edk2: replace build scripts

Remove Makefile.edk2 and the edk2*.sh scripts and replace them
with a python script (which already handles fedora rpm builds)
and a config file for it.

Signed-off-by: Gerd Hoffmann <kraxel@redhat.com>
This commit is contained in:
Gerd Hoffmann 2023-03-09 11:21:27 +01:00
parent 9e8a55aa78
commit 22e11539e1
6 changed files with 511 additions and 528 deletions

View File

@ -126,25 +126,6 @@ build-efi-roms: build-pxe-roms
CROSS_COMPILE=$(x86_64_cross_prefix) \
$(patsubst %,bin-x86_64-efi/%.efidrv,$(pxerom_targets))
# Build scripts can pass compiler/linker flags to the EDK2
# build tools via the EDK2_BASETOOLS_OPTFLAGS (CFLAGS) and
# EDK2_BASETOOLS_LDFLAGS (LDFLAGS) environment variables.
#
# Example:
#
# make -C roms \
# EDK2_BASETOOLS_OPTFLAGS='...' \
# EDK2_BASETOOLS_LDFLAGS='...' \
# efirom
#
edk2-basetools:
cd edk2/BaseTools && git submodule update --init --force \
Source/C/BrotliCompress/brotli
$(MAKE) -C edk2/BaseTools \
PYTHON_COMMAND=$${EDK2_PYTHON_COMMAND:-python3} \
EXTRA_OPTFLAGS='$(EDK2_BASETOOLS_OPTFLAGS)' \
EXTRA_LDFLAGS='$(EDK2_BASETOOLS_LDFLAGS)'
slof:
$(MAKE) -C SLOF CROSS=$(powerpc64_cross_prefix) qemu
cp SLOF/boot_rom.bin ../pc-bios/slof.bin
@ -165,8 +146,12 @@ skiboot:
$(MAKE) -C skiboot CROSS=$(powerpc64_cross_prefix)
cp skiboot/skiboot.lid ../pc-bios/skiboot.lid
efi: edk2-basetools
$(MAKE) -f Makefile.edk2
efi:
python3 edk2-build.py --config edk2-build.config \
--version-override "edk2-stable202302-for-qemu" \
--release-date "03/01/2023"
rm -f ../pc-bios/edk2-*.fd.bz2
bzip2 --verbose ../pc-bios/edk2-*.fd
opensbi32-generic:
$(MAKE) -C opensbi \
@ -200,7 +185,7 @@ clean:
rm -rf u-boot/build-e500
$(MAKE) -C u-boot-sam460ex distclean
$(MAKE) -C skiboot clean
$(MAKE) -f Makefile.edk2 clean
rm -rf Build
$(MAKE) -C opensbi clean
$(MAKE) -C qboot clean
$(MAKE) -C vbootrom clean

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@ -1,178 +0,0 @@
# Makefile for building firmware binaries and variable store templates for a
# number of virtual platforms in edk2.
#
# Copyright (C) 2019 Red Hat, Inc.
#
# This program and the accompanying materials are licensed and made available
# under the terms and conditions of the BSD License that accompanies this
# distribution. The full text of the license may be found at
# <http://opensource.org/licenses/bsd-license.php>.
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT
# WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
SHELL = /bin/bash
target = RELEASE
toolchain = $(shell source ./edk2-funcs.sh && qemu_edk2_get_toolchain $(1))
