Revision 9dae41a238a952eb65c8aa8a59d8aa39058a7bcf authored by Linus Torvalds on 20 August 2017, 16:07:56 UTC, committed by Linus Torvalds on 20 August 2017, 16:07:56 UTC
Pull irq fixes from Thomas Gleixner: "A pile of smallish changes all over the place: - Add a missing ISB in the GIC V1 driver - Remove an ACPI version check in the GIC V3 ITS driver - Add the missing irq_pm_shutdown function for BRCMSTB-L2 to avoid spurious wakeups - Remove the artifical limitation of ITS instances to the number of NUMA nodes which prevents utilizing the ITS hardware correctly - Prevent a infinite parsing loop in the GIC-V3 ITS/MSI code - Honour the force affinity argument in the GIC-V3 driver which is required to make perf work correctly - Correctly report allocation failures in GIC-V2/V3 to avoid using half allocated and initialized interrupts. - Fixup checks against nr_cpu_ids in the generic IPI code" * 'irq-urgent-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: genirq/ipi: Fixup checks against nr_cpu_ids genirq: Restore trigger settings in irq_modify_status() MAINTAINERS: Remove Jason Cooper's irqchip git tree irqchip/gic-v3-its-platform-msi: Fix msi-parent parsing loop irqchip/gic-v3-its: Allow GIC ITS number more than MAX_NUMNODES irqchip: brcmstb-l2: Define an irq_pm_shutdown function irqchip/gic: Ensure we have an ISB between ack and ->handle_irq irqchip/gic-v3-its: Remove ACPICA version check for ACPI NUMA irqchip/gic-v3: Honor forced affinity setting irqchip/gic-v3: Report failures in gic_irq_domain_alloc irqchip/gic-v2: Report failures in gic_irq_domain_alloc irqchip/atmel-aic: Remove root argument from ->fixup() prototype irqchip/atmel-aic: Fix unbalanced refcount in aic_common_rtc_irq_fixup() irqchip/atmel-aic: Fix unbalanced of_node_put() in aic_common_irq_fixup()
check_extable.sh
#! /bin/bash
# (c) 2015, Quentin Casasnovas <quentin.casasnovas@oracle.com>
obj=$1
file ${obj} | grep -q ELF || (echo "${obj} is not and ELF file." 1>&2 ; exit 0)
# Bail out early if there isn't an __ex_table section in this object file.
objdump -hj __ex_table ${obj} 2> /dev/null > /dev/null
[ $? -ne 0 ] && exit 0
white_list=.text,.fixup
suspicious_relocs=$(objdump -rj __ex_table ${obj} | tail -n +6 |
grep -v $(eval echo -e{${white_list}}) | awk '{print $3}')
# No suspicious relocs in __ex_table, jobs a good'un
[ -z "${suspicious_relocs}" ] && exit 0
# After this point, something is seriously wrong since we just found out we
# have some relocations in __ex_table which point to sections which aren't
# white listed. If you're adding a new section in the Linux kernel, and
# you're expecting this section to contain code which can fault (i.e. the
# __ex_table relocation to your new section is expected), simply add your
# new section to the white_list variable above. If not, you're probably
# doing something wrong and the rest of this code is just trying to print
# you more information about it.
function find_section_offset_from_symbol()
{
eval $(objdump -t ${obj} | grep ${1} | sed 's/\([0-9a-f]\+\) .\{7\} \([^ \t]\+\).*/section="\2"; section_offset="0x\1" /')
# addr2line takes addresses in hexadecimal...
section_offset=$(printf "0x%016x" $(( ${section_offset} + $2 )) )
}
function find_symbol_and_offset_from_reloc()
{
# Extract symbol and offset from the objdump output
eval $(echo $reloc | sed 's/\([^+]\+\)+\?\(0x[0-9a-f]\+\)\?/symbol="\1"; symbol_offset="\2"/')
# When the relocation points to the begining of a symbol or section, it
# won't print the offset since it is zero.
if [ -z "${symbol_offset}" ]; then
symbol_offset=0x0
fi
}
function find_alt_replacement_target()
{
# The target of the .altinstr_replacement is the relocation just before
# the .altinstr_replacement one.
eval $(objdump -rj .altinstructions ${obj} | grep -B1 "${section}+${section_offset}" | head -n1 | awk '{print $3}' |
sed 's/\([^+]\+\)+\(0x[0-9a-f]\+\)/alt_target_section="\1"; alt_target_offset="\2"/')
}
function handle_alt_replacement_reloc()
{
# This will define alt_target_section and alt_target_section_offset
find_alt_replacement_target ${section} ${section_offset}
echo "Error: found a reference to .altinstr_replacement in __ex_table:"
addr2line -fip -j ${alt_target_section} -e ${obj} ${alt_target_offset} | awk '{print "\t" $0}'
error=true
}
function is_executable_section()
{
objdump -hwj ${section} ${obj} | grep -q CODE
return $?
}
function handle_suspicious_generic_reloc()
{
if is_executable_section ${section}; then
# We've got a relocation to a non white listed _executable_
# section, print a warning so the developper adds the section to
# the white list or fix his code. We try to pretty-print the file
# and line number where that relocation was added.
echo "Warning: found a reference to section \"${section}\" in __ex_table:"
addr2line -fip -j ${section} -e ${obj} ${section_offset} | awk '{print "\t" $0}'
else
# Something is definitively wrong here since we've got a relocation
# to a non-executable section, there's no way this would ever be
# running in the kernel.
echo "Error: found a reference to non-executable section \"${section}\" in __ex_table at offset ${section_offset}"
error=true
fi
}
function handle_suspicious_reloc()
{
case "${section}" in
".altinstr_replacement")
handle_alt_replacement_reloc ${section} ${section_offset}
;;
*)
handle_suspicious_generic_reloc ${section} ${section_offset}
;;
esac
}
function diagnose()
{
for reloc in ${suspicious_relocs}; do
# Let's find out where the target of the relocation in __ex_table
# is, this will define ${symbol} and ${symbol_offset}
find_symbol_and_offset_from_reloc ${reloc}
# When there's a global symbol at the place of the relocation,
# objdump will use it instead of giving us a section+offset, so
# let's find out which section is this symbol in and the total
# offset withing that section.
find_section_offset_from_symbol ${symbol} ${symbol_offset}
# In this case objdump was presenting us with a reloc to a symbol
# rather than a section. Now that we've got the actual section,
# we can skip it if it's in the white_list.
if [ -z "$( echo $section | grep -v $(eval echo -e{${white_list}}))" ]; then
continue;
fi
# Will either print a warning if the relocation happens to be in a
# section we do not know but has executable bit set, or error out.
handle_suspicious_reloc
done
}
function check_debug_info() {
objdump -hj .debug_info ${obj} 2> /dev/null > /dev/null ||
echo -e "${obj} does not contain debug information, the addr2line output will be limited.\n" \
"Recompile ${obj} with CONFIG_DEBUG_INFO to get a more useful output."
}
check_debug_info
diagnose
if [ "${error}" ]; then
exit 1
fi
exit 0
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