platform/x230: init

master
Raito Bezarius 1 year ago
parent 59c5ffbda6
commit 94e542b2a8

@ -98,6 +98,7 @@ in {
kevin = ownerboot (import ./platform/kevin { inherit lib common_arm64; }); kevin = ownerboot (import ./platform/kevin { inherit lib common_arm64; });
am1i = ownerboot (import ./platform/am1i { inherit lib common_amd64; }); am1i = ownerboot (import ./platform/am1i { inherit lib common_amd64; });
kgpe = ownerboot (import ./platform/kgpe { inherit lib common_amd64; }); kgpe = ownerboot (import ./platform/kgpe { inherit lib common_amd64; });
x230 = ownerboot (import ./platform/x230 { inherit lib common_amd64; });
em100 = nixpkgsOnBuildForBuild.callPackage ./util/em100 { }; em100 = nixpkgsOnBuildForBuild.callPackage ./util/em100 { };
} }

@ -0,0 +1,18 @@
#
# Note: on x86 platforms the SPI flash is mapped into or copied into
# the topmost X bytes of memory, and the very topmost word of memory
# is the "reset vector" which points to the BIOS entry point. Because
# of this we must protect the TOPMOST half of memory; if an attacker
# controls the reset vector and any other chunk of the flash, the game
# is over.
#
FLASH@0 0x1000000 {
BIOS@0 0x1000000 {
# read-write zone
NORMAL(CBFS) @ 0x400 0x7FFC00
# read-only zone (eventually)
FMAP @ 0x800000 0x400
FALLBACK(CBFS) @ 0x800400 0x7FFC00
}
}

@ -0,0 +1,102 @@
{ lib
, common_amd64
}:
{
overlays = common_amd64.overlays ++ [(final: prev:
let
flash-chip-bytes-per-image = final.flash-chip-size-in-bytes / final.images-per-flash-chip;
default-flash-chip-size-in-bytes = 12 * 1024 * 1024;
default-bios-offset-in-bytes = 8 * 1024 * 1024;
fmap-size-in-bytes = 1024;
cbfs-size-in-bytes = flash-chip-bytes-per-image - fmap-size-in-bytes;
initramfs_lzma = initramfs: final.nixpkgsOnBuildForBuild.runCommand "initramfs.lzma" { } ''
lzma < ${initramfs} > $out;
'';
in {
platform_name = "x230";
kernel =
final.lib.makeOverridable (prev.kernel.override {
# config = ./linux.config;
# buildTargets = [ "bzImage" ];
}).overrideAttrs (a: {
postInstall = (a.postInstall or "") + ''
cp arch/x86/boot/compressed/vmlinux $out/vmlinuz
'';
});
initramfs = initramfs_lzma prev.initramfs;
device = ./device.nix;
console-device = "ttyS1";
payload = "${final.kernel}/bzImage";
fmap = final.nixpkgsOnBuildForBuild.writeText "custom.fmap" (''
#
# Note: on x86 platforms the SPI flash is mapped into or copied into
# the topmost X bytes of memory, and the very topmost word of memory
# is the "reset vector" which points to the BIOS entry point. Because
# of this we must protect the TOPMOST half of memory; if an attacker
# controls the reset vector and any other chunk of the flash, the game
# is over.
# The X230 has a quite special situation.
# It contains *2* flash chips, one of 8MB and one of 4MB.
# The 8MB contains mostly opaque stuff, e.g. embedded controller, Intel Management Engine and a chunk of the BIOS.
# It is not supposed to be modified, except by me_cleaner for example.
# The 4MB on the contrary contains most of the BIOS.
# It is enough to flash the 4MB one to achieve the desired effect for now.
# TODO: eat the extra 1MB on the other chip.
FLASH@0 0x${lib.toHexString default-flash-chip-size-in-bytes} {
BIOS@0x${lib.toHexString default-bios-offset-in-bytes} 0x${lib.toHexString final.flash-chip-size-in-bytes} {
${lib.optionalString (final.images-per-flash-chip > 1) ''
# read-write zone
NORMAL(CBFS) @ 0x${lib.toHexString fmap-size-in-bytes} 0x${lib.toHexString cbfs-size-in-bytes}
''}
# read-only zone (eventually)
FMAP @ 0x${lib.toHexString flash-chip-bytes-per-image} 0x${lib.toHexString fmap-size-in-bytes}
FALLBACK(CBFS) @ 0x${lib.toHexString (flash-chip-bytes-per-image + fmap-size-in-bytes)} 0x${lib.toHexString cbfs-size-in-bytes}
}
}
'');
coreboot = (prev.coreboot.override {
iasl = final.iasl_20180531;
coreboot-toolchain = with final.coreboot-toolchain; [ x64 i386 ];
config = with lib.kernel; {
# CBFS_PREFIX = lib.mkForce (freeform "prefix");
# COLLECT_TIMESTAMPS = yes;
# VBOOT = yes;
# MEASURED_BOOT = yes;
# VBOOT_SLOTS_RW_AB = yes;
VENDOR_LENOVO = lib.mkForce yes;
BOARD_LENOVO_X230 = lib.mkForce yes;
CONSOLE_CBMEM = lib.mkForce no;
# ON_DEVICE_ROM_LOAD = lib.mkForce no;
POST_DEVICE = lib.mkForce no;
POST_IO = lib.mkForce no;
DEFAULT_CONSOLE_LOGLEVEL = lib.mkForce (freeform "7");
ONBOARD_VGA_IS_PRIMARY = lib.mkForce yes;
USE_NATIVE_RAMINIT = lib.mkForce yes;
MAINBOARD_USE_LIBGFXINIT = lib.mkForce yes;
# MAINBOARD_SMBIOS_MANUFACTURER = lib.mkForce (freeform "LENOVO");
# MAINBOARD_SMBIOS_PRODUCT_NAME = lib.mkForce (freeform "ThinkPad X230");
};
uart-for-console =
if final.console-device == "ttyS0" then 0 # IDC ribbon-cable header on the motherboarod
else if final.console-device == "ttyS1" then 1 # DB9 connector on rear I/O panel; omitted from some board variants
else if final.console-device == null then null
else throw "x230 currently supports only `null` and `ttyS{0,1}` for `console-device`";
}).overrideAttrs (a: {
postInstall = (a.postInstall or "") + ''
cp src/mainboard/lenovo/x230/cmos.layout $out/
'';
});
})];
}

