Merge remote-tracking branch 'raito/nwa50ax'

This commit is contained in:
Daniel Barlow 2024-02-21 19:27:23 +00:00
commit f9ab0590a6
19 changed files with 1172 additions and 23 deletions

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@ -3,6 +3,7 @@
, liminix-config ? <liminix-config>
, nixpkgs ? <nixpkgs>
, borderVmConf ? ./bordervm.conf.nix
, imageType ? "primary"
}:
let
@ -30,6 +31,9 @@ let
./modules/s6
./modules/users.nix
./modules/outputs.nix
{
boot.imageType = imageType;
}
];
};
config = eval.config;

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@ -0,0 +1,155 @@
#include "mt7621.dtsi"
#include <dt-bindings/gpio/gpio.h>
#include <dt-bindings/input/input.h>
/ {
aliases {
label-mac-device = &gmac0;
};
};
&nand {
status = "okay";
mediatek,nmbm;
mediatek,bmt-max-ratio = <15>;
mediatek,bmt-max-reserved-blocks = <64>;
mediatek,bmt-remap-range =
<0x0 0x980000>,
<0x2980000 0x7800000>;
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
partition@0 {
label = "u-boot";
reg = <0x0 0x80000>;
read-only;
};
partition@80000 {
label = "u-boot-env";
reg = <0x80000 0x80000>;
read-only;
};
factory: partition@100000 {
label = "factory";
reg = <0x100000 0x80000>;
read-only;
};
partition@180000 {
label = "firmware_a";
reg = <0x180000 0x2800000>;
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
partition@0 {
label = "kernel_a";
reg = <0x0 0x800000>;
};
partition@400000 {
label = "ubi";
reg = <0x800000 0x2000000>;
};
};
partition@2980000 {
label = "firmware_b";
reg = <0x2980000 0x2800000>;
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
partition@0 {
label = "kernel_b";
reg = <0x0 0x800000>;
};
partition@400000 {
label = "ubi_b";
reg = <0x800000 0x2000000>;
};
};
partition@5180000 {
label = "rootfs_data";
reg = <0x5180000 0x1400000>;
};
partition@6580000 {
label = "logs";
reg = <0x6580000 0xd00000>;
};
partition@7280000 {
label = "vendor-myzyxel";
reg = <0x7280000 0x480000>;
read-only;
};
partition@7700000 {
label = "bootconfig";
reg = <0x7700000 0x80000>;
};
mrd: partition@7780000 {
label = "mrd";
reg = <0x7780000 0x80000>;
read-only;
nvmem-layout {
compatible = "fixed-layout";
#address-cells = <1>;
#size-cells = <1>;
macaddr_mrd_1fff8: macaddr@1fff8 {
reg = <0x1fff8 0x6>;
};
};
};
};
};
&pcie {
status = "okay";
};
&pcie1 {
wlan_5g: wifi@0,0 {
reg = <0x0 0 0 0 0>;
compatible = "mediatek,mt76";
mediatek,mtd-eeprom = <&factory 0x0>;
/* MAC-Address set in userspace */
};
};
&gmac0 {
nvmem-cells = <&macaddr_mrd_1fff8>;
nvmem-cell-names = "mac-address";
};
&switch0 {
ports {
port@4 {
status = "okay";
label = "lan";
};
};
};
&state_default {
gpio {
groups = "uart3";
function = "gpio";
};
};

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@ -0,0 +1,155 @@
#include "mt7621.dtsi"
#include <dt-bindings/gpio/gpio.h>
#include <dt-bindings/input/input.h>
/ {
aliases {
label-mac-device = &gmac0;
};
};
&nand {
status = "okay";
mediatek,nmbm;
mediatek,bmt-max-ratio = <15>;
mediatek,bmt-max-reserved-blocks = <64>;
mediatek,bmt-remap-range =
<0x0 0x980000>,
<0x2980000 0x7800000>;
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
partition@0 {
label = "u-boot";
reg = <0x0 0x80000>;
read-only;
};
partition@80000 {
label = "u-boot-env";
reg = <0x80000 0x80000>;
read-only;
};
factory: partition@100000 {
label = "factory";
reg = <0x100000 0x80000>;
read-only;
};
partition@2980000 {
label = "firmware_b";
reg = <0x2980000 0x2800000>;
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
partition@0 {
label = "kernel_b";
reg = <0x0 0x800000>;
};
partition@400000 {
label = "ubi";
reg = <0x800000 0x2000000>;
};
};
partition@180000 {
label = "firmware_a";
reg = <0x180000 0x2800000>;
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
partition@0 {
label = "kernel_a";
reg = <0x0 0x800000>;
};
partition@400000 {
label = "ubi_a";
reg = <0x800000 0x2000000>;
};
};
partition@5180000 {
label = "rootfs_data";
reg = <0x5180000 0x1400000>;
};
partition@6580000 {
label = "logs";
reg = <0x6580000 0xd00000>;
};
partition@7280000 {
label = "vendor-myzyxel";
reg = <0x7280000 0x480000>;
read-only;
};
partition@7700000 {
label = "bootconfig";
reg = <0x7700000 0x80000>;
};
mrd: partition@7780000 {
label = "mrd";
reg = <0x7780000 0x80000>;
read-only;
nvmem-layout {
compatible = "fixed-layout";
#address-cells = <1>;
#size-cells = <1>;
macaddr_mrd_1fff8: macaddr@1fff8 {
reg = <0x1fff8 0x6>;
};
};
};
};
};
&pcie {
status = "okay";
};
&pcie1 {
wlan_5g: wifi@0,0 {
reg = <0x0 0 0 0 0>;
compatible = "mediatek,mt76";
mediatek,mtd-eeprom = <&factory 0x0>;
/* MAC-Address set in userspace */
};
};
&gmac0 {
nvmem-cells = <&macaddr_mrd_1fff8>;
nvmem-cell-names = "mac-address";
};
&switch0 {
ports {
port@4 {
status = "okay";
label = "lan";
};
};
};
&state_default {
gpio {
groups = "uart3";
function = "gpio";
};
};

