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282 |
jeremybenn |
/* DWARF2 EH unwinding support for PowerPC and PowerPC64 Linux.
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Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published
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by the Free Software Foundation; either version 3, or (at your
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option) any later version.
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GCC is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
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License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#define R_LR 65
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#define R_CR2 70
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#define R_VR0 77
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#define R_VRSAVE 109
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#define R_VSCR 110
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struct gcc_vregs
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{
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__attribute__ ((vector_size (16))) int vr[32];
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#ifdef __powerpc64__
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unsigned int pad1[3];
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unsigned int vscr;
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unsigned int vsave;
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unsigned int pad2[3];
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#else
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unsigned int vsave;
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unsigned int pad[2];
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unsigned int vscr;
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#endif
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};
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struct gcc_regs
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{
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unsigned long gpr[32];
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unsigned long nip;
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unsigned long msr;
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unsigned long orig_gpr3;
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unsigned long ctr;
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unsigned long link;
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unsigned long xer;
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unsigned long ccr;
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unsigned long softe;
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unsigned long trap;
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unsigned long dar;
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unsigned long dsisr;
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unsigned long result;
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unsigned long pad1[4];
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double fpr[32];
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unsigned int pad2;
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unsigned int fpscr;
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#ifdef __powerpc64__
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struct gcc_vregs *vp;
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#else
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unsigned int pad3[2];
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#endif
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struct gcc_vregs vregs;
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};
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struct gcc_ucontext
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{
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#ifdef __powerpc64__
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unsigned long pad[28];
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#else
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unsigned long pad[12];
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#endif
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struct gcc_regs *regs;
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struct gcc_regs rsave;
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};
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#ifdef __powerpc64__
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enum { SIGNAL_FRAMESIZE = 128 };
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/* If PC is at a sigreturn trampoline, return a pointer to the
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regs. Otherwise return NULL. */
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static struct gcc_regs *
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get_regs (struct _Unwind_Context *context)
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{
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const unsigned int *pc = context->ra;
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/* addi r1, r1, 128; li r0, 0x0077; sc (sigreturn) */
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/* addi r1, r1, 128; li r0, 0x00AC; sc (rt_sigreturn) */
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if (pc[0] != 0x38210000 + SIGNAL_FRAMESIZE || pc[2] != 0x44000002)
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return NULL;
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if (pc[1] == 0x38000077)
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{
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struct sigframe {
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char gap[SIGNAL_FRAMESIZE];
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unsigned long pad[7];
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struct gcc_regs *regs;
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} *frame = (struct sigframe *) context->cfa;
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return frame->regs;
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}
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else if (pc[1] == 0x380000AC)
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{
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/* This works for 2.4 kernels, but not for 2.6 kernels with vdso
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because pc isn't pointing into the stack. Can be removed when
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no one is running 2.4.19 or 2.4.20, the first two ppc64
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kernels released. */
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const struct rt_sigframe_24 {
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int tramp[6];
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void *pinfo;
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struct gcc_ucontext *puc;
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} *frame24 = (const struct rt_sigframe_24 *) context->ra;
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/* Test for magic value in *puc of vdso. */
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if ((long) frame24->puc != -21 * 8)
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return frame24->puc->regs;
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else
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{
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/* This works for 2.4.21 and later kernels. */
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struct rt_sigframe {
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char gap[SIGNAL_FRAMESIZE];
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struct gcc_ucontext uc;
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unsigned long pad[2];
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int tramp[6];
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void *pinfo;
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struct gcc_ucontext *puc;
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} *frame = (struct rt_sigframe *) context->cfa;