licenses := \
edk2/License.txt \
edk2/License-History.txt \
edk2/OvmfPkg/License.txt \
edk2/ArmPkg/Library/ArmSoftFloatLib/berkeley-softfloat-3/COPYING.txt \
edk2/CryptoPkg/Library/OpensslLib/openssl/LICENSE
# The "edk2-arm-vars.fd" varstore template is suitable for aarch64 as well.
# Similarly, the "edk2-i386-vars.fd" varstore template is suitable for x86_64
# as well, independently of "secure" too.
flashdevs := \
aarch64-code \
arm-code \
i386-code \
i386-secure-code \
x86_64-code \
x86_64-secure-code \
x86_64-microvm \
\
arm-vars \
i386-vars
all: $(foreach flashdev,$(flashdevs),../pc-bios/edk2-$(flashdev).fd.bz2) \
../pc-bios/edk2-licenses.txt
../pc-bios/edk2-%.fd.bz2: ../pc-bios/edk2-%.fd
bzip2 -9 -c $< > $@
# When the build completes, we need not keep the uncompressed flash device
# files.
.INTERMEDIATE: $(foreach flashdev,$(flashdevs),../pc-bios/edk2-$(flashdev).fd)
# Fetch edk2 submodule's submodules. If it is not in a git tree, assume
# we're building from a tarball and that they've already been fetched by
# make-release/tarball scripts.
submodules:
if test -e edk2/.git; then \
cd edk2 && git submodule update --init --force -- \
ArmPkg/Library/ArmSoftFloatLib/berkeley-softfloat-3 \
BaseTools/Source/C/BrotliCompress/brotli \
CryptoPkg/Library/OpensslLib/openssl \
MdeModulePkg/Library/BrotliCustomDecompressLib/brotli \
; \
fi
# See notes on the ".NOTPARALLEL" target and the "+" indicator in
# "tests/uefi-test-tools/Makefile".
.NOTPARALLEL:
../pc-bios/edk2-aarch64-code.fd: submodules
+./edk2-build.sh \
aarch64 \
--arch=AARCH64 \
--platform=ArmVirtPkg/ArmVirtQemu.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE \
-D TPM2_ENABLE \
-D TPM2_CONFIG_ENABLE
cp edk2/Build/ArmVirtQemu-AARCH64/$(target)_$(call toolchain,aarch64)/FV/QEMU_EFI.fd \
$@
truncate --size=64M $@
../pc-bios/edk2-arm-code.fd: submodules
+./edk2-build.sh \
arm \
--arch=ARM \
--platform=ArmVirtPkg/ArmVirtQemu.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE \
-D TPM2_ENABLE \
-D TPM2_CONFIG_ENABLE
cp edk2/Build/ArmVirtQemu-ARM/$(target)_$(call toolchain,arm)/FV/QEMU_EFI.fd \
$@
truncate --size=64M $@
../pc-bios/edk2-i386-code.fd: submodules
+./edk2-build.sh \
i386 \
--arch=IA32 \
--platform=OvmfPkg/OvmfPkgIa32.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE \
-D TPM_ENABLE \
-D TPM_CONFIG_ENABLE
cp edk2/Build/OvmfIa32/$(target)_$(call toolchain,i386)/FV/OVMF_CODE.fd $@
../pc-bios/edk2-i386-secure-code.fd: submodules
+./edk2-build.sh \
i386 \
--arch=IA32 \
--platform=OvmfPkg/OvmfPkgIa32.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE \
-D TPM_ENABLE \
-D TPM_CONFIG_ENABLE \
-D SECURE_BOOT_ENABLE \
-D SMM_REQUIRE
cp edk2/Build/OvmfIa32/$(target)_$(call toolchain,i386)/FV/OVMF_CODE.fd $@
../pc-bios/edk2-x86_64-code.fd: submodules
+./edk2-build.sh \
x86_64 \
--arch=X64 \
--platform=OvmfPkg/OvmfPkgX64.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE \
-D TPM_ENABLE \
-D TPM_CONFIG_ENABLE
cp edk2/Build/OvmfX64/$(target)_$(call toolchain,x86_64)/FV/OVMF_CODE.fd $@
../pc-bios/edk2-x86_64-secure-code.fd: submodules
+./edk2-build.sh \
x86_64 \
--arch=IA32 \
--arch=X64 \
--platform=OvmfPkg/OvmfPkgIa32X64.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE \
-D TPM_ENABLE \
-D TPM_CONFIG_ENABLE \
-D SECURE_BOOT_ENABLE \
-D SMM_REQUIRE
cp edk2/Build/Ovmf3264/$(target)_$(call toolchain,x86_64)/FV/OVMF_CODE.fd $@
../pc-bios/edk2-x86_64-microvm.fd: submodules
+./edk2-build.sh \
x86_64 \
--arch=X64 \
--platform=OvmfPkg/Microvm/MicrovmX64.dsc \
-D NETWORK_IP6_ENABLE \
-D NETWORK_HTTP_BOOT_ENABLE \
-D NETWORK_TLS_ENABLE
cp edk2/Build/MicrovmX64/$(target)_$(call toolchain,x86_64)/FV/MICROVM.fd $@
../pc-bios/edk2-arm-vars.fd: ../pc-bios/edk2-arm-code.fd
cp edk2/Build/ArmVirtQemu-ARM/$(target)_$(call toolchain,arm)/FV/QEMU_VARS.fd \
$@
truncate --size=64M $@
../pc-bios/edk2-i386-vars.fd: ../pc-bios/edk2-i386-code.fd
cp edk2/Build/OvmfIa32/$(target)_$(call toolchain,i386)/FV/OVMF_VARS.fd $@
# The license file accumulates several individual licenses from under edk2,
# prefixing each individual license with a header (generated by "tail") that
# states its pathname.
../pc-bios/edk2-licenses.txt: submodules
tail -n $(shell cat $(licenses) | wc -l) $(licenses) > $@
dos2unix $@
clean:
rm -rf edk2/Build
cd edk2/Conf && \
rm -rf .cache BuildEnv.sh build_rule.txt target.txt \
tools_def.txt

124
roms/edk2-build.config Normal file
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@ -0,0 +1,124 @@
[global]
core = edk2
####################################################################################
# options
[opts.common]
NETWORK_HTTP_BOOT_ENABLE = TRUE
NETWORK_IP6_ENABLE = TRUE
NETWORK_TLS_ENABLE = TRUE
NETWORK_ISCSI_ENABLE = TRUE
NETWORK_ALLOW_HTTP_CONNECTIONS = TRUE
TPM2_ENABLE = TRUE
TPM2_CONFIG_ENABLE = TRUE
TPM1_ENABLE = TRUE
CAVIUM_ERRATUM_27456 = TRUE
[opts.ovmf.sb.smm]
SECURE_BOOT_ENABLE = TRUE
SMM_REQUIRE = TRUE
[opts.armvirt.silent]
DEBUG_PRINT_ERROR_LEVEL = 0x80000000
[pcds.nx.broken.grub]
# grub.efi uses EfiLoaderData for code
PcdDxeNxMemoryProtectionPolicy = 0xC000000000007FD1
####################################################################################
# i386
[build.ovmf.i386]
desc = ovmf build (32-bit)
conf = OvmfPkg/OvmfPkgIa32.dsc
arch = IA32
opts = common
plat = OvmfIa32
dest = ../pc-bios
cpy1 = FV/OVMF_CODE.fd edk2-i386-code.fd
cpy2 = FV/OVMF_VARS.fd edk2-i386-vars.fd
[build.ovmf.i386.secure]
desc = ovmf build (32-bit, secure boot)
conf = OvmfPkg/OvmfPkgIa32.dsc
arch = IA32
opts = common
ovmf.sb.smm
plat = OvmfIa32
dest = ../pc-bios
cpy1 = FV/OVMF_CODE.fd edk2-i386-secure-code.fd
####################################################################################
# x86_64
[build.ovmf.x86_64]
desc = ovmf build (64-bit)
conf = OvmfPkg/OvmfPkgX64.dsc
arch = X64
opts = common
plat = OvmfX64
dest = ../pc-bios
cpy1 = FV/OVMF_CODE.fd edk2-x86_64-code.fd
[build.ovmf.x86_64.secure]
desc = ovmf build (64-bit, secure boot)
conf = OvmfPkg/OvmfPkgIa32X64.dsc
arch = IA32 X64
opts = common
ovmf.sb.smm
plat = Ovmf3264
dest = ../pc-bios
cpy1 = FV/OVMF_CODE.fd edk2-x86_64-secure-code.fd
[build.ovmf.microvm]
desc = ovmf build for microvm
conf = OvmfPkg/Microvm/MicrovmX64.dsc
arch = X64
opts = common
plat = MicrovmX64
dest = ../pc-bios
cpy1 = FV/MICROVM.fd edk2-x86_64-microvm.fd
####################################################################################
# arm
[build.armvirt.arm]
desc = ArmVirt build, 32-bit (arm v7)
conf = ArmVirtPkg/ArmVirtQemu.dsc
arch = ARM
opts = common
armvirt.silent
pcds = nx.broken.grub
plat = ArmVirtQemu-ARM
dest = ../pc-bios
cpy1 = FV/QEMU_EFI.fd edk2-arm-code.fd
cpy2 = FV/QEMU_VARS.fd edk2-arm-vars.fd
pad1 = edk2-arm-code.fd 64m
pad2 = edk2-arm-vars.fd 64m
####################################################################################
# aarch64
[build.armvirt.aa64]