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@ -0,0 +1,367 @@
{
system = {
crossSystem = {
config = "mipsel-unknown-linux-musl";
gcc = {
abi = "32";
arch = "mips32"; # mips32r2?
};
};
};
description = ''
Zyxel NWA50AX
********************
Zyxel NWA50AX is quite close to the GL-MT300N-v2 "Mango" device, but it is based on the MT7621
chipset instead of the MT7628.
Installation
============
This device is pretty, but, due to its A/B capabilities, can be a bit hard
to use completely.
The stock vendor firmware is a downstream fork of U-Boot: <https://github.com/RaitoBezarius/uboot-nwa50ax>
with restricted boot commands. Fortunately, OpenWrt folks figured out trivial command injections,
so you can use most of the OpenWrt commands without trouble by just command injecting
atns, atna or atnf, e.g. atns "; $real_command".
From factory web UI, you can upload the result of the zyxel-nwa-fit output.
From another operating system, you need to `dumpimage -T flat_dt -p 0 $zyxel-nwa-fit -o firmware.bin`,
`flash_erase $(mtd partition of the target partition firmware or zy_firmware) 0 0`, then you complete by
`nandwrite -p $(mtd partition of the target partition firmware or zy_firmware) firmware.bin`.
How to put the firmware.bin on the machine is left to you as an exercise, e.g. SSH, TFTP, whatever.
From serial, you have two choices:
- Flash this system via U-Boot:
same reasoning as from an existing Linux system, two choices:
- ymodem the binary, perform the write manually, you can inspire yourself
from the `script` contained in the vendor firmware, those are just a FIT containing a script.
- prepare a FIT containing a script executing your commands, tftpboot this.
- boot from an existing Liminix system, e.g. TFTPBOOT image.
- boot from an OpenWrt system, i.e. follow OpenWrt steps.
Once you are in a Linux system, understand that this device has A/B boot.
OpenWrt provides you with `zyxel-bootconfig` to set/unset the image status and choice.
The kernel is booted with `bootImage=<number>` which tells you which slot are you on.
You should find yourself with 10ish MTD partitions, the most interesting ones are two:
- firmware: 40MB
- firmware_1: 40MB
In the current setup, they are split further into kernel (8MB) and ubi (32MB).
Once you are done with first installation, note that if you want to use the A/B feature,
you need to write a _secondary_ image on the slot B. There is no proper flashing code
that will set the being-updated slot to `new` and boot on it to verify if it's working.
This is a WIP.
Upgrading your system can be achieved via:
- `liminix-rebuild` for the userspace.
- `flash_erase` + `nandwrite` for the kernelspace to the other slot than the one you are booted on,
note that you can just nandwrite the mtd partition corresponding to the *kernel* and not the whole firmware.
If you soft-bricked your AP, i.e. you cannot boot anything in U-Boot, no worries, just plug the serial console,
prepare a TFTP server (via `tufted` for example), download vendor firmware, set up `atns`, `atnf`, etc. and run `atnz`.
This will reflash everything back to normal via TFTP.
If you hard-bricked your AP, i.e. U-Boot is telling you to transfer a valid bootloader via ymodem, just extract
a U-Boot from the vendor OS, send it via ymodem and use the previous operations to perform a full flash this time
of all partitions.
Note that if you erased your MRD partition, you lost your serial and MAC address. There's no way to recover the original one
except by reading the physical label on your device!
If you super-hard-bricked your AP, i.e. no output on serial console, congratulations, you reached one of the rare state
of this device. You need an external NAND flasher to repair it and write the first stage from Mediatek to continue the previous
recovery operations.
Development TODO list:
- Better support for upgrade automation w.r.t. to A/B, e.g. automagic scripts.
- Mount the logs partition, mount / as overlayfs of firmware ? rootfs and rootfs_data for extended data.
- Jitter-based entropy injection? Device can be slow to initialize its CRNG and hostapd will reject few clients at the start because of that.
- Defaults for hostapd based on MT7915 capabilities? See the example for one possible list.
- Remove primary/secondary hack and put it in preinit.
- Offer ways to reflash the *bootloader* itself to support direct boot via UBI and kernel upgrades via filesystem rewrite.
Vendor web page: https://www.zyxel.com/fr/fr/products/wireless/ax1800-wifi-6-dual-radio-nebulaflex-access-point-nwa50ax
OpenWrt web page: https://openwrt.org/inbox/toh/zyxel/nwa50ax
OpenWrt tech data: https://openwrt.org/toh/hwdata/zyxel/zyxel_nwa50ax
'';
module = { pkgs, config, lib, lim, ...}:
let
inherit (pkgs.liminix.networking) interface;
inherit (pkgs.liminix.services) oneshot;
inherit (pkgs.pseudofile) dir symlink;
inherit (pkgs) openwrt;
mac80211 = pkgs.mac80211.override {
drivers = [ "mt7915e" ];
klibBuild = config.system.outputs.kernel.modulesupport;
};
# v204520220929
wlan_firmware = pkgs.fetchurl {
url = "https://github.com/openwrt/mt76/raw/1b88dd07f153b202e57fe29734806744ed006b0e/firmware/mt7915_wa.bin";
hash = "sha256-wooyefzb0i8640+lwq3vNhcBXRFCtGuo+jiL7afZaKA=";
};
wlan_firmware' = pkgs.fetchurl {
url = "https://github.com/openwrt/mt76/raw/1b88dd07f153b202e57fe29734806744ed006b0e/firmware/mt7915_wm.bin";
hash = "sha256-k62nQewRuKjBLd5R3RxU4F74YKnQx5zr6gqMMImqVQw=";
};
wlan_firmware'' = pkgs.fetchurl {
url = "https://github.com/openwrt/mt76/raw/1b88dd07f153b202e57fe29734806744ed006b0e/firmware/mt7915_rom_patch.bin";
hash = "sha256-ifriAjWzFACrxVWCANZpUaEZgB/0pdbhnTVQytx6ddg=";
};
in {
imports = [
