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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgcc/] [config/] [alpha/] [vms-unwind.h] - Blame information for rev 750

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1 734 jeremybenn
/* Fallback frame unwinding for Alpha/VMS.
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   Copyright (C) 1996, 1997, 1998, 2000, 2001, 2002, 2003, 2009, 2010, 2011
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   Free Software Foundation, Inc.
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5
   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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#include <stdlib.h>
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#include <stdio.h>
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#include <vms/pdscdef.h>
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#include <vms/libicb.h>
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#include <vms/chfctxdef.h>
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#include <vms/chfdef.h>
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#define MD_FALLBACK_FRAME_STATE_FOR alpha_vms_fallback_frame_state
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typedef void * ADDR;
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typedef unsigned long long REG;
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typedef PDSCDEF * PV;
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#define REG_AT(addr) (*(REG *)(addr))
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#define ADDR_AT(addr) (*(ADDR *)(addr))
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/* Compute pointer to procedure descriptor (Procedure Value) from Frame
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   Pointer FP, according to the rules in [ABI-3.5.1 Current Procedure].  */
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#define PV_FOR(FP) \
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  (((FP) != 0) \
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    ? (((REG_AT (FP) & 0x7) == 0) ? *(PDSCDEF **)(FP) : (PDSCDEF *)(FP)) : 0)
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extern int SYS$GL_CALL_HANDL;
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/* This is actually defined as a "long", but in system code where longs
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   are always 4bytes while GCC longs might be 8bytes.  */
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#define UPDATE_FS_FOR_CFA_GR(FS, GRN, LOC, CFA) \
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do { \
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(FS)->regs.reg[GRN].how = REG_SAVED_OFFSET;      \
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(FS)->regs.reg[GRN].loc.offset = (_Unwind_Sword) ((REG) (LOC) - (REG) (CFA)); \
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} while (0);
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#define GIVEUP_ON_FAILURE(STATUS) \
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  { if ((((STATUS) & 1) != 1)) return _URC_END_OF_STACK; }
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#define DENOTES_EXC_DISPATCHER(PV) ((PV) == (ADDR) (REG) SYS$GL_CALL_HANDL)
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#define RA_COLUMN (DWARF_ALT_FRAME_RETURN_COLUMN)
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static int
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alpha_vms_fallback_frame_state (struct _Unwind_Context *context,
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                                _Unwind_FrameState *fs)
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{
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  static int eh_debug = -1;
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  /* Our goal is to update FS to reflect the state one step up CONTEXT, that
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     is: the CFA, return address and *saved* registers locations associated
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     with the function designated by CONTEXT->ra.  We are called when the
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     libgcc unwinder has not found any dwarf FDE for this address, which
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     typically happens when trying to propagate a language exception through a
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     signal global vector or frame based handler.
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77
     The CONTEXT->reg[] entries reflect the state/location of register saves
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     so designate values live at the CONTEXT->ra point.  Of precious value to
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     us here is the frame pointer (r29), which gets us a procedure value.  */
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81
  PV pv = (context->reg[29] != 0) ? PV_FOR (ADDR_AT (context->reg[29])) : 0;
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83
  int pkind = pv ? pv->pdsc$w_flags & 0xf : 0;
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  /* VMS procedure kind, as indicated by the procedure descriptor.  We only
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     know how to deal with FP_STACK or FP_REGISTER here.  */
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  ADDR new_cfa = 0;
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  /* CFA we will establish for the caller, computed in different ways,
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     e.g. depending whether we cross an exception dispatcher frame.  */
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91
  CHFCTX *chfctx = 0;
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  /* Pointer to the VMS CHF context associated with an exception dispatcher
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     frame, if we happen to come across one.  */
94
 
95
  int i,j;
96
 
97
  if (eh_debug == -1)
98
    {
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      char * eh_debug_env = getenv ("EH_DEBUG");
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      eh_debug = eh_debug_env ? atoi (eh_debug_env) : 0;
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    }
102
 
103
  if (eh_debug)
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    printf ("MD_FALLBACK running ...\n");
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106
  /* We only know how to deal with stack or reg frame procedures, so give
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     up if we're handed anything else.  */
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  if (pkind != PDSC$K_KIND_FP_STACK && pkind != PDSC$K_KIND_FP_REGISTER)
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    return _URC_END_OF_STACK;
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111
  if (eh_debug)
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    printf ("FALLBACK: CTX FP = 0x%p, PV = 0x%p, EN = 0x%llx, RA = 0x%p\n",
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            ADDR_AT (context->reg[29]), pv, pv->pdsc$q_entry, context->ra);
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115
  fs->retaddr_column = RA_COLUMN;
116
 
