freebsd-skq/sys/mips/conf/WZR-300HP.hints
sbruno 1c96a23edc Remove redundant kern conf entries that are inherited via include
Move cfg to spi1 as that's where it is located from the factory
2014-09-07 20:27:48 +00:00

188 lines
5.5 KiB
Plaintext

# $FreeBSD$
# arge0 is connected to the LAN side of the switch PHY.
# arge1 is connected to the single port WAN side of the switch PHY.
# arge1 MDIO bus
hint.argemdio.0.at="nexus0"
hint.argemdio.0.maddr=0x1a000000
hint.argemdio.0.msize=0x1000
hint.argemdio.0.order=0
hint.arge.0.phymask=0x0
hint.arge.0.media=1000
hint.arge.0.fduplex=1
hint.arge.0.eeprommac=0x1f05120c
hint.arge.0.mdio=mdioproxy1 # .. off of the switch mdiobus
# arge1: nail to 1000/full, RMII - connected to the switch
hint.arge.1.media=1000 # Map to 1000/full
hint.arge.1.fduplex=1 #
hint.arge.1.phymask=0x0 # no directly mapped PHYs
#
# AR7240 switch config
#
hint.arswitch.0.at="mdio0"
hint.arswitch.0.is_7240=1 # We need to be explicitly told this
hint.arswitch.0.numphys=4 # 4 active switch PHYs (PHY 0 -> 3)
hint.arswitch.0.phy4cpu=1 # Yes, PHY 4 == dedicated PHY
hint.arswitch.0.is_rgmii=0 # No, not RGMII
hint.arswitch.0.is_gmii=0 # No, not GMII
# ath0 - slot 0
hint.pcib.0.bus.0.0.0.ath_fixup_addr=0x1f051000
hint.pcib.0.bus.0.0.0.ath_fixup_size=4096
# .. and now, telling each ath(4) NIC where to find the firmware
# image.
hint.ath.0.eeprom_firmware="pcib.0.bus.0.0.0.eeprom_firmware"
# Inherited from AR724X_BASE.hints
#hint.mx25l.0.at="spibus0"
#hint.mx25l.0.cs=0
# This board has two 16 MB flash devices on difference Chip Select pins
hint.mx25l.1.at="spibus0"
hint.mx25l.1.cs=1
# Geom MAP
# The WRZ-300HP has 2 16MB flash part - HOWEVER, the 64k caldata isn't
# at the end of the flash. It's ~ 328KB into the flash image.
# mtdparts=ar7240-nor0:
# 256k(u-boot)
# 64k(u-boot-env)
# 64k@320k(ART)
# 1152k@384k(uImage)
# 6592k@1536k(rootfs)
# 64k@8128k(properties)
# Uboot lies like a lying liar. OpenWRT does this:
# [ 0.570000] Concatenating MTD devices:
# [ 0.570000] (0): "spi0.0"
# [ 0.570000] (1): "spi0.1"
# [ 0.580000] into device "flash"
# [ 0.580000] Creating 7 MTD partitions on "flash":
# [ 0.590000] 0x000000000000-0x000000040000 : "u-boot"
# [ 0.600000] 0x000000040000-0x000000050000 : "u-boot-env"
# [ 0.600000] 0x000000050000-0x000000060000 : "art"
# [ 0.610000] 0x000000060000-0x000000160000 : "kernel"
# [ 0.620000] 0x000000160000-0x000001ff0000 : "rootfs"
# [ 0.620000] mtd: partition "rootfs" set to be root filesystem
# [ 0.630000] mtd: partition "rootfs_data" created automatically, ofs=330000, len=1CC0000
# [ 0.640000] 0x000000330000-0x000001ff0000 : "rootfs_data"
# [ 0.650000] 0x000001ff0000-0x000002000000 : "user_property"
# [ 0.650000] 0x000000060000-0x000001ff0000 : "firmware"
hint.map.0.at="flash/spi0"
hint.map.0.start=0x00000000
hint.map.0.end= 0x00040000
hint.map.0.name="uboot"
