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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [tb-alvms.c] - Blame information for rev 756

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1 706 jeremybenn
/****************************************************************************
2
 *                                                                          *
3
 *                         GNAT RUN-TIME COMPONENTS                         *
4
 *                                                                          *
5
 *                   T R A C E B A C K - A l p h a / V M S                  *
6
 *                                                                          *
7
 *                          C Implementation File                           *
8
 *                                                                          *
9
 *                     Copyright (C) 2003-2011, AdaCore                     *
10
 *                                                                          *
11
 * GNAT is free software;  you can  redistribute it  and/or modify it under *
12
 * terms of the  GNU General Public License as published  by the Free Soft- *
13
 * ware  Foundation;  either version 3,  or (at your option) any later ver- *
14
 * sion.  GNAT is distributed in the hope that it will be useful, but WITH- *
15
 * OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY *
16
 * or FITNESS FOR A PARTICULAR PURPOSE.                                     *
17
 *                                                                          *
18
 * As a special exception under Section 7 of GPL version 3, you are granted *
19
 * additional permissions described in the GCC Runtime Library Exception,   *
20
 * version 3.1, as published by the Free Software Foundation.               *
21
 *                                                                          *
22
 * You should have received a copy of the GNU General Public License and    *
23
 * a copy of the GCC Runtime Library Exception along with this program;     *
24
 * see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    *
25
 * <http://www.gnu.org/licenses/>.                                          *
26
 *                                                                          *
27
 * GNAT was originally developed  by the GNAT team at  New York University. *
28
 * Extensive contributions were provided by Ada Core Technologies Inc.      *
29
 *                                                                          *
30
 ****************************************************************************/
31
 
32
 
33
/* Alpha VMS requires a special treatment due to the complexity of the ABI.
34
   What is here is along the lines of what the MD_FALLBACK_FRAME_STATE_FOR
35
   macro does for frame unwinding during exception propagation. This file is
36
   #included within tracebak.c in the appropriate case.
37
 
38
   Most of the contents is directed by the OpenVMS/Alpha Conventions (ABI)
39
   document, sections of which we will refer to as ABI-<section_number>.  */
40
 
41
#include <vms/pdscdef.h>
42
#include <vms/libicb.h>
43
#include <vms/chfctxdef.h>
44
#include <vms/chfdef.h>
45
 
46
/* A couple of items missing from the header file included above.  */
47
extern void * SYS$GL_CALL_HANDL;
48
#define PDSC$M_BASE_FRAME (1 << 10)
49
 
50
/* Registers are 64bit wide and addresses are 32bit wide on alpha-vms.  */
51
typedef void * ADDR;
52
typedef unsigned long long REG;
53
 
54
#define REG_AT(addr) (*(REG *)(addr))
55
 
56
#define AS_REG(addr) ((REG)(unsigned long)(addr))
57
#define AS_ADDR(reg) ((ADDR)(unsigned long)(reg))
58
#define ADDR_IN(reg) (AS_ADDR(reg))
59
 
60
/* The following structure defines the state maintained during the
61
   unwinding process.  */
62
typedef struct
63
{
64
  ADDR pc;  /* Address of the call insn involved in the chain.  */
65
  ADDR sp;  /* Stack Pointer at the time of this call.  */
66
  ADDR fp;  /* Frame Pointer at the time of this call.  */
67
 
68
  /* The values above are fetched as saved REGisters on the stack. They are
69
     typed ADDR because this is what the values in those registers are.  */
70
 
71
  /* Values of the registers saved by the functions in the chain,
72
     incrementally updated through consecutive calls to the "unwind" function
73
     below.  */
74
  REG saved_regs [32];
75
} frame_state_t;
76
 
77
/* Shortcuts for saved_regs of specific interest:
78
 
79
   Frame Pointer   is r29,
80
   Stack Pointer   is r30,
81
   Return Address  is r26,
82
   Procedure Value is r27.
83
 
84
   This is from ABI-3.1.1 [Integer Registers].  */
85
 
86
#define saved_fpr saved_regs[29]
87
#define saved_spr saved_regs[30]
88
#define saved_rar saved_regs[26]
89
#define saved_pvr saved_regs[27]
90
 