@ -0,0 +1,10 @@
{ pkgs, ... }:
{
imports = [
./minify.nix
./kernel-config.nix
];
hardware.cpu = "generic-x86_64";
# wip.kernel.defconfig = "allnoconfig";
}

@ -0,0 +1,82 @@
{ lib, ... }:
{
wip.kernel = {
structuredConfig = lib.mkMerge [
(with lib.kernel; {
# SPI_INTEL = yes; /* deps: */ SPI = yes;
# PINCTRL_INTEL = yes; /* deps: */ PINCTRL = yes;
})
(with lib.kernel; {
/* deps: */
# REGMAP = yes;
# I2C_DESIGNWARE_PLATFORM = yes; /* deps: */ I2C = yes;
})
(with lib.kernel; {
# FB_EFI = yes;
# BACKLIGHT_CLASS_DEVICE = yes;
# FRAMEBUFFER_CONSOLE_ROTATION = yes;
# FRAMEBUFFER_CONSOLE_DETECT_PRIMARY = yes;
})
# TODO: Somehow make configurable
# (with lib.kernel; {
# LTRF216A = yes; /* deps: */ IIO = yes; I2C = yes;
# })
# TODO: allow introspecting current config to `mkIf SND != no`
# (with lib.kernel; {
# SND_SOC_CS35L41 = yes;
# SND_SOC_CS35L41_SPI = yes;
# SND_SOC_AMD_ACP5x = yes;
# SND_SOC_AMD_VANGOGH_MACH = yes;
# SND_SOC_WM_ADSP = yes;
# # CONFIG_SND_SOC_CS35L41_I2C is not set
# SND_SOC_NAU8821 = yes;
# # Doesn't build on latest tag, not used in neptune hardware (?)
# SND_SOC_CS35L36 = no;
# })
(with lib.kernel; {
# SD card reader
MMC = lib.mkForce no;
KERNEL_XZ = lib.mkForce yes;
# Internal storage
# BLK_DEV_NVME = yes; /* deps: */ PCI = yes;
# USB interface
# USB = yes;
# USB_DWC3 = yes;
# #USB_DWC3_GADGET = yes;
# USB_DWC3_HOST = yes;
# # USB_DWC3_DUAL_ROLE = yes;
# # NOP_USB_XCEIV = yes;
# USB_PHY = yes;
#
# # Keyboard input
# USB_HIDDEV = yes;
# HID_PID = yes;
# USB_XHCI_HCD = yes;
#
# TYPEC = yes;
# TYPEC_TCPM = yes;
#
# #TYPEC_FUSB302 = yes;
# #I2C = yes;
#
# PCIEPORTBUS = yes;
# HOTPLUG_PCI_PCIE = yes;
# PCI_MSI = yes;
# HOTPLUG_PCI = yes;
# HOTPLUG_PCI_ACPI = yes;
# ACPI_PCI_SLOT = yes;
#
# # Unlikely:
# PCIE_DW = yes;
# PCIE_DW_HOST = yes;
# PCIE_DW_PLAT = yes;
# PCIE_DW_PLAT_HOST = yes;
})
];
};
}

