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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [sh/] [arch/] [v2_0/] [src/] [sh_stub.c] - Blame information for rev 454

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//==========================================================================
2
//
3
//      sh_stub.c
4
//
5
//      GDB Stub code for SH
6
//
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//==========================================================================
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//####ECOSGPLCOPYRIGHTBEGIN####
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// -------------------------------------------
10
// This file is part of eCos, the Embedded Configurable Operating System.
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// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
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//
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// eCos is free software; you can redistribute it and/or modify it under
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// the terms of the GNU General Public License as published by the Free
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// Software Foundation; either version 2 or (at your option) any later version.
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//
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// eCos is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or
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// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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// for more details.
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//
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// You should have received a copy of the GNU General Public License along
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// with eCos; if not, write to the Free Software Foundation, Inc.,
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// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
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//
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// As a special exception, if other files instantiate templates or use macros
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// or inline functions from this file, or you compile this file and link it
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// with other works to produce a work based on this file, this file does not
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// by itself cause the resulting work to be covered by the GNU General Public
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// License. However the source code for this file must still be made available
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// in accordance with section (3) of the GNU General Public License.
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//
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// This exception does not invalidate any other reasons why a work based on
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// this file might be covered by the GNU General Public License.
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//
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// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
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// at http://sources.redhat.com/ecos/ecos-license/
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// -------------------------------------------
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//####ECOSGPLCOPYRIGHTEND####
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//==========================================================================
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//#####DESCRIPTIONBEGIN####
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//
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// Author(s):    jskov
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// Contributors: jskov, Ben Lee, Steve Chamberlain
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// Date:         1999-05-18
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// Description:  GDB Stub support for sh CPU.
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//
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//####DESCRIPTIONEND####
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//
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//===========================================================================
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52
#include <stddef.h>
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54
#include <pkgconf/hal.h>
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56
#ifdef CYGPKG_REDBOOT
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#include <pkgconf/redboot.h>
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#endif
59
 
60
#ifdef CYGDBG_HAL_DEBUG_GDB_INCLUDE_STUBS
61
 
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#include <cyg/hal/sh_regs.h>
63
 
64
#include <cyg/hal/hal_stub.h>
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#include <cyg/hal/hal_arch.h>
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#include <cyg/hal/hal_intr.h>
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68
#ifdef CYGDBG_HAL_DEBUG_GDB_THREAD_SUPPORT
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#include <cyg/hal/dbg-threads-api.h>    // dbg_currthread_id
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#endif
71
 
72
/* Given a trap value TRAP, return the corresponding signal. */
73
 
74
int
75
__computeSignal(unsigned int trap_number)
76
{
77
    switch( trap_number ) {
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    case CYGNUM_HAL_EXCEPTION_TRAP:
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#ifdef CYGNUM_HAL_EXCEPTION_INSTRUCTION_BP
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    case CYGNUM_HAL_EXCEPTION_INSTRUCTION_BP:
81
#endif
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        return SIGTRAP;
83
 
84
    case CYGNUM_HAL_EXCEPTION_POWERON:
85
    case CYGNUM_HAL_EXCEPTION_RESET:
86
        // Reset - given that the CPU resets if it gets confused we
87
        // want to treat it as an interupt so the developer has a
88
        // chance to find out what happened (as opposed to SIGTERM).
89
        return SIGINT;
90
 
91
#ifdef CYGNUM_HAL_EXCEPTION_TLBMISS_ACCESS
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    case CYGNUM_HAL_EXCEPTION_TLBMISS_ACCESS:
93
    case CYGNUM_HAL_EXCEPTION_TLBMISS_WRITE:
94
    case CYGNUM_HAL_EXCEPTION_INITIAL_WRITE:
95
    case CYGNUM_HAL_EXCEPTION_TLBERROR_ACCESS:
96
    case CYGNUM_HAL_EXCEPTION_TLBERROR_WRITE:
97
        return SIGSEGV;
98
 
99
    case CYGNUM_HAL_EXCEPTION_DATA_ACCESS:
100
    case CYGNUM_HAL_EXCEPTION_DATA_WRITE:
101
           return SIGBUS;
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#else
103
    case CYGNUM_HAL_EXCEPTION_DATA_ACCESS:
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    case CYGNUM_HAL_EXCEPTION_DMA_DATA_ACCESS:
105
        return SIGSEGV;
106
#endif
107
 