desc = ArmVirt build, 64-bit (arm v8)
conf = ArmVirtPkg/ArmVirtQemu.dsc
arch = AARCH64
opts = common
armvirt.silent
pcds = nx.broken.grub
plat = ArmVirtQemu-AARCH64
dest = ../pc-bios
cpy1 = FV/QEMU_EFI.fd edk2-aarch64-code.fd
pad1 = edk2-aarch64-code.fd 64m
####################################################################################
# riscv64
[build.riscv.qemu]
conf = OvmfPkg/RiscVVirt/RiscVVirtQemu.dsc
arch = RISCV64
plat = RiscVVirtQemu
dest = ../pc-bios
cpy1 = FV/RISCV_VIRT.fd edk2-riscv.fd
pad1 = edk2-riscv.fd 32m

380
roms/edk2-build.py Executable file
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@ -0,0 +1,380 @@
#!/usr/bin/python3
"""
build helper script for edk2, see
https://gitlab.com/kraxel/edk2-build-config
"""
import os
import sys
import shutil
import argparse
import subprocess
import configparser
rebase_prefix = ""
version_override = None
release_date = None
# pylint: disable=unused-variable
def check_rebase():
""" detect 'git rebase -x edk2-build.py master' testbuilds """
global rebase_prefix
global version_override
gitdir = '.git'
if os.path.isfile(gitdir):
with open(gitdir, 'r', encoding = 'utf-8') as f:
(unused, gitdir) = f.read().split()
if not os.path.exists(f'{gitdir}/rebase-merge/msgnum'):
return
with open(f'{gitdir}/rebase-merge/msgnum', 'r', encoding = 'utf-8') as f:
msgnum = int(f.read())
with open(f'{gitdir}/rebase-merge/end', 'r', encoding = 'utf-8') as f:
end = int(f.read())
with open(f'{gitdir}/rebase-merge/head-name', 'r', encoding = 'utf-8') as f:
head = f.read().strip().split('/')
rebase_prefix = f'[ {int(msgnum/2)} / {int(end/2)} - {head[-1]} ] '
if msgnum != end and not version_override:
# fixed version speeds up builds
version_override = "test-build-patch-series"
def get_coredir(cfg):
if cfg.has_option('global', 'core'):
return os.path.abspath(cfg['global']['core'])
return os.getcwd()
def get_version(cfg):
coredir = get_coredir(cfg)
if version_override:
version = version_override
print('')
print(f'### version [override]: {version}')
return version
if os.environ.get('RPM_PACKAGE_NAME'):
version = os.environ.get('RPM_PACKAGE_NAME')
version += '-' + os.environ.get('RPM_PACKAGE_VERSION')
version += '-' + os.environ.get('RPM_PACKAGE_RELEASE')
print('')
print(f'### version [rpmbuild]: {version}')
return version
if os.path.exists(coredir + '/.git'):
cmdline = [ 'git', 'describe', '--tags', '--abbrev=8',
'--match=edk2-stable*' ]
result = subprocess.run(cmdline, cwd = coredir,
stdout = subprocess.PIPE,
check = True)
version = result.stdout.decode().strip()
print('')
print(f'### version [git]: {version}')
return version
return None
def pcd_string(name, value):
return f'{name}=L{value}\\0'
def pcd_version(cfg):
version = get_version(cfg)
if version is None:
return []
return [ '--pcd', pcd_string('PcdFirmwareVersionString', version) ]
def pcd_release_date():
if release_date is None:
return []
return [ '--pcd', pcd_string('PcdFirmwareReleaseDateString', release_date) ]
def build_message(line, line2 = None):
if os.environ.get('TERM') in [ 'xterm', 'xterm-256color' ]:
# setxterm title
start = '\x1b]2;'
end = '\x07'
print(f'{start}{rebase_prefix}{line}{end}', end = '')
print('')
print('###')
print(f'### {rebase_prefix}{line}')
if line2:
print(f'### {line2}')
print('###', flush = True)
def build_run(cmdline, name, section, silent = False):
print(cmdline, flush = True)
if silent:
print('### building in silent mode ...', flush = True)
result = subprocess.run(cmdline, check = False,
stdout = subprocess.PIPE,
stderr = subprocess.STDOUT)
logfile = f'{section}.log'
print(f'### writing log to {logfile} ...')
