SUMMARY = "OVMF - UEFI firmware for Qemu and KVM" DESCRIPTION = "OVMF is an EDK II based project to enable UEFI support for \ Virtual Machines. OVMF contains sample UEFI firmware for QEMU and KVM" HOMEPAGE = "https://github.com/tianocore/tianocore.github.io/wiki/OVMF" LICENSE = "BSD-2-Clause-Patent" LICENSE:class-target = "${@bb.utils.contains('PACKAGECONFIG', 'secureboot', 'BSD-2-Clause-Patent & OpenSSL', 'BSD-2-Clause-Patent', d)}" LIC_FILES_CHKSUM = "file://OvmfPkg/License.txt;md5=06357ddc23f46577c2aeaeaf7b776d65" # Enabling Secure Boot adds a dependency on OpenSSL and implies # compiling OVMF twice, so it is disabled by default. Distros # may change that default. PACKAGECONFIG ??= "" PACKAGECONFIG += "${@bb.utils.contains('MACHINE_FEATURES', 'tpm', 'tpm', '', d)}" PACKAGECONFIG += "${@bb.utils.contains('MACHINE_FEATURES', 'tpm2', 'tpm', '', d)}" PACKAGECONFIG[secureboot] = ",,," PACKAGECONFIG[tpm] = "-D TPM_ENABLE=TRUE,-D TPM_ENABLE=FALSE,," # GCC12 trips on it #see https://src.fedoraproject.org/rpms/edk2/blob/rawhide/f/0032-Basetools-turn-off-gcc12-warning.patch BUILD_CFLAGS += "-Wno-error=stringop-overflow" SRC_URI = "gitsm://github.com/tianocore/edk2.git;branch=master;protocol=https \ file://0001-ovmf-update-path-to-native-BaseTools.patch \ file://0002-BaseTools-makefile-adjust-to-build-in-under-bitbake.patch \ file://0005-debug-prefix-map.patch \ file://0006-reproducible.patch \ " PV = "edk2-stable202205" SRCREV = "16779ede2d366bfc6b702e817356ccf43425bcc8" UPSTREAM_CHECK_GITTAGREGEX = "(?Pedk2-stable.*)" inherit deploy PARALLEL_MAKE = "" S = "${WORKDIR}/git" DEPENDS = "nasm-native acpica-native ovmf-native util-linux-native" EDK_TOOLS_DIR="edk2_basetools" # OVMF has trouble building with the default optimization of -O2. BUILD_OPTIMIZATION="-pipe" # OVMF supports IA only, although it could conceivably support ARM someday. COMPATIBLE_HOST:class-target='(i.86|x86_64).*' # Additional build flags for OVMF with Secure Boot. # Fedora also uses "-D SMM_REQUIRE -D EXCLUDE_SHELL_FROM_FD". OVMF_SECURE_BOOT_EXTRA_FLAGS ??= "" OVMF_SECURE_BOOT_FLAGS = "-DSECURE_BOOT_ENABLE=TRUE ${OVMF_SECURE_BOOT_EXTRA_FLAGS}" export PYTHON_COMMAND = "${HOSTTOOLS_DIR}/python3" do_patch[postfuncs] += "fix_basetools_location" fix_basetools_location () { } fix_basetools_location:class-target() { # Replaces the fake path inserted by 0002-ovmf-update-path-to-native-BaseTools.patch. # Necessary for finding the actual BaseTools from ovmf-native. sed -i -e 's#BBAKE_EDK_TOOLS_PATH#${STAGING_BINDIR_NATIVE}/${EDK_TOOLS_DIR}#' ${S}/OvmfPkg/build.sh } do_patch[postfuncs] += "fix_iasl" fix_iasl() { } fix_iasl:class-native() { # iasl is not installed under /usr/bin when building with OE. sed -i -e 's#/usr/bin/iasl#${STAGING_BINDIR_NATIVE}/iasl#' ${S}/BaseTools/Conf/tools_def.template } # Inject CC and friends into the build. LINKER already is in GNUmakefile. # Must be idempotent and thus remove old assignments that were inserted # earlier. do_patch[postfuncs] += "fix_toolchain" fix_toolchain() { sed -i \ -e '/^\(CC\|CXX\|AS\|AR\|LD\|LINKER\) =/d' \ -e '/^APPLICATION/a CC = ${CC}\nCXX = ${CXX}\nAS = ${AS}\nAR = ${AR}\nLD = ${LD}\nLINKER = $(CC)' \ ${S}/BaseTools/Source/C/Makefiles/app.makefile sed -i \ -e '/^\(CC\|CXX\|AS\|AR\|LD\)/d' \ -e '/^VFR_CPPFLAGS/a CC = ${CC}\nCXX = ${CXX}\nAS = ${AS}\nAR = ${AR}\nLD = ${LD}' \ ${S}/BaseTools/Source/C/VfrCompile/GNUmakefile } fix_toolchain:append:class-native() { # This tools_def.template is going to be used by the target ovmf and # defines which compilers to use. For the GCC toolchain definitions, # that will be ${HOST_PREFIX}gcc. However, "make" doesn't need that # prefix. # # Injecting ENV(HOST_PREFIX) matches exporting that value as env # variable in do_compile:class-target. sed -i \ -e 's#\(ENV\|DEF\)(GCC.*_PREFIX)#ENV(HOST_PREFIX)#' \ -e 's#ENV(HOST_PREFIX)make#make#' \ ${S}/BaseTools/Conf/tools_def.template sed -i \ -e '/^\(LFLAGS\|CFLAGS\) +=/d' \ -e '/^LINKER/a LFLAGS += ${BUILD_LDFLAGS}\nCFLAGS += ${BUILD_CFLAGS}' \ ${S}/BaseTools/Source/C/Makefiles/app.makefile \ ${S}/BaseTools/Source/C/VfrCompile/GNUmakefile # Linking with gold fails: # internal error in do_layout, at ../../gold/object.cc:1821 # make: *** [.../OUTPUT/Facs.acpi] Error 1 # We intentionally hard-code the use of ld.bfd regardless of DISTRO_FEATURES # to make ovmf-native reusable across distros. sed -i \ -e 's#^\(DEFINE GCC.*DLINK.*FLAGS *=\)#\1 -fuse-ld=bfd#' \ -e 's#-flto#-fno-lto#g' \ -e 's#-DUSING_LTO##g' \ ${S}/BaseTools/Conf/tools_def.template } # We disable lto above since the results are not reproducible and make it hard to compare # binary build aretfacts to debug reproducibility problems. # Surprisingly, if you disable lto, you see compiler warnings which are fatal. We therefore # have to hack warnings overrides into GCC_PREFIX_MAP to allow it to build. # We want to pass ${DEBUG_PREFIX_MAP} to gcc commands and also pass in # --debug-prefix-map to nasm (we carry a patch to nasm for this). The # tools definitions are built by ovmf-native so we need to pass this in # at target build time when we know the right values. export NASM_PREFIX_MAP = "--debug-prefix-map=${WORKDIR}=/usr/src/debug/ovmf/${EXTENDPE}${PV}-${PR}" export GCC_PREFIX_MAP = "${DEBUG_PREFIX_MAP} -Wno-stringop-overflow -Wno-maybe-uninitialized" GCC_VER="$(${CC} -v 2>&1 | tail -n1 | awk '{print $3}')" fixup_target_tools() { case ${1} in 4.4.*) FIXED_GCCVER=GCC44 ;; 4.5.*) FIXED_GCCVER=GCC45 ;; 4.6.*) FIXED_GCCVER=GCC46 ;; 4.7.*) FIXED_GCCVER=GCC47 ;; 4.8.*) FIXED_GCCVER=GCC48 ;; 4.9.*) FIXED_GCCVER=GCC49 ;; *) FIXED_GCCVER=GCC5 ;; esac echo ${FIXED_GCCVER} } do_compile:class-native() { oe_runmake -C ${S}/BaseTools } do_compile:class-target() { export LFLAGS="${LDFLAGS}" PARALLEL_JOBS="${@oe.utils.parallel_make_argument(d, '-n %d')}" OVMF_ARCH="X64" if [ "${TARGET_ARCH}" != "x86_64" ] ; then OVMF_ARCH="IA32" fi # The build for the target uses BaseTools/Conf/tools_def.template # from ovmf-native to find the compiler, which depends on # exporting HOST_PREFIX. export HOST_PREFIX="${HOST_PREFIX}" # BaseTools/Conf gets copied to Conf, but only if that does not # exist yet. To ensure that an updated template gets used during # incremental builds, we need to remove the copy before we start. rm -f `ls ${S}/Conf/*.txt | grep -v ReadMe.txt` # ${WORKDIR}/ovmf is a well-known location where do_install and # do_deploy will be able to find the files. rm -rf ${WORKDIR}/ovmf mkdir ${WORKDIR}/ovmf