dnl grub_ASM_USCORE checks if C symbols get an underscore after dnl compiling to assembler. dnl Written by Pavel Roskin. Based on grub_ASM_EXT_C written by dnl Erich Boleyn and modified by Yoshinori K. Okuji. AC_DEFUN(grub_ASM_USCORE, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING([if C symbols get an underscore after compilation]) AC_CACHE_VAL(grub_cv_asm_uscore, [cat > conftest.c <<\EOF int func (int *list) { *list = 0; return *list; } EOF if AC_TRY_COMMAND([${CC-cc} ${CFLAGS} -S conftest.c]) && test -s conftest.s; then true else AC_MSG_ERROR([${CC-cc} failed to produce assembly code]) fi if grep _func conftest.s >/dev/null 2>&1; then grub_cv_asm_uscore=yes else grub_cv_asm_uscore=no fi rm -f conftest*]) if test "x$grub_cv_asm_uscore" = xyes; then AC_DEFINE_UNQUOTED([HAVE_ASM_USCORE], $grub_cv_asm_uscore, [Define if C symbols get an underscore after compilation]) fi AC_MSG_RESULT([$grub_cv_asm_uscore]) ]) dnl Some versions of `objcopy -O binary' vary their output depending dnl on the link address. AC_DEFUN(grub_PROG_OBJCOPY_ABSOLUTE, [AC_MSG_CHECKING([whether ${OBJCOPY} works for absolute addresses]) AC_CACHE_VAL(grub_cv_prog_objcopy_absolute, [cat > conftest.c <<\EOF void cmain (void) { *((int *) 0x1000) = 2; } EOF if AC_TRY_EVAL(ac_compile) && test -s conftest.o; then : else AC_MSG_ERROR([${CC-cc} cannot compile C source code]) fi grub_cv_prog_objcopy_absolute=yes for link_addr in 2000 8000 7C00; do if AC_TRY_COMMAND([${CC-cc} ${CFLAGS} ${LDFLAGS} -nostdlib -Wl,-N -Wl,-Ttext -Wl,$link_addr conftest.o -o conftest.exec]); then : else AC_MSG_ERROR([${CC-cc} cannot link at address $link_addr]) fi if AC_TRY_COMMAND([${OBJCOPY-objcopy} --only-section=.text -O binary conftest.exec conftest]); then : else AC_MSG_ERROR([${OBJCOPY-objcopy} cannot create binary files]) fi if test ! -f conftest.old || AC_TRY_COMMAND([cmp -s conftest.old conftest]); then mv -f conftest conftest.old else grub_cv_prog_objcopy_absolute=no break fi done rm -f conftest*]) AC_MSG_RESULT([$grub_cv_prog_objcopy_absolute]) if test "x$grub_cv_prog_objcopy_absolute" = xno; then AC_MSG_ERROR([GRUB requires a working absolute objcopy; upgrade your binutils]) fi ]) dnl Mass confusion! dnl Older versions of GAS interpret `.code16' to mean ``generate 32-bit dnl instructions, but implicitly insert addr32 and data32 bytes so dnl that the code works in real mode''. dnl dnl Newer versions of GAS interpret `.code16' to mean ``generate 16-bit dnl instructions,'' which seems right. This requires the programmer dnl to explicitly insert addr32 and data32 instructions when they want dnl them. dnl dnl We only support the newer versions, because the old versions cause dnl major pain, by requiring manual assembly to get 16-bit instructions into dnl asm files. AC_DEFUN(grub_I386_ASM_ADDR32, [AC_REQUIRE([AC_PROG_CC]) AC_REQUIRE([grub_I386_ASM_PREFIX_REQUIREMENT]) AC_MSG_CHECKING([for .code16 addr32 assembler support]) AC_CACHE_VAL(grub_cv_i386_asm_addr32, [cat > conftest.s.in <<\EOF .code16 l1: @ADDR32@ movb %al, l1 EOF if test "x$grub_cv_i386_asm_prefix_requirement" = xyes; then sed -e s/@ADDR32@/addr32/ < conftest.s.in > conftest.s else sed -e s/@ADDR32@/addr32\;/ < conftest.s.in > conftest.s fi if AC_TRY_COMMAND([${CC-cc} ${CFLAGS} -c conftest.s]) && test -s conftest.o; then grub_cv_i386_asm_addr32=yes else grub_cv_i386_asm_addr32=no fi rm -f conftest*]) AC_MSG_RESULT([$grub_cv_i386_asm_addr32])]) dnl Later versions of GAS requires that addr32 and data32 prefixes dnl appear in the same lines as the instructions they modify, while dnl earlier versions requires that they appear in separate