# We include it to ensure the bridge functionality
# is available on the target kernel.
../../modules/bridge
../../modules/arch/mipsel.nix
../../modules/outputs/tftpboot.nix
../../modules/outputs/zyxel-nwa-fit.nix
../../modules/zyxel-dual-image
];
filesystem = dir {
lib = dir {
firmware = dir {
mediatek = dir {
"mt7915_wa.bin" = symlink wlan_firmware;
"mt7915_wm.bin" = symlink wlan_firmware';
"mt7915_rom_patch.bin" = symlink wlan_firmware'';
};
};
};
};
rootfsType = "ubifs";
hardware = {
# Taken from OpenWRT
# root@OpenWrt:/# ubinfo /dev/ubi0
# ubi0
# Volumes count: 2
# Logical eraseblock size: 126976 bytes, 124.0 KiB
# Total amount of logical eraseblocks: 256 (32505856 bytes, 31.0 MiB)
# Amount of available logical eraseblocks: 0 (0 bytes)
# Maximum count of volumes 128
# Count of bad physical eraseblocks: 0
# Count of reserved physical eraseblocks: 19
# Current maximum erase counter value: 2
# Minimum input/output unit size: 2048 bytes
# Character device major/minor: 250:0
# Present volumes: 0, 1
ubi = {
minIOSize = "2048";
logicalEraseBlockSize = "126976";
physicalEraseBlockSize = "128KiB";
maxLEBcount = "256";
};
# This is a FIT containing a kernel padded and
# a UBI volume rootfs.
defaultOutput = "zyxel-nwa-fit";
loadAddress = lim.parseInt "0x80001000";
entryPoint = lim.parseInt "0x80001000";
# Aligned on 2kb.
alignment = 2048;
rootDevice = "ubi:rootfs";
dts = {
# Actually, this is not what we want.
# This DTS is insufficient.
src = ./mt7621_zyxel_nwa50ax.dtsi;
includes = [
# Here's one weird trick to make `ubi` detection
# out of the box.
# We will write ubi on /dev/firmware_a:rootfs location
# and same for /dev/firmware_b:rootfs.
# How do we distinguish both?
# We can just use the DTS to point ubi at A or B.
# This, unfortunately, means that we have "two images".
# But they are really just 1 image with 2 different DTS.
# TODO: improve this hack in preinit?
(if config.boot.imageType == "primary" then "${./a_image}" else "${./b_image}")
"${openwrt.src}/target/linux/ramips/dts"
];
};
networkInterfaces =
let
inherit (config.system.service.network) link;
in {
eth = link.build { ifname = "eth0"; };
lan = link.build { ifname = "lan"; };
wlan0 = link.build {
ifname = "wlan0";
dependencies = [ mac80211 ];
};
wlan1 = link.build {
ifname = "wlan1";
dependencies = [ mac80211 ];
};
};
};
boot = {
# Critical because NWA50AX will extend your cmdline with the image number booted.
# and some bootloader version.
# You don't want to find yourself being overridden.
commandLineDtbNode = "bootargs-override";
imageFormat = "fit";
tftp = {
# 5MB is nice.
freeSpaceBytes = 5 * 1024 * 1024;
loadAddress = lim.parseInt "0x2000000";
};
};
# Dual image management service in userspace.
services.zyxel-dual-image = config.boot.zyxel-dual-image.build {
ensureActiveImage = "primary";
# TODO: use mtd names rather…
# primary and secondary are always /dev/mtd3 by virtue of the
# dtb being not too wrong…
# TODO: remove this hack.
primaryMtdPartition = "/dev/mtd3";
secondaryMtdPartition = "/dev/mtd3";
bootConfigurationMtdPartition = "/dev/mtd12";
};
# DEVICE_VENDOR := ZyXEL
# KERNEL_SIZE := 8192k
# DEVICE_PACKAGES := kmod-mt7915-firmware zyxel-bootconfig
# KERNEL := kernel-bin | lzma | fit lzma $$(KDIR)/image-$$(firstword $$(DEVICE_DTS)).dtb
# IMAGES += factory.bin ramboot-factory.bin
# IMAGE/factory.bin := append-kernel | pad-to $$(KERNEL_SIZE) | append-ubi | zyxel-nwa-fit
# IMAGE/ramboot-factory.bin := append-kernel | pad-to $$(KERNEL_SIZE) | append-ubi
kernel = {
src = pkgs.fetchurl {
name = "linux.tar.gz";
url = "https://cdn.kernel.org/pub/linux/kernel/v5.x/linux-5.15.137.tar.gz";
hash = "sha256-PkdzUKZ0IpBiWe/RS70J76JKnBFzRblWcKlaIFNxnHQ=";
};
extraPatchPhase = ''
${openwrt.applyPatches.ramips}
'';
config = {
RALINK = "y";
PCI = "y";
PHY_MT7621_PCI = "y";
PCIE_MT7621 = "y";
SOC_MT7621 = "y";
CLK_MT7621 = "y";
CLOCKSOURCE_WATCHDOG = "y";
SERIAL_8250_CONSOLE = "y";
SERIAL_8250 = "y";
SERIAL_CORE_CONSOLE = "y";
SERIAL_OF_PLATFORM = "y";
SERIAL_8250_NR_UARTS = "3";
SERIAL_8250_RUNTIME_UARTS = "3";
SERIAL_MCTRL_GPIO = "y";
CONSOLE_LOGLEVEL_DEFAULT = "8";
CONSOLE_LOGLEVEL_QUIET = "4";
# MTD_UBI_BEB_LIMIT = "20";
# MTD_UBI_WL_THRESHOLD = "4096";
MTD = "y";
MTD_BLOCK = "y"; # fix undefined ref to register_mtd_blktrans_dev
MTD_RAW_NAND = "y";
MTD_NAND_MT7621 = "y";
MTD_NAND_MTK_BMT = "y"; # Bad-block Management Table
MTD_NAND_ECC_SW_HAMMING= "y";
MTD_SPI_NAND= "y";
MTD_OF_PARTS = "y";
MTD_NAND_CORE= "y";
MTD_SPLIT_FIRMWARE= "y";
MTD_SPLIT_FIT_FW= "y";
PINCTRL = "y";
PINCTRL_MT7621 = "y";
I2C = "y";
I2C_MT7621 = "y";
SPI = "y";
MTD_SPI_NOR = "y";
SPI_MT7621 = "y";
SPI_MASTER = "y";
SPI_MEM = "y";
REGULATOR = "y";
REGULATOR_FIXED_VOLTAGE = "y";
RESET_CONTROLLER = "y";
POWER_RESET = "y";
POWER_RESET_GPIO = "y";
POWER_SUPPLY = "y";
LED_TRIGGER_PHY = "y";
PCI_DISABLE_COMMON_QUIRKS = "y";
PCI_DOMAINS = "y";
PCI_DOMAINS_GENERIC = "y";
PCI_DRIVERS_GENERIC = "y";
PCS_MTK_LYNXI = "y";
SOC_BUS = "y";
NET = "y";
ETHERNET = "y";
WLAN = "y";
PHYLIB = "y";
AT803X_PHY = "y";
FIXED_PHY = "y";
GENERIC_PHY = "y";
NET_DSA = "y";
NET_DSA_MT7530 = "y";
NET_DSA_MT7530_MDIO = "y";
NET_DSA_TAG_MTK = "y";
NET_MEDIATEK_SOC = "y";
NET_SWITCHDEV = "y";
NET_VENDOR_MEDIATEK = "y";
SWPHY = "y";
GPIOLIB = "y";
GPIO_MT7621 = "y";
OF_GPIO = "y";
EARLY_PRINTK = "y";
NEW_LEDS = "y";
LEDS_TRIGGERS = "y";
LEDS_CLASS = "y"; # required by rt2x00lib
LEDS_CLASS_MULTICOLOR = "y";
LEDS_BRIGHTNESS_HW_CHANGED = "y";
PRINTK_TIME = "y";
} // lib.optionalAttrs (config.system.service ? vlan) {
SWCONFIG = "y";
} // lib.optionalAttrs (config.system.service ? watchdog) {
RALINK_WDT = "y"; # watchdog
MT7621_WDT = "y"; # or it might be this one
};
};
};
}

