#!/bin/sh # SPDX-License-Identifier: GPL-2.0 # # link vmlinux # # vmlinux is linked from the objects in vmlinux.a and $(KBUILD_VMLINUX_LIBS). # vmlinux.a contains objects that are linked unconditionally. # $(KBUILD_VMLINUX_LIBS) are archives which are linked conditionally # (not within --whole-archive), and do not require symbol indexes added. # # vmlinux # ^ # | # +--< vmlinux.a # | # +--< $(KBUILD_VMLINUX_LIBS) # | +--< lib/lib.a + more # | # +-< ${kallsymso} (see description in KALLSYMS section) # # vmlinux version (uname -v) cannot be updated during normal # descending-into-subdirs phase since we do not yet know if we need to # update vmlinux. # Therefore this step is delayed until just before final link of vmlinux. # # System.map is generated to document addresses of all kernel symbols # Error out on error set -e LD="$1" KBUILD_LDFLAGS="$2" LDFLAGS_vmlinux="$3" is_enabled() { grep -q "^$1=y" include/config/auto.conf } # Nice output in kbuild format # Will be supressed by "make -s" info() { printf " %-7s %s\n" "${1}" "${2}" } # Link of vmlinux # ${1} - output file # ${2}, ${3}, ... - optional extra .o files vmlinux_link() { local output=${1} local objs local libs local ld local ldflags local ldlibs info LD ${output} # skip output file argument shift if is_enabled CONFIG_LTO_CLANG || is_enabled CONFIG_X86_KERNEL_IBT; then # Use vmlinux.o instead of performing the slow LTO link again. objs=vmlinux.o libs= else objs=vmlinux.a libs="${KBUILD_VMLINUX_LIBS}" fi if is_enabled CONFIG_MODULES; then objs="${objs} .vmlinux.export.o" fi objs="${objs} init/version-timestamp.o" if [ "${SRCARCH}" = "um" ]; then wl=-Wl, ld="${CC}" ldflags="${CFLAGS_vmlinux}" ldlibs="-lutil -lrt -lpthread" else wl= ld="${LD}" ldflags="${KBUILD_LDFLAGS} ${LDFLAGS_vmlinux}" ldlibs= fi ldflags="${ldflags} ${wl}--script=${objtree}/${KBUILD_LDS}" # The kallsyms linking does not need debug symbols included. if [ "$output" != "${output#.tmp_vmlinux.kallsyms}" ] ; then ldflags="${ldflags} ${wl}--strip-debug" fi if is_enabled CONFIG_VMLINUX_MAP; then ldflags="${ldflags} ${wl}-Map=${output}.map" fi ${ld} ${ldflags} -o ${output} \ ${wl}--whole-archive ${objs} ${wl}--no-whole-archive \ ${wl}--start-group ${libs} ${wl}--end-group \ $@ ${ldlibs} } # generate .BTF typeinfo from DWARF debuginfo # ${1} - vmlinux image # ${2} - file to dump raw BTF data into gen_btf() { local pahole_ver if ! [ -x "$(command -v ${PAHOLE})" ]; then echo >&2 "BTF: ${1}: pahole (${PAHOLE}) is not available" return 1 fi pahole_ver=$(${PAHOLE} --version | sed -E 's/v([0-9]+)\.([0-9]+)/\1\2/') if [ "${pahole_ver}" -lt "116" ]; then echo >&2 "BTF: ${1}: pahole version $(${PAHOLE} --version) is too old, need at least v1.16" return 1 fi vmlinux_link ${1} info "BTF" ${2} LLVM_OBJCOPY="${OBJCOPY}" ${PAHOLE} -J ${PAHOLE_FLAGS} ${1} # Create ${2} which contains just .BTF section but no symbols. Add # SHF_ALLOC because .BTF will be part of the vmlinux image. --strip-all # deletes all symbols including __start_BTF and __stop_BTF, which will # be redefined in the linker script. Add 2>/dev/null to suppress GNU # objcopy warnings: "empty loadable segment detected at ..." ${OBJCOPY} --only-section=.BTF --set-section-flags .BTF=alloc,readonly \ --strip-all ${1} ${2} 2>/dev/null # Change e_type to ET_REL so that it can be used to link final vmlinux. # Unlike GNU ld, lld does not allow an ET_EXEC input. printf '\1' | dd of=${2} conv=notrunc bs=1 seek=16 status=none } # Create ${2} .S file with all symbols from the ${1} object file kallsyms() { local kallsymopt; if is_enabled CONFIG_KALLSYMS_ALL; then kallsymopt="${kallsymopt} --all-symbols" fi if is_enabled CONFIG_KALLSYMS_ABSOLUTE_PERCPU; then kallsymopt="${kallsymopt} --absolute-percpu" fi if is_enabled CONFIG_KALLSYMS_BASE_RELATIVE; then kallsymopt="${kallsymopt} --base-relative" fi info KSYMS ${2} ${NM} -n ${1} | scripts/kallsyms ${kallsymopt} > ${2} } # Perform one step in kallsyms generation, including temporary linking of # vmlinux. kallsyms_step() { kallsymso_prev=${kallsymso} kallsyms_vmlinux=.tmp_vmlinux.kallsyms${1} kallsymso=${kallsyms_vmlinux}.o kallsyms_S=${kallsyms_vmlinux}.S vmlinux_link ${kallsyms_vmlinux} "${kallsymso_prev}" ${btf_vmlinux_bin_o} kallsyms ${kallsyms_vmlinux} ${kallsyms_S} info AS ${kallsyms_S} ${CC} ${NOSTDINC_FLAGS} ${LINUXINCLUDE} ${KBUILD_CPPFLAGS} \ ${KBUILD_AFLAGS} ${KBUILD_AFLAGS_KERNEL} \ -c -o ${kallsymso} ${kallsyms_S} } # Create map file with all symbols from ${1} # See mksymap for additional details mksysmap() { ${CONFIG_SHELL} "${srctree}/scripts/mksysmap" ${1} ${2} } sorttable() { ${objtree}/scripts/sorttable ${1} } # Delete output files in case of error cleanup() { rm -f .btf.* rm -f System.map rm -f vmlinux rm -f vmlinux.map rm -f .vmlinux.export.c } # Use "make V=1" to debug this script case "${KBUILD_VERBOSE}" in *1*) set -x ;; esac if [ "$1" = "clean" ]; then cleanup exit 0 fi info MODINFO modules.builtin.modinfo ${OBJCOPY} -j .modinfo -O binary vmlinux.o modules.builtin.modinfo info GEN modules.builtin # The second line aids cases where multiple modules share the same object. tr '\0' '\n' < modules.builtin.modinfo | sed -n 's/^[[:alnum:]:_]*\.file=//p' | tr ' ' '\n' | uniq | sed -e 's:^:kernel/:' -e 's/$/.ko/' > modules.builtin if is_enabled CONFIG_MODULES; then ${MAKE} -f "${srctree}/scripts/Makefile.vmlinux" .vmlinux.export.o fi ${MAKE} -f "${srctree}/scripts/Makefile.build" obj=init init/version-timestamp.o btf_vmlinux_bin_o="" if is_enabled CONFIG_DEBUG_INFO_BTF; then btf_vmlinux_bin_o=.btf.vmlinux.bin.o if ! gen_btf .tmp_vmlinux.btf $btf_vmlinux_bin_o ; then echo >&2 "Failed to generate BTF for vmlinux" echo >&2 "Try to disable CONFIG_DEBUG_INFO_BTF" exit 1 fi fi kallsymso="" kallsymso_prev="" kallsyms_vmlinux="" if is_enabled CONFIG_KALLSYMS; then # kallsyms support # Generate section listing all symbols and add it into vmlinux # It's a three step process: # 1) Link .tmp_vmlinux.kallsyms1 so it has all symbols and sections, # but __kallsyms is empty. # Running kallsyms on that gives us .tmp_kallsyms1.o with # the right size # 2) Link .tmp_vmlinux.kallsyms2 so it now has a __kallsyms section of # the right size, but due to the added section, some # addresses have shifted. # From here, we generate a correct .tmp_vmlinux.kallsyms2.o # 3) That link may have expanded the kernel image enough that # more linker branch stubs / trampolines had to be added, which # introduces new names, which further expands kallsyms. Do another # pass if that is the case. In theory it's possible this results # in even more stubs, but unlikely. # KALLSYMS_EXTRA_PASS=1 may also used to debug or work around # other bugs. # 4) The correct ${kallsymso} is linked into the final vmlinux. # # a) Verify that the System.map from vmlinux matches the map from # ${kallsymso}. kallsyms_step 1 kallsyms_step 2 # step 3 size1=$(${CONFIG_SHELL} "${srctree}/scripts/file-size.sh" ${kallsymso_prev}) size2=$(${CONFIG_SHELL} "${srctree}/scripts/file-size.sh" ${kallsymso}) if [ $size1 -ne $size2 ] || [ -n "${KALLSYMS_EXTRA_PASS}" ]; then kallsyms_step 3 fi fi vmlinux_link vmlinux "${kallsymso}" ${btf_vmlinux_bin_o} # fill in BTF IDs if is_enabled CONFIG_DEBUG_INFO_BTF && is_enabled CONFIG_BPF; then info BTFIDS vmlinux ${RESOLVE_BTFIDS} vmlinux fi info SYSMAP System.map mksysmap vmlinux System.map if is_enabled CONFIG_BUILDTIME_TABLE_SORT; then info SORTTAB vmlinux if ! sorttable vmlinux; then echo >&2 Failed to sort kernel tables exit 1 fi fi # step a (see comment above) if is_enabled CONFIG_KALLSYMS; then mksysmap ${kallsyms_vmlinux} .tmp_System.map if ! cmp -s System.map .tmp_System.map; then echo >&2 Inconsistent kallsyms data echo >&2 Try "make KALLSYMS_EXTRA_PASS=1" as a workaround exit 1 fi fi # For fixdep echo "vmlinux: $0" > .vmlinux.d