91
/* Special values for saved_rar, used to control the overall unwinding
92
   process.  */
93
#define RA_UNKNOWN ((REG)~0)
94
#define RA_STOP    ((REG)0)
95
 
96
/* We still use a number of macros similar to the ones for the generic
97
   __gnat_backtrace implementation.  */
98
#define PC_ADJUST 4
99
#define STOP_FRAME (frame_state.saved_rar == RA_STOP)
100
 
101
/* Compute Procedure Value from Frame Pointer value.  This follows the rules
102
   in ABI-3.6.1 [Current Procedure].  */
103
#define PV_FOR(FP) \
104
  (((FP) != 0) \
105
    ? (((REG_AT (FP) & 0x7) == 0) ? *(PDSCDEF **)(FP) : (PDSCDEF *)(FP)) : 0)
106
 
107
 
108
/**********
109
 * unwind *
110
 **********/
111
 
112
/* Helper for __gnat_backtrace.
113
 
114
   FS represents some call frame, identified by a pc and associated frame
115
   pointer in FS->pc and FS->fp. FS->saved_regs contains the state of the
116
   general registers upon entry in this frame. Of most interest in this set
117
   are the saved return address and frame pointer registers, which actually
118
   allow identifying the caller's frame.
119
 
120
   This routine "unwinds" the input frame state by adjusting it to eventually
121
   represent its caller's frame. The basic principle is to shift the fp and pc
122
   saved values into the current state, and then compute the corresponding new
123
   saved registers set.
124
 
125
   If the call chain goes through a signal handler, special processing is
126
   required when we process the kernel frame which has called the handler, to
127
   switch it to the interrupted context frame.  */
128
 
129
#define K_HANDLER_FRAME(fs) (PV_FOR ((fs)->fp) == SYS$GL_CALL_HANDL)
130
 
131
static void unwind_regular_code (frame_state_t * fs);
132
static void unwind_kernel_handler (frame_state_t * fs);
133
 
134
void
135
unwind (frame_state_t * fs)
136
{
137
  /* Don't do anything if requested so.  */
138
  if (fs->saved_rar == RA_STOP)
139
    return;
140
 
141
  /* Retrieve the values of interest computed during the previous
142
     call. PC_ADJUST gets us from the return address to the call insn
143
     address.  */
144
  fs->pc = ADDR_IN (fs->saved_rar) - PC_ADJUST;
145
  fs->sp = ADDR_IN (fs->saved_spr);
146
  fs->fp = ADDR_IN (fs->saved_fpr);
147
 
148
  /* Unless we are able to determine otherwise, set the frame state's
149
     saved return address such that the unwinding process will stop.  */
150
  fs->saved_rar = RA_STOP;
151
 
152
  /* Now we want to update fs->saved_regs to reflect the state of the caller
153
     of the procedure described by pc/fp.
154
 
155
     The condition to check for a special kernel frame which has called a
156
     signal handler is stated in ABI-6.7.1 [Signaler's Registers] : "The frame
157
     of the call to the handler can be identified by the return address of
158
     SYS$CALL_HANDL+4". We use the equivalent procedure value identification
159
     here because SYS$CALL_HANDL appears to be undefined. */
160
 
161
  if (K_HANDLER_FRAME (fs))
162
    unwind_kernel_handler (fs);
163
  else
164
    unwind_regular_code (fs);
165
}
166
 
167
/***********************
168
 * unwind_regular_code *
169
 ***********************/
170
 
171
/* Helper for unwind, for the case of unwinding through regular code which
172
   is not a signal handler.  */
173
 
174
static void
175
unwind_regular_code (frame_state_t * fs)
176
{
177
  PDSCDEF * pv = PV_FOR (fs->fp);
178
 
179
  ADDR frame_base;
180
 
181
  /* Use the procedure value to unwind, in a way depending on the kind of
182
     procedure at hand. See ABI-3.3 [Procedure Representation] and ABI-3.4
183
     [Procedure Types].  */
184
 
185
  if (pv == 0
186
      || pv->pdsc$w_flags & PDSC$M_BASE_FRAME)
187
    return;
188
 
189
  frame_base
190
    = (pv->pdsc$w_flags & PDSC$M_BASE_REG_IS_FP) ? fs->fp : fs->sp;
191
 