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@ -0,0 +1,56 @@
#include "mt7621_zyxel_nwa-ax-for-ab.dtsi"
#include <dt-bindings/gpio/gpio.h>
#include <dt-bindings/input/input.h>
/ {
compatible = "zyxel,nwa50ax", "mediatek,mt7621-soc";
model = "ZyXEL NWA50AX";
aliases {
led-boot = &led_system_green;
led-failsafe = &led_system_red;
led-running = &led_system_green;
led-upgrade = &led_system_red;
};
leds {
compatible = "gpio-leds";
led_system_red: system_red {
label = "red:system";
gpios = <&gpio 6 GPIO_ACTIVE_HIGH>;
};
led_system_green: system_green {
label = "green:system";
gpios = <&gpio 7 GPIO_ACTIVE_HIGH>;
};
system_blue {
label = "blue:system";
gpios = <&gpio 8 GPIO_ACTIVE_HIGH>;
};
};
keys {
compatible = "gpio-keys";
reset {
label = "reset";
gpios = <&gpio 30 GPIO_ACTIVE_LOW>;
linux,code = <KEY_RESTART>;
};
};
};
&ethernet {
pinctrl-0 = <&mdio_pins>, <&rgmii1_pins>;
};
&state_default {
gpio {
groups = "uart3", "rgmii2";
function = "gpio";
};
};

