00b242509c
RISC-V has some GNU disassembly quirks, e.g. it requires '-D' to
properly disassemble .2byte directives similar to Arm [1]. Further,
GNU objdump groups RISC-V instruction by 2 or 4 byte chunks, instead
doing byte-for-byte.
Add the required switches, and translate from short/word to bytes when
ARCH is "riscv".
An example how to invoke decodecode for RISC-V:
$ echo 'Code: bf45 f793 1007 f7d9 50ef 37af d541 b7d9 7097 00c8 (80e7)
6140' | AFLAGS="-march=rv64imac_zicbom_zihintpause" \
ARCH=riscv CROSS_COMPILE=riscv64-linux-gnu- ./scripts/decodecode
Code: bf45 f793 1007 f7d9 50ef 37af d541 b7d9 7097 00c8 (80e7) 6140
All code
========
0: bf45 c.j 0xffffffffffffffb0
2: 1007f793 andi a5,a5,256
6: f7d9 c.bnez a5,0xffffffffffffff94
8: 37af50ef jal ra,0xf5382
c: d541 c.beqz a0,0xffffffffffffff94
e: b7d9 c.j 0xffffffffffffffd4
10: 00c87097 auipc ra,0xc87
14:* 614080e7 jalr ra,1556(ra) # 0xc87624 <-- trapping instruction
Code starting with the faulting instruction
===========================================
0: 614080e7 jalr ra,1556(ra)
[1] https://sourceware.org/bugzilla/show_bug.cgi?id=10263
Signed-off-by: Björn Töpel <bjorn@rivosinc.com>
Tested-by: Alexandre Ghiti <alexghiti@rivosinc.com>
Link: https://lore.kernel.org/r/20230119074738.708301-3-bjorn@kernel.org
Signed-off-by: Palmer Dabbelt <palmer@rivosinc.com>
4.8 KiB
Executable File
#!/bin/bash
SPDX-License-Identifier: GPL-2.0
Disassemble the Code: line in Linux oopses
usage: decodecode < oops.file
options: set env. variable AFLAGS=options to pass options to "as";
e.g., to decode an i386 oops on an x86_64 system, use:
AFLAGS=--32 decodecode < 386.oops
PC=hex - the PC (program counter) the oops points to
faultlinenum=1
cleanup() { rm -f $T $T.s $T.o $T.oo $T.aa $T.dis exit 1 }
die() { echo "$@" exit 1 }
trap cleanup EXIT
T=mktemp || die "cannot create temp file"
code=
cont=
while read i ; do
case "$i" in Code:) code=$i cont=yes ;; *) [ -n "$cont" ] && { xdump="$(echo $i | grep '^:xdigit:]<>[:space:+$')" if [ -n "$xdump" ]; then code="$code $xdump" else cont= fi } ;; esac
done
if [ -z "$code" ]; then rm $T exit fi
echo $code
code=echo $code | sed -e 's/.*Code: //'
width=expr index "$code" ' '
width=$((($width-1)/2))
case $width in
- type=byte ;;
- type=2byte ;;
- type=4byte ;; esac
if [ -z "$ARCH" ]; then
case uname -m in
aarch64*) ARCH=arm64 ;;
arm*) ARCH=arm ;;
esac
fi
Params: (tmp_file, pc_sub)
disas() { t=$1 pc_sub=$2
${CROSS_COMPILE}as $AFLAGS -o $t.o $t.s > /dev/null 2>&1
if [ "$ARCH" = "arm" ]; then
if [ $width -eq 2 ]; then
OBJDUMPFLAGS="-M force-thumb"
fi
${CROSS_COMPILE}strip $t.o
fi
if [ "$ARCH" = "arm64" ]; then
if [ $width -eq 4 ]; then
type=inst
fi
${CROSS_COMPILE}strip $t.o
fi
if [ "$ARCH" = "riscv" ]; then
OBJDUMPFLAGS="-M no-aliases --section=.text -D"
${CROSS_COMPILE}strip $t.o
fi
if [ $pc_sub -ne 0 ]; then
if [ $PC ]; then
adj_vma=$(( $PC - $pc_sub ))
OBJDUMPFLAGS="$OBJDUMPFLAGS --adjust-vma=$adj_vma"
fi
fi
${CROSS_COMPILE}objdump $OBJDUMPFLAGS -S $t.o | \
grep -v "/tmp\|Disassembly\|\.text\|^$" > $t.dis 2>&1
}
Match the maximum number of opcode bytes from @op_bytes contained within
@opline
Params:
@op_bytes: The string of bytes from the Code: line
@opline: The disassembled line coming from objdump
Returns:
The max number of opcode bytes from the beginning of @op_bytes which match
the opcode bytes in the objdump line.
