openwrt/scripts/target-metadata.pl

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#!/usr/bin/env perl
use FindBin;
use lib "$FindBin::Bin";
use strict;
use metadata;
use Getopt::Long;
sub target_config_features(@) {
my $ret;
while ($_ = shift @_) {
/^arm_v(\w+)$/ and $ret .= "\tselect arm_v$1\n";
/^audio$/ and $ret .= "\tselect AUDIO_SUPPORT\n";
/^boot-part$/ and $ret .= "\tselect USES_BOOT_PART\n";
/^broken$/ and $ret .= "\tdepends on BROKEN\n";
/^cpiogz$/ and $ret .= "\tselect USES_CPIOGZ\n";
/^display$/ and $ret .= "\tselect DISPLAY_SUPPORT\n";
/^dt$/ and $ret .= "\tselect USES_DEVICETREE\n";
/^dt-overlay$/ and $ret .= "\tselect HAS_DT_OVERLAY_SUPPORT\n";
/^emmc$/ and $ret .= "\tselect EMMC_SUPPORT\n";
/^ext4$/ and $ret .= "\tselect USES_EXT4\n";
/^fpu$/ and $ret .= "\tselect HAS_FPU\n";
/^gpio$/ and $ret .= "\tselect GPIO_SUPPORT\n";
/^jffs2$/ and $ret .= "\tselect USES_JFFS2\n";
/^jffs2_nand$/ and $ret .= "\tselect USES_JFFS2_NAND\n";
base-files: rename 'sdcard' to 'legacy-sdcard' While an image layout based on MBR and 'bootfs' partition may be easy to understand for users who are very used to the IBM PC and always have the option to access the SD card outside of the device (and hence don't really depend on other recovery methods or dual-boot), in my opinion it's a dead end for many desirable features on embedded systems, especially when managed remotely (and hence without an easy option to access the SD card using another device in case things go wrong, for example). Let me explain: * using a MSDOS/VFAT filesystem to store kernel(s) is problematic, as a single corruption of the bootfs can render the system into a state that it no longer boots at all. This makes dual-boot useless, or at least very tedious to setup with then 2 independent boot partitions to avoid the single point of failure on a "hot" block (the FAT index of the boot partition, written every time a file is changed in bootfs). And well: most targets even store the bootloader environment in a file in that very same FAT filesystem, hence it cannot be used to script a reliable dual-boot method (as loading the environment itself will already fail if the filesystem is corrupted). * loading the kernel uImage from bootfs and using rootfs inside an additional partition means the bootloader can only validate the kernel -- if rootfs is broken or corrupted, this can lead to a reboot loop, which is often a quite costly thing to happen in terms of hardware lifetime. * imitating MBR-boot behavior with a FAT-formatted bootfs partition (like IBM PC in the 80s and 90s) is just one of many choices on embedded targets. There are much better options with modern U-Boot (which is what we use and build from source for all targets booting off SD cards), see examples in mediatek/mt7622 and mediatek/mt7623. Hence rename the 'sdcard' feature to 'legacy-sdcard', and prefix functions with 'legacy_sdcard_' instead of 'sdcard_'. Tested-by: Stijn Tintel <stijn@linux-ipv6.be> Signed-off-by: Daniel Golle <daniel@makrotopia.org>
2021-08-07 13:30:53 +00:00
/^legacy-sdcard$/ and $ret .= "\tselect LEGACY_SDCARD_SUPPORT\n";
/^low_mem$/ and $ret .= "\tselect LOW_MEMORY_FOOTPRINT\n";