120
examples/nwa50ax-ap.nix Normal file
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@ -0,0 +1,120 @@
{ config, pkgs, ... } :
let
inherit (pkgs.liminix.services) oneshot longrun bundle target;
inherit (pkgs) writeText;
svc = config.system.service;
secrets-1 = {
ssid = "Zyxel 2G (N)";
wpa_passphrase = "diamond dogs";
};
secrets-2 = {
ssid = "Zyxel 5G (AX)";
wpa_passphrase = "diamond dogs";
};
baseParams = {
country_code = "FR";
hw_mode = "g";
channel = 6;
wmm_enabled = 1;
ieee80211n = 1;
ht_capab = "[LDPC][GF][HT40-][HT40+][SHORT-GI-40][MAX-AMSDU-7935][TX-STBC]";
auth_algs = 1;
wpa = 2;
wpa_key_mgmt = "WPA-PSK";
wpa_pairwise = "TKIP CCMP";
rsn_pairwise = "CCMP";
};
modernParams = {
hw_mode = "a";
he_su_beamformer = 1;
he_su_beamformee = 1;
he_mu_beamformer = 1;
preamble = 1;
# Allow radar detection.
ieee80211d = 1;
ieee80211h = 1;
ieee80211ac = 1;
ieee80211ax = 1;
vht_capab = "[MAX-MPDU-7991][SU-BEAMFORMEE][SU-BEAMFORMER][RXLDPC][SHORT-GI-80][MAX-A-MPDU-LEN-EXP3][RX-ANTENNA-PATTERN][TX-ANTENNA-PATTERN][TX-STBC-2BY1][RX-STBC-1][MU-BEAMFORMER]";
vht_oper_chwidth = 1;
he_oper_chwidth = 1;
channel = 36;
vht_oper_centr_freq_seg0_idx = 42;
he_oper_centr_freq_seg0_idx = 42;
require_vht = 1;
};
mkWifiSta = params: interface: secrets: svc.hostapd.build {
inherit interface;
params = params // {
inherit (secrets) ssid wpa_passphrase;
};
};
in rec {
imports = [
../modules/wlan.nix
../modules/network
../modules/hostapd
../modules/ssh
../modules/ntp
../modules/vlan
../modules/bridge
];
hostname = "zyxel";
users.root = {
# EDIT: choose a root password and then use
# "mkpasswd -m sha512crypt" to determine the hash.
# It should start wirh $6$.
passwd = "$y$j9T$f8GhLiqYmr3lc58eKhgyD0$z7P/7S9u.kq/cANZExxhS98bze/6i7aBxU6tbl7RMi.";
openssh.authorizedKeys.keys = [
# EDIT: you can add your ssh pubkey here
# "ssh-rsa AAAAB3NzaC1....H6hKd user@example.com";
];
};
services.int = svc.bridge.primary.build {
ifname = "int";
};
services.bridge = svc.bridge.members.build {
primary = services.int;
members = with config.hardware.networkInterfaces; [
lan
wlan0
wlan1
];
};
services.dhcpv4 =
let iface = services.int;
in svc.network.dhcp.client.build { interface = iface; };
services.defaultroute4 = svc.network.route.build {
via = "$(output ${services.dhcpv4} address)";
target = "default";
dependencies = [ services.dhcpv4 ];
};
services.packet_forwarding = svc.network.forward.build { };
services.sshd = svc.ssh.build {
allowRoot = true;
};
services.ntp = config.system.service.ntp.build {
pools = { "pool.ntp.org" = ["iburst"] ; };
};
boot.tftp = {
serverip = "192.0.2.10";
ipaddr = "192.0.2.12";
};
# wlan0 is the 2.4GHz interface.
services.hostap-1 = mkWifiSta baseParams config.hardware.networkInterfaces.wlan0 secrets-1;
# wlan1 is the 5GHz interface, e.g. AX capable.
services.hostap-2 = mkWifiSta (baseParams // modernParams) config.hardware.networkInterfaces.wlan1 secrets-2;
defaultProfile.packages = with pkgs; [ zyxel-bootconfig iw min-collect-garbage mtdutils ];
}