File diff suppressed because it is too large Load Diff

@ -0,0 +1,179 @@
{ lib, ... }:
{
wip.kernel = {
structuredConfig = lib.mkMerge [
# Slim down config somewhat
# TODO: move into more general options
(with lib.kernel; {
NET = no;
ETHERNET = no;
NETFILTER = no;
BPFILTER = no;
USB_NET_DRIVERS = no;
WIRELESS = no;
WIREGUARD = no;
BT = no;
WLAN = no;
NETDEVICES = no;
MMC = no;
INET = no; # No TCP/IP networking
ETHTOOL_NETLINK = no;
SERIO = no;
LEGACY_PTYS = no;
HW_RANDOM = no;
SND = no;
IKHEADERS = no;
CRYPTO_DEFLATE = no;
CRYPTO_842 = no;
CRYPTO_LZ4 = no;
CRYPTO_LZ4HC = no;
CRYPTO_ZSTD = no;
# It's an AMD!
PROCESSOR_SELECT = yes; /* deps: */ EXPERT = yes;
CPU_SUP_AMD = no;
CPU_SUP_CENTAUR = no;
CPU_SUP_HYGON = no;
CPU_SUP_INTEL = yes;
CPU_SUP_ZHAOXIN = no;
})
(with lib.kernel; {
# Relying on efifb is better for this specific use case
DRM = no;
})
(with lib.kernel; {
DEBUG_FS = no;
BLK_DEBUG_FS = no;
AFFS_FS = no;
AUTOFS4_FS = no;
AUTOFS_FS = no;
BEFS_FS = no;
BTRFS_FS = no;
ECRYPT_FS = no;
EFIVAR_FS = no;
EROFS_FS = no;
EXFAT_FS = no;
EXT2_FS = no;
EXT4_FS = no;
F2FS_FS = no;
FAT_FS = no;
FSCACHE = no;
FUSE_FS = no;
GFS2_FS = no;
HFS_FS = no;
HFSPLUS_FS = no;
ISO9660_FS = no;
JFFS2_FS = no;
JFS_FS = no;
MINIX_FS = no;
MSDOS_FS = no;
NILFS2_FS = no;
OMFS_FS = no;
ORANGEFS_FS = no;
OVERLAY_FS = no;
REISERFS_FS = no;
ROMFS_FS = no;
UBIFS_FS = no;
UDF_FS = no;
UFS_FS = no;
VBOXSF_FS = no;
VFAT_FS = no;
VIRTIO_FS = no;
XFS_FS = no;
ZONEFS_FS = no;
ZONE_FS = no;
CONFIGFS_FS = no;
BINFMT_SCRIPT = no;
BINFMT_ELF = no;
KERNFS = no;
SYSFS = no;
PROCFS = no;
PROC_KCORE = no;
PROC_SYSCTL = no;
PROC_PAGE_MONITOR = no;
PROC_CHILDREN = no;
# PERF_EVENTS = no;
TRACING = no;
IO_URING = no;
UPROBE_EVENTS = no;
})
(with lib.kernel; {
SYSVIPC = no;
POSIX_MQUEUE = no;
NO_HZ = no;
HIGH_RES_TIMERS = no;
PREEMPT_VOLUNTARY = no;
CC_OPTIMIZE_FOR_SIZE = yes;
JUMP_LABEL = no;
NET = no;
PACKET = no;
PACKET_DIAG = no;
UNIX = no;
UNIX_DIAG = no;
#INPUT_EVDEV = yes;
#INPUT_TOUCHSCREEN = yes;
#LOGO = yes;
NEW_LEDS = no;
LEDS_CLASS = no;
RTC_CLASS = no;
CONSOLE_LOGLEVEL_DEFAULT = freeform "3";
FRAME_WARN = freeform "1024";
MAGIC_SYSRQ = no;
# DEBUG_FS = yes;
STACKTRACE = no;
STACKPROTECTOR = no;
GCC_PLUGINS = no;
WIRELESS = no;
INPUT_MOUSEDEV = no;
RTC_INTF_PROC = no;
})
# Disabling generally unneeded things
(with lib.kernel; {
MEDIA_SUBDRV_AUTOSELECT = no;
NETWORK_FILESYSTEMS = no;
RAID6_PQ_BENCHMARK = no;
RUNTIME_TESTING_MENU = no;
STRICT_DEVMEM = no;
REMOTEPROC = no;
RPMSG = no;
VHOST_MENU = no;
VIRTIO = no;
I2C_VIRTIO = no;
VIRTIO_CONSOLE = no;
VIRTIO_MENU = no;
})
(with lib.kernel; {
#MODULES_TREE_LOOKUP = no;
#PERF_EVENTS = no;
})
(with lib.kernel; {
HID_A4TECH = no;
HID_APPLE = no;
HID_BELKIN = no;
HID_CHERRY = no;
HID_CHICONY = no;
HID_CYPRESS = no;
HID_EZKEY = no;
HID_ITE = no;
HID_KENSINGTON = no;
HID_LOGITECH = no;
HID_REDRAGON = no;
HID_MICROSOFT = no;
HID_MONTEREY = no;
INPUT_MOUSE = no;
KEYBOARD_ATKBD = no;
})
];
};
}
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