lines. AC_DEFUN(grub_I386_ASM_PREFIX_REQUIREMENT, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING(dnl [whether addr32 must be in the same line as the instruction]) AC_CACHE_VAL(grub_cv_i386_asm_prefix_requirement, [cat > conftest.s <<\EOF .code16 l1: addr32 movb %al, l1 EOF if AC_TRY_COMMAND([${CC-cc} ${CFLAGS} -c conftest.s]) && test -s conftest.o; then grub_cv_i386_asm_prefix_requirement=yes else grub_cv_i386_asm_prefix_requirement=no fi rm -f conftest*]) if test "x$grub_cv_i386_asm_prefix_requirement" = xyes; then grub_tmp_addr32="addr32" grub_tmp_data32="data32" else grub_tmp_addr32="addr32;" grub_tmp_data32="data32;" fi AC_DEFINE_UNQUOTED([ADDR32], $grub_tmp_addr32, [Define it to \"addr32\" or \"addr32;\" to make GAS happy]) AC_DEFINE_UNQUOTED([DATA32], $grub_tmp_data32, [Define it to \"data32\" or \"data32;\" to make GAS happy]) AC_MSG_RESULT([$grub_cv_i386_asm_prefix_requirement])]) dnl Older versions of GAS require that absolute indirect calls/jumps are dnl not prefixed with `*', while later versions warn if not prefixed. AC_DEFUN(grub_I386_ASM_ABSOLUTE_WITHOUT_ASTERISK, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING(dnl [whether an absolute indirect call/jump must not be prefixed with an asterisk]) AC_CACHE_VAL(grub_cv_i386_asm_absolute_without_asterisk, [cat > conftest.s <<\EOF lcall *(offset) offset: .long 0 .word 0 EOF if AC_TRY_COMMAND([${CC-cc} ${CFLAGS} -c conftest.s]) && test -s conftest.o; then grub_cv_i386_asm_absolute_without_asterisk=no else grub_cv_i386_asm_absolute_without_asterisk=yes fi rm -f conftest*]) if test "x$grub_cv_i386_asm_absolute_without_asterisk" = xyes; then AC_DEFINE([ABSOLUTE_WITHOUT_ASTERISK], 1, [Define it if GAS requires that absolute indirect calls/jumps are not prefixed with an asterisk]) fi AC_MSG_RESULT([$grub_cv_i386_asm_absolute_without_asterisk])]) dnl Check what symbol is defined as a start symbol. dnl Written by Yoshinori K. Okuji. AC_DEFUN(grub_CHECK_START_SYMBOL, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING([if start is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_start_symbol, [AC_TRY_LINK([], [asm ("incl start")], grub_cv_check_start_symbol=yes, grub_cv_check_start_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_start_symbol]) AC_MSG_CHECKING([if _start is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_uscore_start_symbol, [AC_TRY_LINK([], [asm ("incl _start")], grub_cv_check_uscore_start_symbol=yes, grub_cv_check_uscore_start_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_uscore_start_symbol]) AH_TEMPLATE([START_SYMBOL], [Define it to either start or _start]) if test "x$grub_cv_check_start_symbol" = xyes; then AC_DEFINE([START_SYMBOL], [start]) elif test "x$grub_cv_check_uscore_start_symbol" = xyes; then AC_DEFINE([START_SYMBOL], [_start]) else AC_MSG_ERROR([neither start nor _start is defined]) fi ]) dnl Check what symbol is defined as a bss start symbol. dnl Written by Michael Hohmoth and Yoshinori K. Okuji. AC_DEFUN(grub_CHECK_BSS_START_SYMBOL, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING([if __bss_start is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_uscore_uscore_bss_start_symbol, [AC_TRY_LINK([], [asm ("incl __bss_start")], grub_cv_check_uscore_uscore_bss_start_symbol=yes, grub_cv_check_uscore_uscore_bss_start_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_uscore_uscore_bss_start_symbol]) AC_MSG_CHECKING([if edata is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_edata_symbol, [AC_TRY_LINK([], [asm ("incl edata")], grub_cv_check_edata_symbol=yes, grub_cv_check_edata_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_edata_symbol]) AC_MSG_CHECKING([if _edata