View file

@ -31,6 +31,8 @@
./ssh
./outputs/tftpboot.nix
./outputs/ubifs.nix
./ubifs.nix
./ubinize.nix
./users.nix
./vlan
./watchdog

View file

@ -58,6 +58,15 @@ in {
default = [];
description = "Kernel command line";
};
commandLineDtbNode = mkOption {
type = types.enum [ "bootargs" "bootargs-override" ];
default = "bootargs";
description = "Kernel command line's devicetree node";
};
imageType = mkOption {
type = types.enum [ "primary" "secondary" ];
default = "primary";
};
imageFormat = mkOption {
type = types.enum ["fit" "uimage"];
default = "uimage";

View file

@ -32,23 +32,21 @@ let
(a: symlink "${busybox}/bin/busybox");
minimalApplets = [
# this is probably less minimal than it could be
"arch" "ash" "base64" "basename" "bc" "brctl" "bunzip2" "bzcat"
"bzip2" "cal" "cat" "chattr" "chgrp" "chmod" "chown" "chpst"
"chroot" "clear" "cmp" "comm" "cp" "cpio" "cut" "date" "dd" "df"
"dirname" "dmesg" "du" "echo" "egrep" "env" "expand" "expr"
"false" "fdisk" "fgrep" "find" "free" "fuser" "grep" "gunzip"
"gzip" "head" "hexdump" "hostname" "hwclock" "ifconfig" "ip"
"ipaddr" "iplink" "ipneigh" "iproute" "iprule" "kill" "killall"
"killall5" "less" "ln" "ls" "lsattr" "lsof" "md5sum" "mkdir"
"mknod" "mktemp" "mount" "mv" "nc" "netstat" "nohup" "od" "pgrep"
"pidof" "ping" "ping6" "pkill" "pmap" "printenv" "printf" "ps"
"pwd" "readlink" "realpath" "reset" "rm" "rmdir" "route" "sed"
"seq" "setsid" "sha1sum" "sha256sum" "sha512sum" "sleep" "sort"
"stat" "strings" "stty" "su" "sum" "swapoff" "swapon" "sync"
"tail" "tee" "test" "time" "touch" "tr" "traceroute" "traceroute6"
"true" "truncate" "tty" "udhcpc" "umount" "uname"
"unexpand" "uniq" "unlink" "unlzma" "unxz" "unzip" "uptime"
"watch" "wc" "whoami" "xargs" "xxd" "xz" "xzcat" "yes" "zcat"
"arch" "ash" "base64" "basename" "bc" "brctl" "bunzip2" "bzcat" "bzip2"
"cal" "cat" "chattr" "chgrp" "chmod" "chown" "chpst" "chroot" "clear" "cmp"
"comm" "cp" "cpio" "cut" "date" "dhcprelay" "dd" "df" "dirname" "dmesg"
"du" "echo" "egrep" "env" "expand" "expr" "false" "fdisk" "fgrep" "find"
"free" "fuser" "grep" "gunzip" "gzip" "head" "hexdump" "hostname" "hwclock"
"ifconfig" "ip" "ipaddr" "iplink" "ipneigh" "iproute" "iprule" "kill"
"killall" "killall5" "less" "ln" "ls" "lsattr" "lsof" "md5sum" "mkdir"
"mknod" "mktemp" "mount" "mv" "nc" "netstat" "nohup" "od" "pgrep" "pidof"
"ping" "ping6" "pkill" "pmap" "printenv" "printf" "ps" "pwd" "readlink"
"realpath" "reset" "rm" "rmdir" "route" "sed" "seq" "setsid" "sha1sum"
"sha256sum" "sha512sum" "sleep" "sort" "stat" "strings" "stty" "su" "sum"
"swapoff" "swapon" "sync" "tail" "tee" "test" "time" "touch" "tr"
"traceroute" "traceroute6" "true" "truncate" "tty" "udhcpc" "umount"
"uname" "unexpand" "uniq" "unlink" "unlzma" "unxz" "unzip" "uptime" "watch"
"wc" "whoami" "xargs" "xxd" "xz" "xzcat" "yes" "zcat"
];
in {
options = {

View file

@ -67,6 +67,7 @@ in {
};
loadAddress = mkOption { type = types.ints.unsigned; default = null; };
entryPoint = mkOption { type = types.ints.unsigned; };
alignment = mkOption { type = types.ints.unsigned; default = null; description = "Alignment passed to `mkimage` for FIT"; };
radios = mkOption {
description = ''
Kernel modules (from mac80211 package) required for the

View file

@ -111,7 +111,8 @@ in
};
uimage = liminix.builders.uimage {
commandLine = concatStringsSep " " config.boot.commandLine;
inherit (config.hardware) loadAddress entryPoint;
inherit (config.boot) commandLineDtbNode;
inherit (config.hardware) loadAddress entryPoint alignment;
inherit (config.boot) imageFormat;
inherit (o) kernel dtb;
};