/^minor$/ and $ret .= "\tselect USES_MINOR\n";
/^mips16$/ and $ret .= "\tselect HAS_MIPS16\n";
/^nand$/ and $ret .= "\tselect NAND_SUPPORT\n";
/^nommu$/ and $ret .= "\tselect NOMMU\n";
/^pci$/ and $ret .= "\tselect PCI_SUPPORT\n";
/^pcie$/ and $ret .= "\tselect PCIE_SUPPORT\n";
/^pcmcia$/ and $ret .= "\tselect PCMCIA_SUPPORT\n";
/^powerpc64$/ and $ret .= "\tselect powerpc64\n";
/^pwm$/ and $ret .= "\select PWM_SUPPORT\n";
/^ramdisk$/ and $ret .= "\tselect USES_INITRAMFS\n";
/^rfkill$/ and $ret .= "\tselect RFKILL_SUPPORT\n";
/^rootfs-part$/ and $ret .= "\tselect USES_ROOTFS_PART\n";
/^rtc$/ and $ret .= "\tselect RTC_SUPPORT\n";
/^separate_ramdisk$/ and $ret .= "\tselect USES_INITRAMFS\n\tselect USES_SEPARATE_INITRAMFS\n";
/^small_flash$/ and $ret .= "\tselect SMALL_FLASH\n";
/^spe_fpu$/ and $ret .= "\tselect HAS_SPE_FPU\n";
/^squashfs$/ and $ret .= "\tselect USES_SQUASHFS\n";
/^targz$/ and $ret .= "\tselect USES_TARGZ\n";
/^testing-kernel$/ and $ret .= "\tselect HAS_TESTING_KERNEL\n";
/^ubifs$/ and $ret .= "\tselect USES_UBIFS\n";
/^usb$/ and $ret .= "\tselect USB_SUPPORT\n";
/^usbgadget$/ and $ret .= "\tselect USB_GADGET_SUPPORT\n";
/^virtio$/ and $ret .= "\tselect VIRTIO_SUPPORT\n";
}
return $ret;
}
sub target_name($) {
my $target = shift;
my $parent = $target->{parent};
if ($parent) {
return $target->{parent}->{name}." - ".$target->{name};
} else {
return $target->{name};
}
}
sub kver($) {
my $v = shift;
$v =~ tr/\./_/;
if (substr($v,0,2) eq "2_") {
$v =~ /(\d+_\d+_\d+)(_\d+)?/ and $v = $1;
} else {
$v =~ /(\d+_\d+)(_\d+)?/ and $v = $1;
}
return $v;
}
sub print_target($) {
my $target = shift;
my $features = target_config_features(@{$target->{features}});
my $help = $target->{desc};
my $confstr;
chomp $features;
$features .= "\n";
if ($help =~ /\w+/) {
$help =~ s/^\s*/\t /mg;
$help = "\thelp\n$help";
} else {
undef $help;
}
my $v = kver($target->{version});
my $tv = kver($target->{testing_version});
$tv or $tv = $v;
if (@{$target->{subtargets}} == 0) {
$confstr = <<EOF;
config TARGET_$target->{conf}
bool "$target->{name}"
select LINUX_$v if !TESTING_KERNEL
select LINUX_$tv if TESTING_KERNEL
EOF
}
else {
$confstr = <<EOF;
config TARGET_$target->{conf}
bool "$target->{name}"
EOF
}
if ($target->{subtarget}) {
$confstr .= "\tdepends on TARGET_$target->{boardconf}\n";
}
if (@{$target->{subtargets}} > 0) {
$confstr .= "\tselect HAS_SUBTARGETS\n";
grep { /broken/ } @{$target->{features}} and $confstr .= "\tdepends on BROKEN\n";
} else {
$confstr .= $features;
if ($target->{arch} =~ /\w/) {
$confstr .= "\tselect $target->{arch}\n";
}
if ($target->{has_devices}) {
$confstr .= "\tselect HAS_DEVICES\n";
}
}
foreach my $dep (@{$target->{depends}}) {
my $mode = "depends on";
my $flags;
my $name;
$dep =~ /^([@\+\-]+)(.+)$/;
$flags = $1;
$name = $2;
next if $name =~ /:/;
$flags =~ /-/ and $mode = "deselect";
$flags =~ /\+/ and $mode = "select";
$flags =~ /@/ and $confstr .= "\t$mode $name\n";
}
$confstr .= "$help\n\n";
print $confstr;
}
sub merge_package_lists($$) {
my $list1 = shift;
my $list2 = shift;
my @l = ();
my %pkgs;
foreach my $pkg (@$list1, @$list2) {
$pkgs{$pkg} = 1;
}
foreach my $pkg (keys %pkgs) {
push @l, $pkg unless ($pkg =~ /^-/ or $pkgs{"-$pkg"});
