qemu/roms/edk2-funcs.sh

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# 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
:
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
}
edk2 build scripts: work around TianoCore#1607 without forcing Python 2 It turns out that forcing python2 for running the edk2 "build" utility is neither necessary nor sufficient. Forcing python2 is not sufficient for two reasons: - QEMU is moving away from python2, with python2 nearing EOL, - according to my most recent testing, the lacking dependency information in the makefiles that are generated by edk2's "build" utility can cause parallel build failures even when "build" is executed by python2. And forcing python2 is not necessary because we can still return to the original idea of filtering out jobserver-related options from MAKEFLAGS. So do that. While at it, cut short edk2's auto-detection of the python3.* minor version, by setting PYTHON_COMMAND to "python3" (which we expect to be available wherever we intend to build edk2). With this patch, the guest UEFI binaries that are used as part of the BIOS tables test, and the OVMF and ArmVirtQemu platform firmwares, will be built strictly in a single job, regardless of an outermost "-jN" make option. Alas, there appears to be no reliable way to build edk2 in an (outer make, inner make) environment, with a jobserver enabled. Cc: Eduardo Habkost <ehabkost@redhat.com> Cc: John Snow <jsnow@redhat.com> Cc: Philippe Mathieu-Daudé <philmd@redhat.com> Reported-by: John Snow <jsnow@redhat.com> Reviewed-by: Philippe Mathieu-Daudé <philmd@redhat.com> Tested-by: Philippe Mathieu-Daudé <philmd@redhat.com> Reviewed-by: John Snow <jsnow@redhat.com> Signed-off-by: Laszlo Ersek <lersek@redhat.com> Message-Id: <20190920083808.21399-3-lersek@redhat.com> Signed-off-by: Philippe Mathieu-Daudé <philmd@redhat.com>
2019-09-20 11:38:08 +03:00
# 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]+)?//'
}