/* Copyright (C) 1999, 2005, 2009, 2010 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library. If not, see . */ #include /* If no SA_RESTORER function was specified by the application we use one of these. This avoids the need for the kernel to synthesise a return instruction on the stack, which would involve expensive cache flushes. Nowadays (2.6 series, and somewhat earlier) the kernel uses a high page for signal trampolines, so the cache flushes are not an issue. But since we do not have a vDSO, continue to use these so that we can provide unwind information. Start the unwind tables at least one instruction before the signal trampoline, because the unwinder will assume we are returning after a call site. Because the signal frame layout changed in 2.6.18, we provide two copies of these functions with different unwind information. */ /* Used in ENTRY. */ #undef cfi_startproc #define cfi_startproc \ .cfi_startproc simple; \ .cfi_signal_frame /* The CFA is not computed / used correctly here; this is neither trivial to do, nor is it needed. */ #define CFI \ cfi_def_cfa (sp, 0); \ cfi_offset (r0, OFFSET + 0 * 4); \ cfi_offset (r1, OFFSET + 1 * 4); \ cfi_offset (r2, OFFSET + 2 * 4); \ cfi_offset (r3, OFFSET + 3 * 4); \ cfi_offset (r4, OFFSET + 4 * 4); \ cfi_offset (r5, OFFSET + 5 * 4); \ cfi_offset (r6, OFFSET + 6 * 4); \ cfi_offset (r7, OFFSET + 7 * 4); \ cfi_offset (r8, OFFSET + 8 * 4); \ cfi_offset (r9, OFFSET + 9 * 4); \ cfi_offset (r10, OFFSET + 10 * 4); \ cfi_offset (r11, OFFSET + 11 * 4); \ cfi_offset (r12, OFFSET + 12 * 4); \ cfi_offset (r13, OFFSET + 13 * 4); \ cfi_offset (r14, OFFSET + 14 * 4); \ cfi_offset (r15, OFFSET + 15 * 4) #ifndef __ASSUME_SIGFRAME_V2 #define OFFSET 12 .fnstart .save {r0-r15} .pad #OFFSET nop ENTRY(__default_sa_restorer_v1) CFI mov r7, $SYS_ify(sigreturn) swi 0x0 .fnend END(__default_sa_restorer_v1) #undef OFFSET #endif /* __ASSUME_SIGFRAME_V2 */ #define OFFSET 32 .fnstart .save {r0-r15} .pad #OFFSET nop ENTRY(__default_sa_restorer_v2) CFI mov r7, $SYS_ify(sigreturn) swi 0x0 .fnend END(__default_sa_restorer_v2) #undef OFFSET #ifdef __NR_rt_sigreturn #ifndef __ASSUME_SIGFRAME_V2 #define OFFSET 168 .fnstart .save {r0-r15} .pad #OFFSET nop ENTRY(__default_rt_sa_restorer_v1) CFI mov r7, $SYS_ify(rt_sigreturn) swi 0x0 .fnend END(__default_rt_sa_restorer_v1) #undef OFFSET #endif /* __ASSUME_SIGFRAME_V2 */ #define OFFSET 160 .fnstart .save {r0-r15} .pad #OFFSET nop ENTRY(__default_rt_sa_restorer_v2) CFI mov r7, $SYS_ify(rt_sigreturn) swi 0x0 .fnend END(__default_rt_sa_restorer_v2) #undef OFFSET #endif /* __NR_rt_sigreturn */