192
  switch (pv->pdsc$w_flags & 0xf)
193
    {
194
    case PDSC$K_KIND_FP_STACK:
195
      /* Stack Frame Procedure (ABI-3.4.1). Retrieve the necessary registers
196
         from the Register Save Area in the frame.  */
197
      {
198
        ADDR rsa_base = frame_base + pv->pdsc$w_rsa_offset;
199
        int i, j;
200
 
201
        fs->saved_rar = REG_AT (rsa_base);
202
        fs->saved_pvr = REG_AT (frame_base);
203
 
204
        for (i = 0, j = 0; i < 32; i++)
205
          if (pv->pdsc$l_ireg_mask & (1 << i))
206
            fs->saved_regs[i] = REG_AT (rsa_base + 8 * ++j);
207
 
208
        /* Note that the loop above is guaranteed to set fs->saved_fpr,
209
           because "The preserved register set must always include R29(FP)
210
           since it will always be used." (ABI-3.4.3.4 [Register Save Area for
211
           All Stack Frames]).
212
 
213
           Also note that we need to run through all the registers to ensure
214
           that unwinding through register procedures (see below) gets the
215
           right values out of the saved_regs array.  */
216
      }
217
      break;
218
 
219
    case PDSC$K_KIND_FP_REGISTER:
220
      /* Register Procedure (ABI-3.4.4). Retrieve the necessary registers from
221
         the registers where they have been saved.  */
222
      {
223
        fs->saved_rar = fs->saved_regs[pv->pdsc$b_save_ra];
224
        fs->saved_fpr = fs->saved_regs[pv->pdsc$b_save_fp];
225
      }
226
      break;
227
 
228
    default:
229
      /* ??? Are we supposed to ever get here ?  Don't think so.  */
230
      break;
231
    }
232
 
233
  /* SP is actually never part of the saved registers area, so we use the
234
     corresponding entry in the saved_regs array to manually keep track of
235
     it's evolution.  */
236
  fs->saved_spr = AS_REG (frame_base) + pv->pdsc$l_size;
237
}
238
 
239
/*************************
240
 * unwind_kernel_handler *
241
 *************************/
242
 
243
/* Helper for unwind, for the specific case of unwinding through a signal
244
   handler.
245
 
246
   The input frame state describes the kernel frame which has called a signal
247
   handler. We fill the corresponding saved_regs to have it's "caller" frame
248
   represented as the interrupted context.  */
249
 
250
static void
251
unwind_kernel_handler (frame_state_t * fs)
252
{
253
  PDSCDEF * pv = PV_FOR (fs->fp);
254
 
255
  CHFDEF1 *sigargs;
256
  CHFDEF2 *mechargs;
257
 
258
  /* Retrieve the arguments passed to the handler, by way of a VMS service
259
     providing the corresponding "Invocation Context Block".  */
260
  {
261
    long handler_ivhandle;
262
    INVO_CONTEXT_BLK handler_ivcb;
263
 
264
    CHFCTX *chfctx;
265
 
266
    handler_ivcb.libicb$q_ireg [29] = AS_REG (fs->fp);
267
    handler_ivcb.libicb$q_ireg [30] = 0;
268
 
269
    handler_ivhandle = LIB$GET_INVO_HANDLE (&handler_ivcb);
270
 
271
    if ((LIB$GET_INVO_CONTEXT (handler_ivhandle, &handler_ivcb) & 1) != 1)
272
      return;
273
 
274
    chfctx = (CHFCTX *) AS_ADDR (handler_ivcb.libicb$ph_chfctx_addr);
275
 
276
    sigargs = (CHFDEF1 *) AS_ADDR (chfctx->chfctx$q_sigarglst);
277
    mechargs = (CHFDEF2 *) AS_ADDR (chfctx->chfctx$q_mcharglst);
278
  }
279
 
280
  /* Compute the saved return address as the PC of the instruction causing the
281
     condition, accounting for the fact that it will be adjusted by the next
282
     call to "unwind" as if it was an actual call return address.  */
283
  {
284
    /* ABI-6.5.1.1 [Signal Argument Vector]: The signal occurrence address
285
       is available from the sigargs argument to the handler, designed to
286
       support both 32 and 64 bit addresses.  The initial reference we get
287
       is a pointer to the 32bit form, from which one may extract a pointer
288
       to the 64bit version if need be.  We work directly from the 32bit
289
       form here.  */
290
 