OVMF_DIR_SUFFIX="X64" if [ "${TARGET_ARCH}" != "x86_64" ] ; then OVMF_DIR_SUFFIX="Ia32" # Note the different capitalization fi FIXED_GCCVER=$(fixup_target_tools ${GCC_VER}) bbnote FIXED_GCCVER is ${FIXED_GCCVER} build_dir="${S}/Build/Ovmf$OVMF_DIR_SUFFIX/RELEASE_${FIXED_GCCVER}" bbnote "Building without Secure Boot." rm -rf ${S}/Build/Ovmf$OVMF_DIR_SUFFIX ${S}/OvmfPkg/build.sh $PARALLEL_JOBS -a $OVMF_ARCH -b RELEASE -t ${FIXED_GCCVER} ${PACKAGECONFIG_CONFARGS} ln ${build_dir}/FV/OVMF.fd ${WORKDIR}/ovmf/ovmf.fd ln ${build_dir}/FV/OVMF_CODE.fd ${WORKDIR}/ovmf/ovmf.code.fd ln ${build_dir}/FV/OVMF_VARS.fd ${WORKDIR}/ovmf/ovmf.vars.fd ln ${build_dir}/${OVMF_ARCH}/Shell.efi ${WORKDIR}/ovmf/ if ${@bb.utils.contains('PACKAGECONFIG', 'secureboot', 'true', 'false', d)}; then # Repeat build with the Secure Boot flags. bbnote "Building with Secure Boot." rm -rf ${S}/Build/Ovmf$OVMF_DIR_SUFFIX ${S}/OvmfPkg/build.sh $PARALLEL_JOBS -a $OVMF_ARCH -b RELEASE -t ${FIXED_GCCVER} ${PACKAGECONFIG_CONFARGS} ${OVMF_SECURE_BOOT_FLAGS} ln ${build_dir}/FV/OVMF.fd ${WORKDIR}/ovmf/ovmf.secboot.fd ln ${build_dir}/FV/OVMF_CODE.fd ${WORKDIR}/ovmf/ovmf.secboot.code.fd ln ${build_dir}/${OVMF_ARCH}/EnrollDefaultKeys.efi ${WORKDIR}/ovmf/ fi } do_install:class-native() { install -d ${D}/${bindir}/edk2_basetools cp -r ${S}/BaseTools ${D}/${bindir}/${EDK_TOOLS_DIR} } do_install:class-target() { # Content for UEFI shell iso. We install the EFI shell as # bootx64/ia32.efi because then it can be started even when the # firmware itself does not contain it. install -d ${D}/efi/boot install ${WORKDIR}/ovmf/Shell.efi ${D}/efi/boot/boot${@ "ia32" if "${TARGET_ARCH}" != "x86_64" else "x64"}.efi if ${@bb.utils.contains('PACKAGECONFIG', 'secureboot', 'true', 'false', d)}; then install ${WORKDIR}/ovmf/EnrollDefaultKeys.efi ${D} fi } # This always gets packaged because ovmf-shell-image depends on it. # This allows testing that recipe in all configurations because it # can always be part of a world build. # # However, EnrollDefaultKeys.efi is only included when Secure Boot is enabled. PACKAGES =+ "ovmf-shell-efi" FILES:ovmf-shell-efi = " \ EnrollDefaultKeys.efi \ efi/ \ " DEPLOYDEP = "" DEPLOYDEP:class-target = "qemu-system-native:do_populate_sysroot" DEPLOYDEP:class-target += " ${@bb.utils.contains('PACKAGECONFIG', 'secureboot', 'openssl-native:do_populate_sysroot', '', d)}" do_deploy[depends] += "${DEPLOYDEP}" do_deploy() { } do_deploy:class-target() { # For use with "runqemu ovmf". for i in \ ovmf \ ovmf.code \ ovmf.vars \ ${@bb.utils.contains('PACKAGECONFIG', 'secureboot', 'ovmf.secboot ovmf.secboot.code', '', d)} \ ; do qemu-img convert -f raw -O qcow2 ${WORKDIR}/ovmf/$i.fd ${DEPLOYDIR}/$i.qcow2 done if ${@bb.utils.contains('PACKAGECONFIG', 'secureboot', 'true', 'false', d)}; then # Create a test Platform Key and first Key Exchange Key to use with EnrollDefaultKeys openssl req -new -x509 -newkey rsa:2048 -keyout ${DEPLOYDIR}/OvmfPkKek1.key \ -out ${DEPLOYDIR}/OvmfPkKek1.crt -nodes -days 20 -subj "/CN=OVMFSecBootTest" openssl x509 -in ${DEPLOYDIR}/OvmfPkKek1.crt -out ${DEPLOYDIR}/OvmfPkKek1.pem -outform PEM fi } addtask do_deploy after do_compile before do_build BBCLASSEXTEND = "native" TOOLCHAIN = "gcc"