binutils-gdb/binutils/embedspu.sh

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#! /bin/sh
# Embed an SPU ELF executable into a PowerPC object file.
#
# Copyright (C) 2006-2018 Free Software Foundation, Inc.
#
# This file is part of GNU Binutils.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
# 02110-1301, USA.
usage ()
{
echo "Usage: embedspu [flags] symbol_name input_filename output_filename"
echo
echo " input_filename: SPU ELF executable to be embedded"
echo " output_filename: Resulting PowerPC object file"
echo " symbol_name: Name of program handle struct to be defined"
echo " flags: GCC flags defining PowerPC object file format"
echo " (e.g. -m32 or -m64)"
exit 1
}
program_transform_name=
mydir=`dirname "$0"`
find_prog ()
{
prog=`echo $1 | sed "$program_transform_name"`
prog="$mydir/$prog"
test -x "$prog" && return 0
prog="$mydir/$1"
test -x "$prog" && return 0
prog=`echo $1 | sed "$program_transform_name"`
which $prog > /dev/null 2> /dev/null && return 0
return 1
}
SYMBOL=
INFILE=
OUTFILE=
FLAGS=
parse_args ()
{
while test -n "$1"; do
case "$1" in
-*) FLAGS="${FLAGS} $1" ;;
*) if test -z "$SYMBOL"; then
SYMBOL="$1"
elif test -z "$INFILE"; then
INFILE="$1"
elif test -z "$OUTFILE"; then
OUTFILE="$1"
else
echo "Too many arguments!"
usage
fi ;;
esac
shift
done
if test -z "$OUTFILE"; then
usage
fi
if test ! -r "$INFILE"; then
echo "${INFILE}: File not found"
usage
fi
}
main ()
{
parse_args "$@"
# Find a powerpc gcc. Support running from a combined tree build.
if test -x "$mydir/../gcc/xgcc"; then
CC="$mydir/../gcc/xgcc -B$mydir/../gcc/"
else
find_prog gcc
if test $? -ne 0; then
echo "Cannot find $prog"
exit 1
fi
CC="$prog"
fi
# Find readelf. Any old readelf should do.
find_prog readelf
if test $? -ne 0; then
if which readelf > /dev/null 2> /dev/null; then
prog=readelf
else
echo "Cannot find $prog"
exit 1
fi
fi
READELF="$prog"
# Sanity check the input file
if ! ${READELF} -h ${INFILE} | grep 'Class:.*ELF32' >/dev/null 2>/dev/null \
|| ! ${READELF} -h ${INFILE} | grep 'Type:.*EXEC' >/dev/null 2>/dev/null \
|| ! ${READELF} -h ${INFILE} | egrep 'Machine:.*(SPU|17)' >/dev/null 2>/dev/null
then
echo "${INFILE}: Does not appear to be an SPU executable"
exit 1
fi
toe=`${READELF} -S ${INFILE} | sed -n -e 's, *\[ *\([0-9]*\)\] *\.toe *[PROGN]*BITS *\([0-9a-f]*\).*,\1 \2,p'`
toe_addr=`echo $toe | sed -n -e 's,.* ,,p'`
toe=`echo $toe | sed -n -e 's, .*,,p'`
has_ea=`${READELF} -S ${INFILE} | sed -n -e 's, *\[ *\([0-9]*\)\] *\._ea *PROGBITS.*,\1,p'`
# For loaded sections, pick off section number, address, and file offset
sections=`${READELF} -S ${INFILE} | sed -n -e 's, *\[ *\([0-9]*\)\] *[^ ]* *PROGBITS *\([0-9a-f]*\) *\([0-9a-f]*\).*,\1 \2 \3,p'`
sections=`echo ${sections}`
# For relocation sections, pick off file offset and info (points to
# section where relocs apply)
relas=`${READELF} -S ${INFILE} | sed -n -e 's, *\[ *[0-9]*\] *[^ ]* *RELA *[0-9a-f]* *0*\([0-9a-f][0-9a-f]*\).* \([0-9a-f][0-9a-f]*\) *[0-9a-f][0-9a-f]*$,\1 \2,p'`