View file

@ -12,9 +12,16 @@ in
imports = [
./initramfs.nix
];
options.system.outputs.rootubifs = mkOption {
type = types.package;
internal = true;
};
options.hardware.ubi = {
minIOSize = mkOption { type = types.str; };
eraseBlockSize = mkOption { type = types.str; }; # LEB
logicalEraseBlockSize = mkOption { type = types.str; }; # LEB
physicalEraseBlockSize = mkOption { type = types.str; }; # PEB
maxLEBcount = mkOption { type = types.str; }; # LEB
};
@ -26,7 +33,7 @@ in
};
boot.initramfs.enable = true;
system.outputs = {
rootfs =
rootubifs =
let
inherit (pkgs.pkgsBuildBuild) runCommand mtdutils;
cfg = config.hardware.ubi;
@ -35,7 +42,7 @@ in
} ''
mkdir tmp
tree=${o.bootablerootdir}
mkfs.ubifs -x favor_lzo -c ${cfg.maxLEBcount} -m ${cfg.minIOSize} -e ${cfg.eraseBlockSize} -y -r $tree --output $out --squash-uids -o $out
mkfs.ubifs -x favor_lzo -c ${cfg.maxLEBcount} -m ${cfg.minIOSize} -e ${cfg.logicalEraseBlockSize} -y -r $tree --output $out --squash-uids -o $out
'';
};
};

View file

@ -0,0 +1,91 @@
{
config
, pkgs
, lib
, ...
}:
let
inherit (pkgs) liminix;
inherit (lib) mkIf mkOption types concatStringsSep optionalString;
in
{
imports = [
./initramfs.nix
./ubifs.nix
];
options.hardware.ubi = {
minIOSize = mkOption { type = types.str; };
eraseBlockSize = mkOption { type = types.str; }; # LEB
maxLEBcount = mkOption { type = types.str; }; # LEB
};
config = mkIf (config.rootfsType == "ubifs") {
kernel.config = {
MTD_UBI="y";
UBIFS_FS = "y";
UBIFS_FS_SECURITY = "n";
};
boot.initramfs.enable = true;
system.outputs.rootfs =
let
inherit (pkgs.pkgsBuildBuild) runCommand;
ubiVolume = ({ name, volumeId, image, flags ? [] }:
''
[${name}]
mode=ubi
vol_id=${toString volumeId}
vol_type=dynamic
vol_name=${name}
vol_alignment=1
${optionalString (image != null) ''
image=${image}
''}
${optionalString (image == null) ''
vol_size=1MiB
''}
${optionalString (flags != []) ''
vol_flags=${concatStringsSep "," flags}
''}
'');
ubiImage = (volumes:
let
ubinizeConfig = pkgs.writeText "ubinize.conf" (concatStringsSep "\n" volumes);
inherit (pkgs.pkgsBuildBuild) mtdutils;
in
runCommand "ubinize" {
depsBuildBuild = [ mtdutils ];
# block size := 128kb
# page size := 2048
# ubninize opts := -E 5
} ''
ubinize -Q "$SOURCE_DATE_EPOCH" -o $out \
-p ${config.hardware.ubi.physicalEraseBlockSize} -m ${config.hardware.ubi.minIOSize} \
-e ${config.hardware.ubi.logicalEraseBlockSize} \
${ubinizeConfig}
'');
ubiDisk = ({ initramfs }:
let
initramfsUbi = ubiVolume {
name = "rootfs";
volumeId = 0;
image = initramfs;
flags = [ "autoresize" ];
};
in
ubiImage [
initramfsUbi
]);
disk = ubiDisk {
initramfs = config.system.outputs.rootubifs; # liminix.builders.squashfs config.filesystem.contents; # # assert this is a proper FIT.
};
in
disk;
};
}

View file

@ -0,0 +1,71 @@
{
config
, pkgs
, lib
, ...
}:
let
inherit (lib) mkIf mkEnableOption mkOption types concatStringsSep;
models = "6b e1 6f e1 ff ff ff ff ff ff";
in {
options.system.outputs = {
zyxel-nwa-fit = mkOption {
type = types.package;
description = ''
zyxel-nwa-fit
*************
This output provides a FIT image for Zyxel NWA series
containing a kernel image and an UBIFS rootfs.
It can usually be used as a factory image to install Liminix
on a system with pre-existing firmware and OS.
'';
};
};
imports = [
./ubivolume.nix
];
config = mkIf (config.rootfsType == "ubifs") {
system.outputs.zyxel-nwa-fit =
let
o = config.system.outputs;
# 8129kb padding.
paddedKernel = pkgs.runCommand "padded-kernel" {} ''
cp --no-preserve=mode ${o.uimage} $out
dd if=/dev/zero of=$out bs=1 count=1 seek=8388607
'';
firmwareImage = pkgs.runCommand "firmware-image" {} ''
cat ${paddedKernel} ${o.rootfs} > $out
'';
dts = pkgs.writeText "image.its" ''
/dts-v1/;
/ {
description = "Zyxel FIT (Flattened Image Tree)";
compat-models = [${models}];
#address-cells = <1>;
images {
firmware {
data = /incbin/("${firmwareImage}");
type = "firmware";
compression = "none";
hash@1 {
algo = "sha1";
};
};
};
};
'';
in
pkgs.runCommand "zyxel-nwa-fit-${config.boot.imageType}" {
nativeBuildInputs = [ pkgs.pkgsBuildBuild.ubootTools pkgs.pkgsBuildBuild.dtc ];
} ''
mkimage -f ${dts} $out
'';
};
}