with open(logfile, 'wb') as f:
f.write(result.stdout)
if result.returncode:
print('### BUILD FAILURE')
print('### output')
print(result.stdout.decode())
print(f'### exit code: {result.returncode}')
else:
print('### OK')
else:
result = subprocess.run(cmdline, check = False)
if result.returncode:
print(f'ERROR: {cmdline[0]} exited with {result.returncode}'
f' while building {name}')
sys.exit(result.returncode)
def build_copy(plat, tgt, dstdir, copy):
srcdir = f'Build/{plat}/{tgt}_GCC5'
names = copy.split()
srcfile = names[0]
if len(names) > 1:
dstfile = names[1]
else:
dstfile = os.path.basename(srcfile)
print(f'# copy: {srcdir} / {srcfile} => {dstdir} / {dstfile}')
src = srcdir + '/' + srcfile
dst = dstdir + '/' + dstfile
os.makedirs(os.path.dirname(dst), exist_ok = True)
shutil.copy(src, dst)
def pad_file(dstdir, pad):
args = pad.split()
if len(args) < 2:
raise RuntimeError(f'missing arg for pad ({args})')
name = args[0]
size = args[1]
cmdline = [
'truncate',
'--size', size,
dstdir + '/' + name,
]
print(f'# padding: {dstdir} / {name} => {size}')
subprocess.run(cmdline, check = True)
# pylint: disable=too-many-branches
def build_one(cfg, build, jobs = None, silent = False):
cmdline = [ 'build' ]
cmdline += [ '-t', 'GCC5' ]
cmdline += [ '-p', cfg[build]['conf'] ]
if (cfg[build]['conf'].startswith('OvmfPkg/') or
cfg[build]['conf'].startswith('ArmVirtPkg/')):
cmdline += pcd_version(cfg)
cmdline += pcd_release_date()
if jobs:
cmdline += [ '-n', jobs ]
for arch in cfg[build]['arch'].split():
cmdline += [ '-a', arch ]
if 'opts' in cfg[build]:
for name in cfg[build]['opts'].split():
section = 'opts.' + name
for opt in cfg[section]:
cmdline += [ '-D', opt + '=' + cfg[section][opt] ]
if 'pcds' in cfg[build]:
for name in cfg[build]['pcds'].split():
section = 'pcds.' + name
for pcd in cfg[section]:
cmdline += [ '--pcd', pcd + '=' + cfg[section][pcd] ]
if 'tgts' in cfg[build]:
tgts = cfg[build]['tgts'].split()
else:
tgts = [ 'DEBUG' ]
for tgt in tgts:
desc = None
if 'desc' in cfg[build]:
desc = cfg[build]['desc']
build_message(f'building: {cfg[build]["conf"]} ({cfg[build]["arch"]}, {tgt})',
f'description: {desc}')
build_run(cmdline + [ '-b', tgt ],
cfg[build]['conf'],
build + '.' + tgt,
silent)
if 'plat' in cfg[build]:
# copy files
for cpy in cfg[build]:
if not cpy.startswith('cpy'):
continue
build_copy(cfg[build]['plat'],
tgt,
cfg[build]['dest'],
cfg[build][cpy])
# pad builds
for pad in cfg[build]:
if not pad.startswith('pad'):
continue
pad_file(cfg[build]['dest'],
cfg[build][pad])
def build_basetools(silent = False):
build_message('building: BaseTools')
basedir = os.environ['EDK_TOOLS_PATH']
cmdline = [ 'make', '-C', basedir ]
build_run(cmdline, 'BaseTools', 'build.basetools', silent)
def binary_exists(name):
for pdir in os.environ['PATH'].split(':'):
if os.path.exists(pdir + '/' + name):
return True
return False
def prepare_env(cfg):
""" mimic Conf/BuildEnv.sh """
workspace = os.getcwd()
packages = [ workspace, ]
path = os.environ['PATH'].split(':')
dirs = [
'BaseTools/Bin/Linux-x86_64',
'BaseTools/BinWrappers/PosixLike'
]
if cfg.has_option('global', 'pkgs'):
for pkgdir in cfg['global']['pkgs'].split():
packages.append(os.path.abspath(pkgdir))
coredir = get_coredir(cfg)
if coredir != workspace:
packages.append(coredir)
# add basetools to path
for pdir in dirs:
p = coredir + '/' + pdir
if not os.path.exists(p):
continue
if p in path:
continue
path.insert(0, p)
# run edksetup if needed
toolsdef = coredir + '/Conf/tools_def.txt'
if not os.path.exists(toolsdef):
os.makedirs(os.path.dirname(toolsdef), exist_ok = True)
build_message('running BaseTools/BuildEnv')
cmdline = [ 'bash', 'BaseTools/BuildEnv' ]
subprocess.run(cmdline, cwd = coredir, check = True)
# set variables
os.environ['PATH'] = ':'.join(path)
os.environ['PACKAGES_PATH'] = ':'.join(packages)
os.environ['WORKSPACE'] = workspace
os.environ['EDK_TOOLS_PATH'] = coredir + '/BaseTools'
os.environ['CONF_PATH'] = coredir + '/Conf'