hint.map.0.readonly=1
hint.map.1.at="flash/spi0"
hint.map.1.start=0x00040000
hint.map.1.end= 0x00050000 # 64k u-boot-env
hint.map.1.name="u-boot-env"
hint.map.1.readonly=1
hint.map.2.at="flash/spi0"
hint.map.2.start=0x00050000
hint.map.2.end= 0x00060000 # 64k ART
hint.map.2.name="ART"
hint.map.2.readonly=1
hint.map.3.at="flash/spi0"
hint.map.3.start=0x00060000
hint.map.3.end= "search:0x00100000:0x10000:.!/bin/sh"
hint.map.3.name="kernel"
hint.map.3.readonly=1
hint.map.4.at="flash/spi0"
hint.map.4.start="search:0x00100000:0x10000:.!/bin/sh"
hint.map.4.end= 0x00FF0000
hint.map.4.name="rootfs"
hint.map.4.readonly=1
#hint.map.5.at="flash/spi1"
hint.map.5.at="flash/spi1"
hint.map.5.start=0x00FF0000
hint.map.5.end= 0x01000000
hint.map.5.name="cfg"
hint.map.5.readonly=0
# GPIO specific configuration block
#define GPIO_PIN_INPUT 0x0001 /* input direction */
#define GPIO_PIN_OUTPUT 0x0002 /* output direction */
#define GPIO_PIN_OPENDRAIN 0x0004 /* open-drain output */
#define GPIO_PIN_PUSHPULL 0x0008 /* push-pull output */
#define GPIO_PIN_TRISTATE 0x0010 /* output disabled */
#define GPIO_PIN_PULLUP 0x0020 /* internal pull-up enabled */
#define GPIO_PIN_PULLDOWN 0x0040 /* internal pull-down enabled */
#define GPIO_PIN_INVIN 0x0080 /* invert input */
#define GPIO_PIN_INVOUT 0x0100 /* invert output */
#define GPIO_PIN_PULSATE 0x0200 /* pulsate in hardware */
# Pin 1 - SCK
# Pin 2 - SDA
# Pin 3 - test 2
# Pin 4 - test 3
# Pin 5 - USB (LED Blue)
# Pin 6 - test a
# Pin 7 - Security (LED Orange)
# Pin 8 - Router (LED Green)
# Pin 9 - Movie Engine On (LED Blue)
# Pin 10 - Movie Engine Off (LED Blue)
# Pin 11 - test a
# Pin 12 - test a
# Pin 13 - test a
# Pin 14 - USB Power (turn on by default)
# Pin 15 - test a
# Pin 16 - test a
# Pin 17 - diag (LED red)
# Don't flip on anything that isn't already enabled.
# Force on USB power pin 14
#hint.gpio.0.function_set=0x00000000
#hint.gpio.0.function_clear=0x00000000
# These are the GPIO LEDs and buttons which can be software controlled.
hint.gpio.0.pinmask=0x000103D0
hint.gpio.0.pinon=0x00000000
hint.gpioiic.0.at="gpiobus0"
hint.gpioiic.0.pins=0x0003
hint.gpioiic.0.sda=0
hint.gpioiic.0.scl=1
# LEDs are configured separately and driven by the LED device
# usb tested good
hint.gpioled.0.at="gpiobus0"
hint.gpioled.0.name="blue-usb"
hint.gpioled.0.pins=0x00000010
hint.gpioled.1.at="gpiobus0"
hint.gpioled.1.name="orange-security"
hint.gpioled.1.pins=0x00000040
hint.gpioled.2.at="gpiobus0"
hint.gpioled.2.name="green-router"
hint.gpioled.2.pins=0x00000080
hint.gpioled.3.at="gpiobus0"
hint.gpioled.3.name="blue-movie-engine-on"
hint.gpioled.3.pins=0x00000100
hint.gpioled.4.at="gpiobus0"
hint.gpioled.4.name="blue-movie-engine-off"
hint.gpioled.4.pins=0x00000200
hint.gpioled.5.at="gpiobus0"
hint.gpioled.5.name="red-diag"
hint.gpioled.5.pins=0x00010000