please use "make menuconfig" to choose your preferred configuration for the toolchain and firmware. You need to have installed gcc, binutils, bzip2, flex, python, perl, make, find, grep, diff, unzip, gawk, getopt, subversion, libz-dev and libc headers. Run "./scripts/feeds update -a" to get all the latest package definitions defined in feeds.conf / feeds.conf.default respectively and "./scripts/feeds install -a" to install symlinks of all of them into package/feeds/. Use "make menuconfig" to configure your image. Simply running "make" will build your firmware. It will download all sources, build the cross-compile toolchain, the kernel and all choosen applications. To build your own firmware you need to have access to a Linux, BSD or MacOSX system (case-sensitive filesystem required). Cygwin will not be supported because of the lack of case sensitiveness in the file system. Sunshine! Your OpenWrt Community http://www.openwrt.org