os.environ['PYTHON_COMMAND'] = '/usr/bin/python3'
os.environ['PYTHONHASHSEED'] = '1'
# for cross builds
if binary_exists('arm-linux-gnu-gcc'):
os.environ['GCC5_ARM_PREFIX'] = 'arm-linux-gnu-'
if binary_exists('loongarch64-linux-gnu-gcc'):
os.environ['GCC5_LOONGARCH64_PREFIX'] = 'loongarch64-linux-gnu-'
hostarch = os.uname().machine
if binary_exists('aarch64-linux-gnu-gcc') and hostarch != 'aarch64':
os.environ['GCC5_AARCH64_PREFIX'] = 'aarch64-linux-gnu-'
if binary_exists('riscv64-linux-gnu-gcc') and hostarch != 'riscv64':
os.environ['GCC5_RISCV64_PREFIX'] = 'riscv64-linux-gnu-'
if binary_exists('x86_64-linux-gnu-gcc') and hostarch != 'x86_64':
os.environ['GCC5_IA32_PREFIX'] = 'x86_64-linux-gnu-'
os.environ['GCC5_X64_PREFIX'] = 'x86_64-linux-gnu-'
os.environ['GCC5_BIN'] = 'x86_64-linux-gnu-'
def build_list(cfg):
for build in cfg.sections():
if not build.startswith('build.'):
continue
name = build.lstrip('build.')
desc = 'no description'
if 'desc' in cfg[build]:
desc = cfg[build]['desc']
print(f'# {name:20s} - {desc}')
def main():
parser = argparse.ArgumentParser(prog = 'edk2-build',
description = 'edk2 build helper script')
parser.add_argument('-c', '--config', dest = 'configfile',
type = str, default = '.edk2.builds', metavar = 'FILE',
help = 'read configuration from FILE (default: .edk2.builds)')
parser.add_argument('-C', '--directory', dest = 'directory', type = str,
help = 'change to DIR before building', metavar = 'DIR')
parser.add_argument('-j', '--jobs', dest = 'jobs', type = str,
help = 'allow up to JOBS parallel build jobs',
metavar = 'JOBS')
parser.add_argument('-m', '--match', dest = 'match', type = str,
help = 'only run builds matching INCLUDE (substring)',
metavar = 'INCLUDE')
parser.add_argument('-x', '--exclude', dest = 'exclude', type = str,
help = 'skip builds matching EXCLUDE (substring)',
metavar = 'EXCLUDE')
parser.add_argument('-l', '--list', dest = 'list',
action = 'store_true', default = False,
help = 'list build configs available')
parser.add_argument('--silent', dest = 'silent',
action = 'store_true', default = False,
help = 'write build output to logfiles, '
'write to console only on errors')
parser.add_argument('--core', dest = 'core', type = str, metavar = 'DIR',
help = 'location of the core edk2 repository '
'(i.e. where BuildTools are located)')
parser.add_argument('--pkg', '--package', dest = 'pkgs',
type = str, action = 'append', metavar = 'DIR',
help = 'location(s) of additional packages '
'(can be specified multiple times)')
parser.add_argument('--version-override', dest = 'version_override',
type = str, metavar = 'VERSION',
help = 'set firmware build version')
parser.add_argument('--release-date', dest = 'release_date',
type = str, metavar = 'DATE',
help = 'set firmware build release date (in MM/DD/YYYY format)')
options = parser.parse_args()
if options.directory:
os.chdir(options.directory)
if not os.path.exists(options.configfile):
print('config file "{options.configfile}" not found')
return 1
cfg = configparser.ConfigParser()
cfg.optionxform = str
cfg.read(options.configfile)
if options.list:
build_list(cfg)
return
if not cfg.has_section('global'):
cfg.add_section('global')
if options.core:
cfg.set('global', 'core', options.core)
if options.pkgs:
cfg.set('global', 'pkgs', ' '.join(options.pkgs))
global version_override
global release_date
check_rebase()
if options.version_override:
version_override = options.version_override
if options.release_date:
release_date = options.release_date
prepare_env(cfg)
build_basetools(options.silent)
for build in cfg.sections():
if not build.startswith('build.'):
continue
if options.match and options.match not in build:
print(f'# skipping "{build}" (not matching "{options.match}")')
continue
if options.exclude and options.exclude in build:
print(f'# skipping "{build}" (matching "{options.exclude}")')
continue
build_one(cfg, build, options.jobs, options.silent)
return 0
if __name__ == '__main__':
sys.exit(main())