is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_uscore_edata_symbol, [AC_TRY_LINK([], [asm ("incl _edata")], grub_cv_check_uscore_edata_symbol=yes, grub_cv_check_uscore_edata_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_uscore_edata_symbol]) AH_TEMPLATE([BSS_START_SYMBOL], [Define it to one of __bss_start, edata and _edata]) if test "x$grub_cv_check_uscore_uscore_bss_start_symbol" = xyes; then AC_DEFINE([BSS_START_SYMBOL], [__bss_start]) elif test "x$grub_cv_check_edata_symbol" = xyes; then AC_DEFINE([BSS_START_SYMBOL], [edata]) elif test "x$grub_cv_check_uscore_edata_symbol" = xyes; then AC_DEFINE([BSS_START_SYMBOL], [_edata]) else AC_MSG_ERROR([none of __bss_start, edata or _edata is defined]) fi ]) dnl Check what symbol is defined as an end symbol. dnl Written by Yoshinori K. Okuji. AC_DEFUN(grub_CHECK_END_SYMBOL, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING([if end is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_end_symbol, [AC_TRY_LINK([], [asm ("incl end")], grub_cv_check_end_symbol=yes, grub_cv_check_end_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_end_symbol]) AC_MSG_CHECKING([if _end is defined by the compiler]) AC_CACHE_VAL(grub_cv_check_uscore_end_symbol, [AC_TRY_LINK([], [asm ("incl _end")], grub_cv_check_uscore_end_symbol=yes, grub_cv_check_uscore_end_symbol=no)]) AC_MSG_RESULT([$grub_cv_check_uscore_end_symbol]) AH_TEMPLATE([END_SYMBOL], [Define it to either end or _end]) if test "x$grub_cv_check_end_symbol" = xyes; then AC_DEFINE([END_SYMBOL], [end]) elif test "x$grub_cv_check_uscore_end_symbol" = xyes; then AC_DEFINE([END_SYMBOL], [_end]) else AC_MSG_ERROR([neither end nor _end is defined]) fi ]) dnl Check if the C compiler has a bug while using nested functions when dnl mregparm is used on the i386. Some gcc versions do not pass the third dnl parameter correctly to the nested function. dnl Written by Marco Gerards. AC_DEFUN(grub_I386_CHECK_REGPARM_BUG, [AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING([if GCC has the regparm=3 bug]) AC_CACHE_VAL(grub_cv_i386_check_nested_functions, [AC_RUN_IFELSE([AC_LANG_SOURCE( [[ static int test (int *n) { return *n == -1; } static int testfunc (int __attribute__ ((__regparm__ (3))) (*hook) (int a, int b, int *c)) { int a = 0; int b = 0; int c = -1; return hook (a, b, &c); } int main (void) { int __attribute__ ((__regparm__ (3))) nestedfunc (int a, int b, int *c) { return a == b && test (c); } return testfunc (nestedfunc) ? 0 : 1; } ]])], [grub_cv_i386_check_nested_functions=no], [grub_cv_i386_check_nested_functions=yes])]) AC_MSG_RESULT([$grub_cv_i386_check_nested_functions]) if test "x$grub_cv_i386_check_nested_functions" = xyes; then AC_DEFINE([NESTED_FUNC_ATTR], [__attribute__ ((__regparm__ (1)))], [Catch gcc bug]) else dnl Unfortunately, the above test does not detect a bug in gcc-4.0. dnl So use regparm 2 until a better test is found. AC_DEFINE([NESTED_FUNC_ATTR], [__attribute__ ((__regparm__ (1)))], [Catch gcc bug]) fi ]) dnl Check if the C compiler supports `-fstack-protector'. AC_DEFUN(grub_CHECK_STACK_PROTECTOR,[ [# Smashing stack protector. ssp_possible=yes] AC_MSG_CHECKING([whether `$CC' accepts `-fstack-protector']) # Is this a reliable test case? AC_LANG_CONFTEST([[void foo (void) { volatile char a[8]; a[3]; }]]) [# `$CC -c -o ...' might not be portable. But, oh, well... Is calling # `ac_compile' like this correct, after all? if eval "$ac_compile -S -fstack-protector -o conftest.s" 2> /dev/null; then] AC_MSG_RESULT([yes]) [# Should we clear up other files as well, having called `AC_LANG_CONFTEST'? rm -f conftest.s else ssp_possible=no] AC_MSG_RESULT([no]) [fi] ])