291
    /* The sigargs vector structure for 32bits addresses is:
292
 
293
       <......32bit......>
294
       +-----------------+
295
       |      Vsize      | :chf$is_sig_args
296
       +-----------------+ -+-
297
       | Condition Value |  : [0]
298
       +-----------------+  :
299
       |       ...       |  :
300
       +-----------------+  : vector of Vsize entries
301
       |    Signal PC    |  :
302
       +-----------------+  :
303
       |       PS        |  : [Vsize - 1]
304
       +-----------------+ -+-
305
 
306
       */
307
 
308
    unsigned long * sigargs_vector
309
      = ((unsigned long *) (&sigargs->chf$is_sig_args)) + 1;
310
 
311
    long sigargs_vsize
312
      = sigargs->chf$is_sig_args;
313
 
314
    fs->saved_rar = (REG) sigargs_vector [sigargs_vsize - 2] + PC_ADJUST;
315
  }
316
 
317
  fs->saved_spr = RA_UNKNOWN;
318
  fs->saved_fpr = (REG) mechargs->chf$q_mch_frame;
319
  fs->saved_pvr = (REG) mechargs->chf$q_mch_savr27;
320
 
321
  fs->saved_regs[16] = (REG) mechargs->chf$q_mch_savr16;
322
  fs->saved_regs[17] = (REG) mechargs->chf$q_mch_savr17;
323
  fs->saved_regs[18] = (REG) mechargs->chf$q_mch_savr18;
324
  fs->saved_regs[19] = (REG) mechargs->chf$q_mch_savr19;
325
  fs->saved_regs[20] = (REG) mechargs->chf$q_mch_savr20;
326
}
327
 
328
/* Structure representing a traceback entry in the tracebacks array to be
329
   filled by __gnat_backtrace below.
330
 
331
   !! This should match what is in System.Traceback_Entries, so beware of
332
   !! the REG/ADDR difference here.
333
 
334
   The use of a structure is motivated by the potential necessity of having
335
   several fields to fill for each entry, for instance if later calls to VMS
336
   system functions need more than just a mere PC to compute info on a frame
337
   (e.g. for non-symbolic->symbolic translation purposes).  */
338
typedef struct {
339
  ADDR pc;  /* Program Counter.  */
340
  ADDR pv;  /* Procedure Value.  */
341
} tb_entry_t;
342
 
343
/********************
344
 * __gnat_backtrace *
345
 ********************/
346
 
347
int
348
__gnat_backtrace (void **array, int size,
349
                  void *exclude_min, void *exclude_max, int skip_frames)
350
{
351
  int cnt;
352
 
353
  tb_entry_t * tbe = (tb_entry_t *)&array [0];
354
 
355
  frame_state_t frame_state;
356
 
357
  /* Setup the frame state before initiating the unwinding sequence.  */
358
  register REG this_FP __asm__("$29");
359
  register REG this_SP __asm__("$30");
360
 
361
  frame_state.saved_fpr = this_FP;
362
  frame_state.saved_spr = this_SP;
363
  frame_state.saved_rar = RA_UNKNOWN;
364
 
365
  unwind (&frame_state);
366
 
367
  /* At this point frame_state describes this very function. Skip the
368
     requested number of calls.  */
369
  for (cnt = 0; cnt < skip_frames; cnt ++)
370
    unwind (&frame_state);
371
 
372
  /* Now consider each frame as a potential candidate for insertion inside
373
     the provided array.  */
374
  cnt = 0;
375
  while (cnt < size)
376
    {
377
      /* Stop if either the frame contents or the unwinder say so.  */
378
      if (STOP_FRAME)
379
        break;
380
 
381
      if (! K_HANDLER_FRAME (&frame_state)
382
          && (frame_state.pc < exclude_min || frame_state.pc > exclude_max))
383
        {
384
          tbe->pc = (ADDR) frame_state.pc;
385
          tbe->pv = (ADDR) PV_FOR (frame_state.fp);
386
 
387
          cnt ++;
388
          tbe ++;
389
        }
390
 
391
      unwind (&frame_state);
392
    }
393
 
394
  return cnt;
395
}

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