117
  /* If PV designates a VMS exception vector or condition handler, we need to
118
     do as if the caller was the signaling point and estabish the state of the
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     intermediate VMS code (CFA, RA and saved register locations) as if it was
120
     a single regular function.  This requires special processing.
121
 
122
     The datastructures available from an condition dispatcher frame (signal
123
     context) do not contain the values of most callee-saved registers, so
124
     whathever PV designates, we need to account for the registers it saves.
125
 
126
     Besides, we need to express all the locations with respect to a
127
     consistent CFA value, so we compute this first.  */
128
 
129
  if (DENOTES_EXC_DISPATCHER (pv))
130
    {
131
      /* The CFA to establish is the signaling point's stack pointer. We
132
         compute it using the system invocation context unwinding services and
133
         save the CHF context data pointer along the way for later uses.  */
134
 
135
      INVO_CONTEXT_BLK icb;
136
      int status, invo_handle;
137
 
138
      if (eh_debug)
139
        printf ("FALLBACK: SYS$HANDLER\n");
140
 
141
      icb.libicb$q_ireg [29] = REG_AT (context->reg[29]);
142
      icb.libicb$q_ireg [30] = 0;
143
      invo_handle = LIB$GET_INVO_HANDLE (&icb);
144
 
145
      status = LIB$GET_INVO_CONTEXT (invo_handle, &icb);
146
      GIVEUP_ON_FAILURE (status);
147
 
148
      chfctx = (CHFCTX *) icb.libicb$ph_chfctx_addr;
149
 
150
      status = LIB$GET_PREV_INVO_CONTEXT (&icb);
151
      GIVEUP_ON_FAILURE (status);
152
 
153
      new_cfa = (ADDR) icb.libicb$q_ireg[30];
154
    }
155
  else
156
    {
157
      /* The CFA to establish is the SP value on entry of the procedure
158
         designated by PV, which we compute as the corresponding frame base
159
         register value + frame size.  Note that the frame base may differ
160
         from CONTEXT->cfa, typically if the caller has performed dynamic
161
         stack allocations.  */
162
 
163
      int  base_reg  = pv->pdsc$w_flags & PDSC$M_BASE_REG_IS_FP ? 29 : 30;
164
      ADDR base_addr = ADDR_AT (context->reg[base_reg]);
165
 
166
      new_cfa = base_addr + pv->pdsc$l_size;
167
    }
168
 
169
  /* State to compute the caller's CFA by adding an offset to the current
170
     one in CONTEXT.  */
171
  fs->regs.cfa_how = CFA_REG_OFFSET;
172
  fs->regs.cfa_reg = __builtin_dwarf_sp_column ();
173
  fs->regs.cfa_offset = new_cfa - context->cfa;
174
 
175
  /* Regular unwind first, accounting for the register saves performed by
176
     the procedure designated by PV.  */
177
 
178
  switch (pkind)
179
    {
180
    case PDSC$K_KIND_FP_STACK:
181
      {
182
        /* The saved registers are all located in the Register Save Area,
183
           except for the procedure value register (R27) found at the frame
184
           base address.  */
185
 
186
        int  base_reg  = pv->pdsc$w_flags & PDSC$M_BASE_REG_IS_FP ? 29 : 30;
187
        ADDR base_addr = ADDR_AT (context->reg[base_reg]);
188
        ADDR rsa_addr  = base_addr + pv->pdsc$w_rsa_offset;
189
 
190
        if (eh_debug)
191
          printf ("FALLBACK: STACK frame procedure\n");
192
 
193
        UPDATE_FS_FOR_CFA_GR (fs, 27, base_addr, new_cfa);
194
 
195
        /* The first RSA entry is for the return address register, R26.  */
196
 
197
        UPDATE_FS_FOR_CFA_GR (fs, 26, rsa_addr, new_cfa);
198
        UPDATE_FS_FOR_CFA_GR (fs, RA_COLUMN, rsa_addr, new_cfa);
199
 
200
        /* The following entries are for registers marked as saved according
201
           to ireg_mask.  */
202
        for (i = 0, j = 0; i < 32; i++)
203
          if ((1 << i) & pv->pdsc$l_ireg_mask)
204
            UPDATE_FS_FOR_CFA_GR (fs, i, rsa_addr + 8 * ++j, new_cfa);
205
 
206
        /* ??? floating point registers ?  */
207
 
208
        break;
209
      }
210
 
211
    case PDSC$K_KIND_FP_REGISTER:
212
      {
213
        if (eh_debug)
214
          printf ("FALLBACK: REGISTER frame procedure\n");
215
 