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@ -1,55 +0,0 @@
#!/bin/bash
# Wrapper shell script for building a virtual platform firmware in edk2.
#
# Copyright (C) 2019 Red Hat, Inc.
#
# This program and the accompanying materials are licensed and made available
# under the terms and conditions of the BSD License that accompanies this
# distribution. The full text of the license may be found at
# <http://opensource.org/licenses/bsd-license.php>.
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT
# WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
set -e -u -C
# Save the command line arguments. We need to reset $# to 0 before sourcing
# "edksetup.sh", as it will inherit $@.
emulation_target=$1
shift
num_args=0
args=()
for arg in "$@"; do
args[num_args++]="$arg"
done
shift $num_args
cd edk2
export PYTHON_COMMAND=${EDK2_PYTHON_COMMAND:-python3}
# Source "edksetup.sh" carefully.
set +e +u +C
source ./edksetup.sh
ret=$?
set -e -u -C
if [ $ret -ne 0 ]; then
exit $ret
fi
# Fetch some option arguments, and set the cross-compilation environment (if
# any), for the edk2 "build" utility.
source ../edk2-funcs.sh
edk2_toolchain=$(qemu_edk2_get_toolchain "$emulation_target")
MAKEFLAGS=$(qemu_edk2_quirk_tianocore_1607 "$MAKEFLAGS")
edk2_thread_count=$(qemu_edk2_get_thread_count "$MAKEFLAGS")
qemu_edk2_set_cross_env "$emulation_target"
# Build the platform firmware.
build \
--cmd-len=65536 \
-n "$edk2_thread_count" \
--buildtarget=RELEASE \
--tagname="$edk2_toolchain" \
"${args[@]}"

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@ -1,273 +0,0 @@
# Shell script that defines functions for determining some environmental
# characteristics for the edk2 "build" utility.
#
# This script is meant to be sourced, in a bash environment.
#
# Copyright (C) 2019 Red Hat, Inc.
#
# This program and the accompanying materials are licensed and made available
# under the terms and conditions of the BSD License that accompanies this
# distribution. The full text of the license may be found at
# <http://opensource.org/licenses/bsd-license.php>.
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT
# WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
# Verify whether the QEMU system emulation target is supported by the UEFI spec
# and edk2. Print a message to the standard error, and return with nonzero
# status, if verification fails.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_verify_arch()
{
local emulation_target="$1"
local program_name=$(basename -- "$0")
case "$emulation_target" in
(arm|aarch64|i386|x86_64)
;;
(*)
printf '%s: unknown/unsupported QEMU system emulation target "%s"\n' \
"$program_name" "$emulation_target" >&2
return 1
;;
esac
}
# Translate the QEMU system emulation target to the edk2 architecture
# identifier. Print the result to the standard output.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_get_arch()
{
local emulation_target="$1"
if ! qemu_edk2_verify_arch "$emulation_target"; then
return 1
fi
case "$emulation_target" in
(arm)
printf 'ARM\n'
;;
(aarch64)
printf 'AARCH64\n'
;;
(i386)
printf 'IA32\n'
;;
(x86_64)
printf 'X64\n'
;;
esac
}
# Translate the QEMU system emulation target to the gcc cross-compilation
# architecture identifier. Print the result to the standard output.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_get_gcc_arch()
{
local emulation_target="$1"
if ! qemu_edk2_verify_arch "$emulation_target"; then
return 1
fi
case "$emulation_target" in
(arm|aarch64|x86_64)
printf '%s\n' "$emulation_target"
;;
(i386)
printf 'i686\n'
;;
esac
}
# Determine the gcc cross-compiler prefix (if any) for use with the edk2
# toolchain. Print the result to the standard output.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_get_cross_prefix()
{
local emulation_target="$1"
local gcc_arch
local host_arch
if ! gcc_arch=$(qemu_edk2_get_gcc_arch "$emulation_target"); then
return 1
fi
host_arch=$(uname -m)
if [ "$gcc_arch" == "$host_arch" ] ||
( [ "$gcc_arch" == i686 ] && [ "$host_arch" == x86_64 ] ); then
# no cross-compiler needed
:
elif ( [ -e /etc/debian_version ] && [ "$gcc_arch" == arm ] ); then
# force soft-float cross-compiler on Debian
printf 'arm-linux-gnueabi-'
else
printf '%s-linux-gnu-\n' "$gcc_arch"
fi
}
# Determine the edk2 toolchain tag for the QEMU system emulation target. Print
# the result to the standard output. Print a message to the standard error, and
# return with nonzero status, if the (conditional) gcc version check fails.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_get_toolchain()
{
local emulation_target="$1"
local program_name=$(basename -- "$0")
local cross_prefix
local gcc_version
if ! qemu_edk2_verify_arch "$emulation_target"; then
return 1
fi
case "$emulation_target" in
(arm|aarch64)
printf 'GCC5\n'
;;
(i386|x86_64)
if ! cross_prefix=$(qemu_edk2_get_cross_prefix "$emulation_target"); then
return 1
fi
gcc_version=$("${cross_prefix}gcc" -v 2>&1 | tail -1 | awk '{print $3}')
