dnl x86 fat binary entrypoints. dnl Contributed to the GNU project by Kevin Ryde (original x86_32 code) and dnl Torbjorn Granlund (port to x86_64) dnl Copyright 2003, 2009, 2011, 2012 Free Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl The GNU MP Library is free software; you can redistribute it and/or dnl modify it under the terms of the GNU Lesser General Public License as dnl published by the Free Software Foundation; either version 3 of the dnl License, or (at your option) any later version. dnl The GNU MP Library is distributed in the hope that it will be useful, dnl but WITHOUT ANY WARRANTY; without even the implied warranty of dnl MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU dnl Lesser General Public License for more details. dnl You should have received a copy of the GNU Lesser General Public License dnl along with the GNU MP Library. If not, see http://www.gnu.org/licenses/. include(`../config.m4') dnl Forcibly disable profiling. dnl dnl The entrypoints and inits are small enough not to worry about, the real dnl routines arrived at will have any profiling. Also, the way the code dnl here ends with a jump means we won't work properly with the dnl "instrument" profiling scheme anyway. define(`WANT_PROFILING',no) dnl We define PIC_OR_DARWIN as a helper symbol, the use it for suppressing dnl normal, fast call code, since that triggers problems on darwin. dnl dnl FIXME: There might be a more elegant solution, adding less overhead. ifdef(`DARWIN', `define(`PIC_OR_DARWIN')') ifdef(`PIC', `define(`PIC_OR_DARWIN')') ABI_SUPPORT(DOS64) ABI_SUPPORT(STD64) TEXT dnl Usage: FAT_ENTRY(name, offset) dnl dnl Emit a fat binary entrypoint function of the given name. This is the dnl normal entry for applications, eg. __gmpn_add_n. dnl dnl The code simply jumps through the function pointer in __gmpn_cpuvec at dnl the given "offset" (in bytes). dnl dnl For non-PIC, the jumps are 5 bytes each, aligning them to 8 should be dnl fine for all x86s. dnl dnl For ELF/DARWIN PIC, the jumps are 20 bytes each, and are best aligned to dnl 16 to ensure at least the first two instructions don't cross a cache line dnl boundary. dnl dnl For DOS64, the jumps are 6 bytes. The same form works also for GNU/Linux dnl (at least with certain assembler/linkers) but FreeBSD 8.2 crashes. Not dnl tested on Darwin, Slowaris, NetBSD, etc. dnl dnl Note the extra `' ahead of PROLOGUE obscures it from the HAVE_NATIVE dnl grepping in configure, stopping that code trying to eval something with dnl $1 in it. define(FAT_ENTRY, m4_assert_numargs(2) `ifdef(`HOST_DOS64', ` ALIGN(8) `'PROLOGUE($1) jmp *$2+GSYM_PREFIX`'__gmpn_cpuvec(%rip) EPILOGUE() ', ` ALIGN(ifdef(`PIC',16,8)) `'PROLOGUE($1) ifdef(`PIC_OR_DARWIN', ` LEA( GSYM_PREFIX`'__gmpn_cpuvec, %rax) jmp *$2(%rax) ',`dnl non-PIC jmp *GSYM_PREFIX`'__gmpn_cpuvec+$2 ') EPILOGUE() ')') dnl FAT_ENTRY for each CPUVEC_FUNCS_LIST dnl define(`CPUVEC_offset',0) foreach(i, `FAT_ENTRY(MPN(i),CPUVEC_offset) define(`CPUVEC_offset',eval(CPUVEC_offset + 8))', CPUVEC_FUNCS_LIST) dnl Usage: FAT_INIT(name, offset) dnl dnl Emit a fat binary initializer function of the given name. These dnl functions are the initial values for the pointers in __gmpn_cpuvec. dnl dnl The code simply calls __gmpn_cpuvec_init, and then jumps back through dnl the __gmpn_cpuvec pointer, at the given "offset" (in bytes). dnl __gmpn_cpuvec_init will have stored the address of the selected dnl implementation there. dnl dnl Only one of these routines will be executed, and only once, since after dnl that all the __gmpn_cpuvec pointers go to real routines. So there's no dnl need for anything special here, just something small and simple. To dnl keep code size down, "fat_init" is a shared bit of code, arrived at dnl with the offset in %al. %al is used since the movb instruction is 2 dnl bytes where %eax would be 4. dnl dnl Note having `PROLOGUE in FAT_INIT obscures that PROLOGUE from the dnl HAVE_NATIVE grepping in configure, preventing that code trying to eval dnl something with $1 in it. dnl dnl We need to preserve parameter registers over the __gmpn_cpuvec_init call define(FAT_INIT, m4_assert_numargs(2) `PROLOGUE($1) mov $`'$2, %al jmp L(fat_init) EPILOGUE() ') dnl FAT_INIT for each CPUVEC_FUNCS_LIST dnl define(`CPUVEC_offset',0) foreach(i, `FAT_INIT(MPN(i`'_init),CPUVEC_offset) define(`CPUVEC_offset',eval(CPUVEC_offset + 1))', CPUVEC_FUNCS_LIST) L(fat_init): C al __gmpn_cpuvec byte offset movzbl %al, %eax IFSTD(` push %rdi ') IFSTD(` push %rsi ') push %rdx push %rcx push %r8 push %r9 push %rax CALL( __gmpn_cpuvec_init) pop %rax pop %r9 pop %r8 pop %rcx pop %rdx IFSTD(` pop %rsi ') IFSTD(` pop %rdi ') ifdef(`PIC_OR_DARWIN',` LEA( GSYM_PREFIX`'__gmpn_cpuvec, %r10) jmp *(%r10,%rax,8) ',`dnl non-PIC jmp *GSYM_PREFIX`'__gmpn_cpuvec(,%rax,8) ') C long __gmpn_cpuid (char dst[12], int id); C C This is called only 3 times, so just something simple and compact is fine. define(`rp', `%rdi') define(`idx', `%rsi') PROLOGUE(__gmpn_cpuid) FUNC_ENTRY(2) mov %rbx, %r8 mov R32(idx), R32(%rax) cpuid mov %ebx, (rp) mov %edx, 4(rp) mov %ecx, 8(rp) mov %r8, %rbx FUNC_EXIT() ret EPILOGUE()