get_substr_opcode_bytes_num() { local op_bytes=$1 local opline=$2
local retval=0
substr=""
for opc in $op_bytes;
do
substr+="$opc"
opcode="$substr"
if [ "$ARCH" = "riscv" ]; then
opcode=$(echo $opcode | tr ' ' '\n' | tac | tr -d '\n')
fi
# return if opcode bytes do not match @opline anymore
if ! echo $opline | grep -q "$opcode";
then
break
fi
# add trailing space
substr+=" "
retval=$((retval+1))
done
return $retval
}
Return the line number in objdump output to where the IP marker in the Code:
line points to
Params:
@all_code: code in bytes without the marker
@dis_file: disassembled file
@ip_byte: The byte to which the IP points to
get_faultlinenum() { local all_code="$1" local dis_file="$2"
# num bytes including IP byte
local num_bytes_ip=$(( $3 + 1 * $width ))
# Add the two header lines (we're counting from 1).
local retval=3
# remove marker
all_code=$(echo $all_code | sed -e 's/[<>()]//g')
while read line
do
get_substr_opcode_bytes_num "$all_code" "$line"
ate_opcodes=$?
if ! (( $ate_opcodes )); then
continue
fi
num_bytes_ip=$((num_bytes_ip - ($ate_opcodes * $width) ))
if (( $num_bytes_ip <= 0 )); then
break
fi
# Delete matched opcode bytes from all_code. For that, compute
# how many chars those opcodes are represented by and include
# trailing space.
#
# a byte is 2 chars, ate_opcodes is also the number of trailing
# spaces
del_chars=$(( ($ate_opcodes * $width * 2) + $ate_opcodes ))
all_code=$(echo $all_code | sed -e "s!^.\{$del_chars\}!!")
let "retval+=1"
done < $dis_file
return $retval
}
marker=expr index "$code" "\<"
if [ $marker -eq 0 ]; then
marker=expr index "$code" "\("
fi
touch $T.oo
if [ $marker -ne 0 ]; then
# How many bytes to subtract from the program counter
# in order to get to the beginning virtual address of the
# Code:
pc_sub=$(( (($marker - 1) / (2 * $width + 1)) * $width ))
echo All code >> $T.oo
echo ======== >> $T.oo
beforemark=echo "$code"
echo -n " .$type 0x" > $T.s
echo $beforemark | sed -e 's/ /,0x/g; s/[<>()]//g' >> $T.s
disas $T $pc_sub
cat $T.dis >> $T.oo
get_faultlinenum "$code" "$T.dis" $pc_sub
faultlinenum=$?
# and fix code at-and-after marker
code=`echo "$code" | cut -c$((${marker} + 1))-`
rm -f $T.o $T.s $T.dis
fi
echo Code starting with the faulting instruction > $T.aa
echo =========================================== >> $T.aa
code=echo $code | sed -e 's/\r//;s/ [<(]/ /;s/[>)] / /;s/ /,0x/g; s/[>)]$//'
echo -n " .$type 0x" > $T.s
echo $code >> $T.s
disas $T 0
cat $T.dis >> $T.aa
cat $T.oo | sed -e "${faultlinenum}s/^([^:]:)(.)/\1*\2\t\t<-- trapping instruction/" echo cat $T.aa cleanup