relas=`echo ${relas}`
# Build embedded SPU image.
# 1. The whole SPU ELF file is written to .rodata.speelf
# 2. Symbols starting with the string "_EAR_" in the SPU ELF image are
# special. They allow an SPU program to access corresponding symbols
# (ie. minus the _EAR_ prefix), in the PowerPC program. _EAR_ without
# a suffix is used to refer to the addrress of the SPU image in
# PowerPC address space. _EAR_* symbols must all be defined in .toe
# at 16 byte intervals, or they must be defined in other non-bss
# sections.
# Find all _EAR_ symbols in .toe using readelf, sort by address, and
# write the address of the corresponding PowerPC symbol in a table
# built in .data.spetoe. For _EAR_ symbols not in .toe, create
# .reloc commands to relocate their location directly.
# 3. Look for R_SPU_PPU32 and R_SPU_PPU64 relocations in the SPU ELF image
# and create .reloc commands for them.
# 4. Write a struct spe_program_handle to .data.
# 5. Write a table of _SPUEAR_ symbols.
${CC} ${FLAGS} -x assembler-with-cpp -nostartfiles -nostdlib \
-Wa,-mbig -Wa,-noexecstack -Wl,-r -Wl,-x -o ${OUTFILE} - <<EOF
.section .data.spetoe,"aw",@progbits
.p2align 7
__spetoe__:
`${READELF} -s -W ${INFILE} | grep ' _EAR_' | sort -k 2 | awk \
'BEGIN { \
addr = strtonum ("0x" "'${toe_addr:-0}'"); \
split ("'"${sections}"'", s, " "); \
for (i = 1; i in s; i += 3) { \
sec_off[s[i]] = strtonum ("0x" s[i+2]) - strtonum ("0x" s[i+1]); \
} \
} \
$7 == "'${toe}'" && strtonum ("0x" $2) != addr { \
print "#error Symbol " $8 " not in 16 byte element toe array!"; \
} \
$7 == "'${toe}'" { \
addr = addr + 16; \
} \
$7 == "'${toe}'" { \
print "#ifdef _LP64"; \
print " .quad " ($8 == "_EAR_" ? "__speelf__" : substr($8, 6)) ", 0"; \
print "#else"; \
print " .int 0, " ($8 == "_EAR_" ? "__speelf__" : substr($8, 6)) ", 0, 0"; \
print "#endif"; \
} \
$7 != "'${toe}'" && $7 in sec_off { \
print "#ifdef _LP64"; \
print " .reloc __speelf__+" strtonum ("0x" $2) + sec_off[$7] ", R_PPC64_ADDR64, " ($8 == "_EAR_" ? "__speelf__" : substr($8, 6)); \
print "#else"; \
print " .reloc __speelf__+" strtonum ("0x" $2) + sec_off[$7] + 4 ", R_PPC_ADDR32, " ($8 == "_EAR_" ? "__speelf__" : substr($8, 6)); \
print "#endif"; \
if (!donedef) { print "#define HAS_RELOCS 1"; donedef = 1; }; \
} \
$7 != "'${toe}'" && ! $7 in sec_off { \
print "#error Section not found for " $8; \
} \
'`
`test -z "${relas}" || ${READELF} -r -W ${INFILE} | awk \
'BEGIN { \
split ("'"${sections}"'", s, " "); \
for (i = 1; i in s; i += 3) { \
sec_off[s[i]] = strtonum ("0x" s[i+2]) - strtonum ("0x" s[i+1]); \
} \
split ("'"${relas}"'", s, " "); \
for (i = 1; i in s; i += 2) { \
rela[s[i]] = strtonum (s[i+1]); \
} \
} \
/^Relocation section/ { \
sec = substr($6, 3); \
} \
$3 ~ /R_SPU_PPU/ { \
print "#ifdef _LP64"; \
print " .reloc __speelf__+" strtonum ("0x" $1) + sec_off[rela[sec]] ", R_PPC64_ADDR" substr($3, 10) ", " ($5 != "" ? $5 "+0x" $7 : "__speelf__ + 0x" $4); \
print "#else"; \
print " .reloc __speelf__+" strtonum ("0x" $1) + sec_off[rela[sec]] + (substr($3, 10) == "64" ? 4 : 0)", R_PPC_ADDR32, " ($5 != "" ? $5 "+0x" $7 : "__speelf__ + 0x" $4); \
print "#endif"; \
if (!donedef) { print "#define HAS_RELOCS 1"; donedef = 1; }; \
} \
$3 ~ /unrecognized:/ { \
print "#ifdef _LP64"; \
print " .reloc __speelf__+" strtonum ("0x" $1) + sec_off[rela[sec]] ", R_PPC64_ADDR" ($4 == "f" ? "64" : "32") ", " ($6 != "" ? $6 "+0x" $8 : "__speelf__ + 0x" $5); \
print "#else"; \
print " .reloc __speelf__+" strtonum ("0x" $1) + sec_off[rela[sec]] + ($4 == "f" ? 4 : 0)", R_PPC_ADDR32, " ($6 != "" ? $6 "+0x" $8 : "__speelf__ + 0x" $5); \
print "#endif"; \
if (!donedef) { print "#define HAS_RELOCS 1"; donedef = 1; }; \
} \
'`
#if ${has_ea:-0}
.section .data.speelf,"aw",@progbits
#elif defined (HAS_RELOCS) && (defined (__PIC__) || defined (__PIE__))
.section .data.rel.ro.speelf,"a",@progbits
#else
.section .rodata.speelf,"a",@progbits
#endif
.p2align 7
__speelf__:
.incbin "${INFILE}"
.section .data.spehandle,"aw",@progbits
.globl ${SYMBOL}
.type ${SYMBOL}, @object
# fill in a struct spe_program_handle
#ifdef _LP64
.p2align 3
${SYMBOL}:
.int 24
.int 0
.quad __speelf__
.quad __spetoe__
#else
.p2align 2
${SYMBOL}:
.int 12
.int __speelf__
.int __spetoe__
#endif
.size ${SYMBOL}, . - ${SYMBOL}
`${READELF} -s -W ${INFILE} | grep ' _SPUEAR_' | sort -k 2 | awk \
'{ \
print " .globl '${SYMBOL}'_" substr($8, 9); \
print " .type '${SYMBOL}'_" substr($8, 9) ", @object"; \
print " .size '${SYMBOL}'_" substr($8, 9) ", 4"; \
print "'${SYMBOL}'_" substr($8, 9) ":"; \
print " .int 0x" $2; \
} \
'`
EOF
}
main "$@"