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return frame->uc.regs;
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}
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}
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return NULL;
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}
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#else /* !__powerpc64__ */
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enum { SIGNAL_FRAMESIZE = 64 };
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static struct gcc_regs *
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get_regs (struct _Unwind_Context *context)
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{
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const unsigned int *pc = context->ra;
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/* li r0, 0x7777; sc (sigreturn old) */
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/* li r0, 0x0077; sc (sigreturn new) */
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/* li r0, 0x6666; sc (rt_sigreturn old) */
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/* li r0, 0x00AC; sc (rt_sigreturn new) */
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if (pc[1] != 0x44000002)
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return NULL;
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if (pc[0] == 0x38007777 || pc[0] == 0x38000077)
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{
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struct sigframe {
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char gap[SIGNAL_FRAMESIZE];
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unsigned long pad[7];
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struct gcc_regs *regs;
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} *frame = (struct sigframe *) context->cfa;
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return frame->regs;
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}
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else if (pc[0] == 0x38006666 || pc[0] == 0x380000AC)
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{
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struct rt_sigframe {
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char gap[SIGNAL_FRAMESIZE + 16];
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char siginfo[128];
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struct gcc_ucontext uc;
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} *frame = (struct rt_sigframe *) context->cfa;
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return frame->uc.regs;
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}
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return NULL;
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}
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#endif
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/* Find an entry in the process auxiliary vector. The canonical way to
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test for VMX is to look at AT_HWCAP. */
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static long
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ppc_linux_aux_vector (long which)
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{
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/* __libc_stack_end holds the original stack passed to a process. */
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extern long *__libc_stack_end;
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long argc;
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char **argv;
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char **envp;
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struct auxv
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{
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long a_type;
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long a_val;
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} *auxp;
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/* The Linux kernel puts argc first on the stack. */
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argc = __libc_stack_end[0];
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/* Followed by argv, NULL terminated. */
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argv = (char **) __libc_stack_end + 1;
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/* Followed by environment string pointers, NULL terminated. */
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envp = argv + argc + 1;
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while (*envp++)
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continue;
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/* Followed by the aux vector, zero terminated. */
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for (auxp = (struct auxv *) envp; auxp->a_type != 0; ++auxp)
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if (auxp->a_type == which)
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return auxp->a_val;
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return 0;
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}
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/* Do code reading to identify a signal frame, and set the frame
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state data appropriately. See unwind-dw2.c for the structs. */
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#define MD_FALLBACK_FRAME_STATE_FOR ppc_fallback_frame_state
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static _Unwind_Reason_Code
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ppc_fallback_frame_state (struct _Unwind_Context *context,
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_Unwind_FrameState *fs)
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{
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static long hwcap = 0;
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struct gcc_regs *regs = get_regs (context);
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long new_cfa;
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int i;
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if (regs == NULL)
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return _URC_END_OF_STACK;
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new_cfa = regs->gpr[STACK_POINTER_REGNUM];
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fs->regs.cfa_how = CFA_REG_OFFSET;
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fs->regs.cfa_reg = STACK_POINTER_REGNUM;
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fs->regs.cfa_offset = new_cfa - (long) context->cfa;
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for (i = 0; i < 32; i++)
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if (i != STACK_POINTER_REGNUM)
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{
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fs->regs.reg[i].how = REG_SAVED_OFFSET;
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fs->regs.reg[i].loc.offset = (long) ®s->gpr[i] - new_cfa;
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}
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fs->regs.reg[R_CR2].how = REG_SAVED_OFFSET;
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/* CR? regs are always 32-bit and PPC is big-endian, so in 64-bit
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libgcc loc.offset needs to point to the low 32 bits of regs->ccr. */
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fs->regs.reg[R_CR2].loc.offset = (long) ®s->ccr - new_cfa
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+ sizeof (long) - 4;
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fs->regs.reg[R_LR].how = REG_SAVED_OFFSET;
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fs->regs.reg[R_LR].loc.offset = (long) ®s->link - new_cfa;
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fs->regs.reg[ARG_POINTER_REGNUM].how = REG_SAVED_OFFSET;
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fs->regs.reg[ARG_POINTER_REGNUM].loc.offset = (long) ®s->nip - new_cfa;
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fs->retaddr_column = ARG_POINTER_REGNUM;
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fs->signal_frame = 1;