# Run "git-blame" on "OvmfPkg/build.sh" in edk2 for more information on
# the mapping below.
case "$gcc_version" in
([1-3].*|4.[0-7].*)
printf '%s: unsupported gcc version "%s"\n' \
"$program_name" "$gcc_version" >&2
return 1
;;
(4.8.*)
printf 'GCC48\n'
;;
(4.9.*|6.[0-2].*)
printf 'GCC49\n'
;;
(*)
printf 'GCC5\n'
;;
esac
;;
esac
}
# Determine the name of the environment variable that exposes the
# cross-compiler prefix to the edk2 "build" utility. Print the result to the
# standard output.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_get_cross_prefix_var()
{
local emulation_target="$1"
local edk2_toolchain
local edk2_arch
if ! edk2_toolchain=$(qemu_edk2_get_toolchain "$emulation_target"); then
return 1
fi
case "$emulation_target" in
(arm|aarch64)
if ! edk2_arch=$(qemu_edk2_get_arch "$emulation_target"); then
return 1
fi
printf '%s_%s_PREFIX\n' "$edk2_toolchain" "$edk2_arch"
;;
(i386|x86_64)
printf '%s_BIN\n' "$edk2_toolchain"
;;
esac
}
# Set and export the environment variable(s) necessary for cross-compilation,
# whenever needed by the edk2 "build" utility.
#
# Parameters:
# $1: QEMU system emulation target
qemu_edk2_set_cross_env()
{
local emulation_target="$1"
local cross_prefix
local cross_prefix_var
if ! cross_prefix=$(qemu_edk2_get_cross_prefix "$emulation_target"); then
return 1
fi
if [ -z "$cross_prefix" ]; then
# Nothing to do.
return 0
fi
if ! cross_prefix_var=$(qemu_edk2_get_cross_prefix_var \
"$emulation_target"); then
return 1
fi
eval "export $cross_prefix_var=\$cross_prefix"
}
# Determine the "-n" option argument (that is, the number of modules to build
# in parallel) for the edk2 "build" utility. Print the result to the standard
# output.
#
# Parameters:
# $1: the value of the MAKEFLAGS variable
qemu_edk2_get_thread_count()
{
local makeflags="$1"
if [[ "$makeflags" == *--jobserver-auth=* ]] ||
[[ "$makeflags" == *--jobserver-fds=* ]]; then
# If there is a job server, allow the edk2 "build" utility to parallelize
# as many module builds as there are logical CPUs in the system. The "make"
# instances forked by "build" are supposed to limit themselves through the
# job server. The zero value below causes the edk2 "build" utility to fetch
# the logical CPU count with Python's multiprocessing.cpu_count() method.
printf '0\n'
else
# Build a single module at a time.
printf '1\n'
fi
}
# Work around <https://bugzilla.tianocore.org/show_bug.cgi?id=1607> by
# filtering jobserver-related flags out of MAKEFLAGS. Print the result to the
# standard output.
#
# Parameters:
# $1: the value of the MAKEFLAGS variable
qemu_edk2_quirk_tianocore_1607()
{
local makeflags="$1"
printf %s "$makeflags" \
| LC_ALL=C sed --regexp-extended \
--expression='s/--jobserver-(auth|fds)=[0-9]+,[0-9]+//' \
--expression='s/-j([0-9]+)?//'
}