216
        fs->regs.reg[RA_COLUMN].how = REG_SAVED_REG;
217
        fs->regs.reg[RA_COLUMN].loc.reg = pv->pdsc$b_save_ra;
218
 
219
        fs->regs.reg[29].how = REG_SAVED_REG;
220
        fs->regs.reg[29].loc.reg = pv->pdsc$b_save_fp;
221
 
222
        break;
223
      }
224
 
225
    default:
226
      /* Should never reach here.  */
227
      return _URC_END_OF_STACK;
228
    }
229
 
230
  /* If PV designates an exception dispatcher, we have to adjust the return
231
     address column to get at the signal occurrence point, and account for
232
     what the CHF context contains.  */
233
 
234
  if (DENOTES_EXC_DISPATCHER (pv))
235
    {
236
      /* The PC of the instruction causing the condition is available from the
237
         signal argument vector.  Extra saved register values are available
238
         from the mechargs array.  */
239
 
240
      CHF$SIGNAL_ARRAY *sigargs
241
        = (CHF$SIGNAL_ARRAY *) chfctx->chfctx$q_sigarglst;
242
 
243
      CHF$MECH_ARRAY *mechargs
244
        = (CHF$MECH_ARRAY *) chfctx->chfctx$q_mcharglst;
245
 
246
      ADDR condpc_addr
247
        = &((int *)(&sigargs->chf$l_sig_name)) [sigargs->chf$is_sig_args-2];
248
 
249
      ADDR rei_frame_addr = (void *) mechargs->chf$q_mch_esf_addr;
250
 
251
      /* Adjust the return address location.  */
252
 
253
      UPDATE_FS_FOR_CFA_GR (fs, RA_COLUMN, condpc_addr, new_cfa);
254
 
255
      /* The frame pointer at the condition point is available from the
256
         chf context directly.  */
257
 
258
      UPDATE_FS_FOR_CFA_GR (fs, 29, &chfctx->chfctx$q_expt_fp, new_cfa);
259
 
260
      /* Registers available from the mechargs array.  */
261
 
262
      UPDATE_FS_FOR_CFA_GR (fs, 0, &mechargs->chf$q_mch_savr0, new_cfa);
263
      UPDATE_FS_FOR_CFA_GR (fs, 1, &mechargs->chf$q_mch_savr1, new_cfa);
264
 
265
      UPDATE_FS_FOR_CFA_GR (fs, 16, &mechargs->chf$q_mch_savr16, new_cfa);
266
      UPDATE_FS_FOR_CFA_GR (fs, 17, &mechargs->chf$q_mch_savr17, new_cfa);
267
      UPDATE_FS_FOR_CFA_GR (fs, 18, &mechargs->chf$q_mch_savr18, new_cfa);
268
      UPDATE_FS_FOR_CFA_GR (fs, 19, &mechargs->chf$q_mch_savr19, new_cfa);
269
      UPDATE_FS_FOR_CFA_GR (fs, 20, &mechargs->chf$q_mch_savr20, new_cfa);
270
      UPDATE_FS_FOR_CFA_GR (fs, 21, &mechargs->chf$q_mch_savr21, new_cfa);
271
      UPDATE_FS_FOR_CFA_GR (fs, 22, &mechargs->chf$q_mch_savr22, new_cfa);
272
      UPDATE_FS_FOR_CFA_GR (fs, 23, &mechargs->chf$q_mch_savr23, new_cfa);
273
      UPDATE_FS_FOR_CFA_GR (fs, 24, &mechargs->chf$q_mch_savr24, new_cfa);
274
      UPDATE_FS_FOR_CFA_GR (fs, 25, &mechargs->chf$q_mch_savr25, new_cfa);
275
      UPDATE_FS_FOR_CFA_GR (fs, 26, &mechargs->chf$q_mch_savr26, new_cfa);
276
      UPDATE_FS_FOR_CFA_GR (fs, 27, &mechargs->chf$q_mch_savr27, new_cfa);
277
      UPDATE_FS_FOR_CFA_GR (fs, 28, &mechargs->chf$q_mch_savr28, new_cfa);
278
 
279
      /* Registers R2 to R7 are available from the rei frame pointer.  */
280
 
281
      for (i = 2; i <= 7; i ++)
282
        UPDATE_FS_FOR_CFA_GR (fs, i, rei_frame_addr+(i - 2)*8, new_cfa);
283
 
284
      /* ??? floating point registers ?  */
285
    }
286
 
287
  fs->signal_frame = 1;
288
 
289
  return _URC_NO_REASON;
290
}
291
 
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