}
return sort(@l);
}
sub gen_target_config() {
my $file = shift @ARGV;
my @target = parse_target_metadata($file);
my %defaults;
my @target_sort = sort {
target_name($a) cmp target_name($b);
} @target;
foreach my $target (@target_sort) {
next if @{$target->{subtargets}} > 0;
print <<EOF;
config DEFAULT_TARGET_$target->{conf}
bool
depends on TARGET_PER_DEVICE_ROOTFS
default y if TARGET_$target->{conf}
EOF
foreach my $pkg (@{$target->{packages}}) {
print "\tselect DEFAULT_$pkg if TARGET_PER_DEVICE_ROOTFS\n";
}
}
print <<EOF;
choice
prompt "Target System"
default TARGET_ath79
reset if !DEVEL
EOF
foreach my $target (@target_sort) {
next if $target->{subtarget};
print_target($target);
}
print <<EOF;
endchoice
choice
prompt "Subtarget" if HAS_SUBTARGETS
EOF
foreach my $target (@target) {
next unless $target->{def_subtarget};
print <<EOF;
default TARGET_$target->{conf}_$target->{def_subtarget} if TARGET_$target->{conf}
EOF
}
print <<EOF;
EOF
foreach my $target (@target) {
next unless $target->{subtarget};
print_target($target);
}
print <<EOF;
endchoice
choice
prompt "Target Profile"
default TARGET_MULTI_PROFILE if BUILDBOT
EOF
foreach my $target (@target) {
my $profile = $target->{profiles}->[0];
$profile or next;
print <<EOF;
default TARGET_$target->{conf}_$profile->{id} if TARGET_$target->{conf} && !BUILDBOT
EOF
}
print <<EOF;
config TARGET_MULTI_PROFILE
bool "Multiple devices"
depends on HAS_DEVICES
help
Instead of only building a single image, or all images, this allows you
to select images to be built for multiple devices in one build.
EOF
foreach my $target (@target) {
my $profiles = $target->{profiles};
foreach my $profile (@{$target->{profiles}}) {
print <<EOF;
config TARGET_$target->{conf}_$profile->{id}
bool "$profile->{name}"
depends on TARGET_$target->{conf}
EOF
$profile->{broken} and print "\tdepends on BROKEN\n";
my @pkglist = merge_package_lists($target->{packages}, $profile->{packages});
foreach my $pkg (@pkglist) {
print "\tselect DEFAULT_$pkg\n";
$defaults{$pkg} = 1;
}
my $help = $profile->{desc};
if ($help =~ /\w+/) {
$help =~ s/^\s*/\t /mg;
$help = "\thelp\n$help";
} else {
undef $help;
}
print "$help\n";
}
}
print <<EOF;
endchoice
menu "Target Devices"
depends on TARGET_MULTI_PROFILE
config TARGET_ALL_PROFILES
bool "Enable all profiles by default"
default BUILDBOT
config TARGET_PER_DEVICE_ROOTFS
bool "Use a per-device root filesystem that adds profile packages"
default BUILDBOT
help
When disabled, all device packages from all selected devices
will be included in all images by default. (Marked as <*>) You will
still be able to manually deselect any/all packages.
When enabled, each device builds it's own image, including only the
profile packages for that device. (Marked as {M}) You will be able
to change a package to included in all images by marking as {*}, but
will not be able to disable a profile package completely.
To get the most use of this setting, you must set in a .config stub
before calling "make defconfig". Selecting TARGET_MULTI_PROFILE and
then manually selecting (via menuconfig for instance) this option
will have pre-defaulted all profile packages to included, making this
option appear to have had no effect.