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if (hwcap == 0)
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{
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hwcap = ppc_linux_aux_vector (16);
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/* These will already be set if we found AT_HWCAP. A nonzero
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value stops us looking again if for some reason we couldn't
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find AT_HWCAP. */
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#ifdef __powerpc64__
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hwcap |= 0xc0000000;
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#else
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hwcap |= 0x80000000;
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#endif
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}
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/* If we have a FPU... */
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if (hwcap & 0x08000000)
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for (i = 0; i < 32; i++)
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{
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fs->regs.reg[i + 32].how = REG_SAVED_OFFSET;
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fs->regs.reg[i + 32].loc.offset = (long) ®s->fpr[i] - new_cfa;
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}
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/* If we have a VMX unit... */
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if (hwcap & 0x10000000)
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{
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struct gcc_vregs *vregs;
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#ifdef __powerpc64__
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vregs = regs->vp;
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#else
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vregs = ®s->vregs;
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#endif
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if (regs->msr & (1 << 25))
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{
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for (i = 0; i < 32; i++)
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{
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fs->regs.reg[i + R_VR0].how = REG_SAVED_OFFSET;
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fs->regs.reg[i + R_VR0].loc.offset
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= (long) &vregs->vr[i] - new_cfa;
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}
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fs->regs.reg[R_VSCR].how = REG_SAVED_OFFSET;
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fs->regs.reg[R_VSCR].loc.offset = (long) &vregs->vscr - new_cfa;
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}
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fs->regs.reg[R_VRSAVE].how = REG_SAVED_OFFSET;
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fs->regs.reg[R_VRSAVE].loc.offset = (long) &vregs->vsave - new_cfa;
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}
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300 |
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/* If we have SPE register high-parts... we check at compile-time to
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avoid expanding the code for all other PowerPC. */
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#ifdef __SPE__
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for (i = 0; i < 32; i++)
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{
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fs->regs.reg[i + FIRST_PSEUDO_REGISTER - 1].how = REG_SAVED_OFFSET;
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fs->regs.reg[i + FIRST_PSEUDO_REGISTER - 1].loc.offset
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= (long) ®s->vregs - new_cfa + 4 * i;
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}
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#endif
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310 |
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311 |
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return _URC_NO_REASON;
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}
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313 |
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314 |
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#define MD_FROB_UPDATE_CONTEXT frob_update_context
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static void
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frob_update_context (struct _Unwind_Context *context, _Unwind_FrameState *fs ATTRIBUTE_UNUSED)
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{
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const unsigned int *pc = (const unsigned int *) context->ra;
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320 |
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321 |
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/* Fix up for 2.6.12 - 2.6.16 Linux kernels that have vDSO, but don't
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have S flag in it. */
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#ifdef __powerpc64__
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/* addi r1, r1, 128; li r0, 0x0077; sc (sigreturn) */
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325 |
|
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/* addi r1, r1, 128; li r0, 0x00AC; sc (rt_sigreturn) */
|
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if (pc[0] == 0x38210000 + SIGNAL_FRAMESIZE
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&& (pc[1] == 0x38000077 || pc[1] == 0x380000AC)
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&& pc[2] == 0x44000002)
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_Unwind_SetSignalFrame (context, 1);
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#else
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/* li r0, 0x7777; sc (sigreturn old) */
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/* li r0, 0x0077; sc (sigreturn new) */
|
333 |
|
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/* li r0, 0x6666; sc (rt_sigreturn old) */
|
334 |
|
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/* li r0, 0x00AC; sc (rt_sigreturn new) */
|
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|
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if ((pc[0] == 0x38007777 || pc[0] == 0x38000077
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|| pc[0] == 0x38006666 || pc[0] == 0x380000AC)
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&& pc[1] == 0x44000002)
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_Unwind_SetSignalFrame (context, 1);
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#endif
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340 |
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341 |
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#ifdef __powerpc64__
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if (fs->regs.reg[2].how == REG_UNSAVED)
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{
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344 |
|
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/* If the current unwind info (FS) does not contain explicit info
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345 |
|
|
saving R2, then we have to do a minor amount of code reading to
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346 |
|
|
figure out if it was saved. The big problem here is that the
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347 |
|
|
code that does the save/restore is generated by the linker, so
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348 |
|
|
we have no good way to determine at compile time what to do. */
|
349 |
|
|
unsigned int *insn
|
350 |
|
|
= (unsigned int *) _Unwind_GetGR (context, R_LR);
|
351 |
|
|
if (insn && *insn == 0xE8410028)
|
352 |
|
|
_Unwind_SetGRPtr (context, 2, context->cfa + 40);
|
353 |
|
|
}
|
354 |
|
|
#endif
|
355 |
|
|
}
|