View file

@ -0,0 +1,60 @@
## Boot blessing via Zyxel
## =======================
## Boot blessing is the process to bless a particular boot configuration
## It is commonly encountered in devices with redundant partitions
## for automatic recovery of broken upgrades.
## This is also known as A/B schemas, where A represents the primary partition
## and B the secondary partition used for recovery.
## To use boot blessing on Liminix, you need to have the support of
## your bootloader to help you boot on the secondary partition in case of
## failure on the primary partition. The exact details are specifics to your device.
## See the Zyxel NWA50AX for an example.
## TODO: generalize this module.
{ config, lib, pkgs, ... }:
let
inherit (lib) mkOption types;
inherit (pkgs) liminix;
in
{
options.boot.zyxel-dual-image = mkOption {
type = liminix.lib.types.serviceDefn;
};
config.boot.zyxel-dual-image = liminix.callService ./service.nix {
ensureActiveImage = mkOption {
type = types.enum [ "primary" "secondary" ];
default = "primary";
description = ''At boot, ensure that the active image is the one specified.
If you are already on a broken image, you need to manually boot
into the right image via `atgo <image index>` in U-Boot.
'';
};
kernelCommandLineSource = mkOption {
type = types.enum [ "/proc/cmdline" "/proc/device-tree/chosen/bootargs" ];
default = "/proc/device-tree/chosen/bootargs";
description = ''Kernel command line arguments source file.
On MIPS, Liminix embeds the kernel command line in /proc/device-tree/chosen/bootargs-override.
In this instance, it does not get concatenated with `/proc/cmdline`.
Therefore you may prefer to source it from another place, like `/proc/device-tree/chosen/bootargs`.
'';
};
primaryMtdPartition = mkOption {
type = types.str;
description = "Primary MTD partition device node, i.e. for image 0.";
};
secondaryMtdPartition = mkOption {
type = types.str;
description = "Secondary MTD partition device node, i.e. for image 1.";
};
bootConfigurationMtdPartition = mkOption {
type = types.str;
description = "Boot configuration MTD partition device node.";
};
};
}

View file

@ -0,0 +1,33 @@
{
liminix
, lib
, zyxel-bootconfig
}:
{ ensureActiveImage, primaryMtdPartition, secondaryMtdPartition, bootConfigurationMtdPartition, kernelCommandLineSource }:
let
inherit (liminix.services) oneshot;
activeImageIndex = if ensureActiveImage == "primary" then 0 else 1;
in oneshot {
name = "zyxel-boot-configure";
up = ''
set -- $(cat /proc/device-tree/chosen/bootargs)
for x in "$@"; do
case "$x" in
bootImage=*)
BOOT_IMAGE="''${x#bootImage=}"
echo "Current boot image is $BOOT_IMAGE."
;;
esac
done
if test -z "$BOOT_IMAGE"; then
echo "No valid image was provided in the kernel command line."
exit 1
else
${lib.getExe zyxel-bootconfig} ${bootConfigurationMtdPartition} set-image-status "$BOOT_IMAGE" valid
${lib.getExe zyxel-bootconfig} ${bootConfigurationMtdPartition} set-active-image ${toString activeImageIndex}
echo "Active image is now ${ensureActiveImage}"
fi
'';
}

View file

@ -79,6 +79,7 @@ in {
lzma = callPackage ./lzma {};
mac80211 = callPackage ./mac80211 {};
zyxel-bootconfig = callPackage ./zyxel-bootconfig {};
min-collect-garbage = callPackage ./min-collect-garbage {};
min-copy-closure = callPackage ./min-copy-closure {};
netlink-lua = callPackage ./netlink-lua {};

View file

@ -15,10 +15,12 @@ let
in {
kernel
, commandLine
, commandLineDtbNode ? "bootargs"
, entryPoint
, extraName ? "" # e.g. socFamily
, loadAddress
, imageFormat
, alignment ? null
, dtb ? null
} : stdenv.mkDerivation {
name = "kernel.image";
@ -39,7 +41,7 @@ in {
'';
mungeDtbPhase = ''
dtc -I dtb -O dts -o tmp.dts ${dtb}
echo '/{ chosen { bootargs = ${builtins.toJSON commandLine}; }; };' >> tmp.dts
echo '/{ chosen { ${commandLineDtbNode} = ${builtins.toJSON commandLine}; }; };' >> tmp.dts
dtc -I dts -O dtb -o tmp.dtb tmp.dts
'';
@ -69,7 +71,7 @@ in {
};
};
_VARS
mkimage -f mkimage.its kernel.uimage
mkimage -f mkimage.its ${lib.optionalString (alignment != null) "-B 0x${lib.toHexString alignment}"} kernel.uimage
mkimage -l kernel.uimage
'';

View file

@ -0,0 +1,16 @@
{
stdenv
, openwrt
}:
stdenv.mkDerivation {
name = "zyxel-bootconfig";
inherit (openwrt) src;
sourceRoot = "openwrt-source/package/utils/zyxel-bootconfig/src";
installPhase = ''
mkdir -p $out/bin
install -Dm544 zyxel-bootconfig $out/bin/zyxel-bootconfig
'';
meta = {
mainProgram = "zyxel-bootconfig";
};
}