EOF
foreach my $target (@target) {
my @profiles = sort {
my $x = $a->{name};
my $y = $b->{name};
"\L$x" cmp "\L$y";
} @{$target->{profiles}};
foreach my $profile (@profiles) {
next unless $profile->{id} =~ /^DEVICE_/;
print <<EOF;
menuconfig TARGET_DEVICE_$target->{conf}_$profile->{id}
bool "$profile->{name}"
depends on TARGET_$target->{conf}
default $profile->{default}
EOF
$profile->{broken} and print "\tdepends on BROKEN\n";
my @pkglist = merge_package_lists($target->{packages}, $profile->{packages});
foreach my $pkg (@pkglist) {
print "\tselect DEFAULT_$pkg if !TARGET_PER_DEVICE_ROOTFS\n";
print "\tselect MODULE_DEFAULT_$pkg if TARGET_PER_DEVICE_ROOTFS\n";
$defaults{$pkg} = 1;
}
print <<EOF;
config TARGET_DEVICE_PACKAGES_$target->{conf}_$profile->{id}
string "$profile->{name} additional packages"
default ""
depends on TARGET_PER_DEVICE_ROOTFS
depends on TARGET_DEVICE_$target->{conf}_$profile->{id}
EOF
}
}
print <<EOF;
endmenu
config HAS_SUBTARGETS
bool
config HAS_DEVICES
bool
config TARGET_BOARD
string
EOF
foreach my $target (@target) {
$target->{subtarget} or print "\t\tdefault \"".$target->{board}."\" if TARGET_".$target->{conf}."\n";
}
print <<EOF;
config TARGET_SUBTARGET
string
default "generic" if !HAS_SUBTARGETS
EOF
foreach my $target (@target) {
foreach my $subtarget (@{$target->{subtargets}}) {
print "\t\tdefault \"$subtarget\" if TARGET_".$target->{conf}."_$subtarget\n";
}
}
print <<EOF;
config TARGET_PROFILE
string
EOF
foreach my $target (@target) {
my $profiles = $target->{profiles};
foreach my $profile (@$profiles) {
print "\tdefault \"$profile->{id}\" if TARGET_$target->{conf}_$profile->{id}\n";
}
}
print <<EOF;
config TARGET_ARCH_PACKAGES
string
EOF
foreach my $target (@target) {
next if @{$target->{subtargets}} > 0;
print "\t\tdefault \"".($target->{arch_packages} || $target->{board})."\" if TARGET_".$target->{conf}."\n";
}
print <<EOF;
config DEFAULT_TARGET_OPTIMIZATION
string
EOF
foreach my $target (@target) {
next if @{$target->{subtargets}} > 0;
print "\tdefault \"".$target->{cflags}."\" if TARGET_".$target->{conf}."\n";
}
print "\tdefault \"-Os -pipe -funit-at-a-time\"\n";
print <<EOF;
config CPU_TYPE
string
EOF
foreach my $target (@target) {
next if @{$target->{subtargets}} > 0;
print "\tdefault \"".$target->{cputype}."\" if TARGET_".$target->{conf}."\n";
}
print "\tdefault \"\"\n";
my %kver;
foreach my $target (@target) {
foreach my $tv ($target->{version}, $target->{testing_version}) {
next unless $tv;
my $v = kver($tv);
next if $kver{$v};
$kver{$v} = 1;
print <<EOF;
config LINUX_$v
bool
EOF
}
}
foreach my $def (sort keys %defaults) {
print <<EOF;
config DEFAULT_$def
bool
config MODULE_DEFAULT_$def
tristate
depends on TARGET_PER_DEVICE_ROOTFS
depends on m
default m if DEFAULT_$def
select PACKAGE_$def
EOF
}
}
sub gen_profile_mk() {
my $file = shift @ARGV;
my $target = shift @ARGV;
my @targets = parse_target_metadata($file);
foreach my $cur (@targets) {
next unless $cur->{id} eq $target;
my @profile_ids_unique = do { my %seen; grep { !$seen{$_}++} map { $_->{id} } @{$cur->{profiles}}};
print "PROFILE_NAMES = ".join(" ", @profile_ids_unique)."\n";
foreach my $profile (@{$cur->{profiles}}) {
print $profile->{id}.'_NAME:='.$profile->{name}."\n";
print $profile->{id}.'_HAS_IMAGE_METADATA:='.$profile->{has_image_metadata}."\n";
if (defined($profile->{supported_devices}) and @{$profile->{supported_devices}} > 0) {
print $profile->{id}.'_SUPPORTED_DEVICES:='.join(' ', @{$profile->{supported_devices}})."\n";
}
print $profile->{id}.'_PACKAGES:='.join(' ', @{$profile->{packages}})."\n";
}
}
}
sub parse_command() {
GetOptions("ignore=s", \@ignore);
my $cmd = shift @ARGV;
for ($cmd) {
/^config$/ and return gen_target_config();
/^profile_mk$/ and return gen_profile_mk();
}
die <<EOF
Available Commands:
$0 config [file] Target metadata in Kconfig format
$0 profile_mk [file] [target] Profile metadata in makefile format
EOF
}
parse_command();