108
    case CYGNUM_HAL_EXCEPTION_ILLEGAL_INSTRUCTION:
109
    case CYGNUM_HAL_EXCEPTION_ILLEGAL_SLOT_INSTRUCTION:
110
        return SIGILL;
111
 
112
    default:
113
        return SIGTERM;
114
    }
115
}
116
 
117
/* Return the trap number corresponding to the last-taken trap. */
118
 
119
int
120
__get_trap_number(void)
121
{
122
    // The vector is not not part of the GDB register set so get it
123
    // directly from the save context.
124
    return _hal_registers->event;
125
}
126
 
127
#if defined(CYGSEM_REDBOOT_BSP_SYSCALLS)
128
int __is_bsp_syscall(void)
129
{
130
    if (_hal_registers->event == 34)
131
        return 1;
132
    else
133
        return 0;
134
}
135
#endif
136
 
137
/* Set the currently-saved pc register value to PC. This also updates NPC
138
   as needed. */
139
 
140
void
141
set_pc(target_register_t pc)
142
{
143
    put_register(PC, pc);
144
}
145
 
146
#ifdef CYGARC_SH_MOD_UBC
147
 
148
// This implementation of the single-stepper relies on the User Break
149
// Controller which may not be available on all cores.
150
 
151
// Note: This should be enhanced to coorperate with either two regular
152
// breakpoints or watchpoints. Requires GDB to be aware of the stub's
153
// ability though, so for now just use channel A without further
154
// considerations.
155
 
156
/* Set things up so that the next user resume will execute one instruction.
157
   This may be done by setting breakpoints or setting a single step flag
158
   in the saved user registers, for example. */
159
 
160
void __single_step (void)
161
{
162
    // The address of the instruction to execute.
163
    HAL_WRITE_UINT32(CYGARC_REG_BARA, get_register(PC));
164
    // Match entire address.
165
#if (CYGARC_SH_MOD_UBC == 1)
166
    HAL_WRITE_UINT8(CYGARC_REG_BAMRA, CYGARC_REG_BAMRA_BARA_UNMASKED);
167
#elif (CYGARC_SH_MOD_UBC == 2)
168
    // For some reason, matching all bits causes the system to hang
169
    // (not just run amok - it appears to stop execution).
170
    //HAL_WRITE_UINT32(CYGARC_REG_BAMRA, 0xffffffff);
171
    HAL_WRITE_UINT32(CYGARC_REG_BAMRA, 0);
172
#endif
173
 
174
    // Stop after instruction at matching address has executed.
175
#if (CYGARC_SH_MOD_UBC == 1)
176
    HAL_WRITE_UINT16(CYGARC_REG_BRCR, CYGARC_REG_BRCR_ONE_STEP);
177
#else
178
    HAL_WRITE_UINT32(CYGARC_REG_BRCR, CYGARC_REG_BRCR_ONE_STEP);
179
#endif
180
 
181
    // Stop on IFETCH/READ
182
#if (CYGARC_SH_MOD_UBC == 1)
183
    HAL_WRITE_UINT16(CYGARC_REG_BBRA,
184
                     CYGARC_REG_BBRA_IFETCH|CYGARC_REG_BBRA_READ);
185
#else
186
    HAL_WRITE_UINT16(CYGARC_REG_BBRA,
187
                     CYGARC_REG_BBRA_CPU|CYGARC_REG_BBRA_IFETCH|CYGARC_REG_BBRA_READ);
188
#endif
189
 
190
#ifdef CYGPKG_HAL_SH_SH4
191
    // Must execute at least 11 instructions before reaching
192
    // any address that may be affected by the UBC settings.
193
    asm volatile ("nop;nop;nop;nop;nop;nop;nop;nop;nop;nop;nop;");
194
#endif
195
}
196
 
197
/* Clear the single-step state. */
198
 
199
void __clear_single_step (void)
200
{
201
    // Don't stop on any condition
202
    HAL_WRITE_UINT16(CYGARC_REG_BBRA, 0);
203
    // Clear status flags
204
    HAL_WRITE_UINT16(CYGARC_REG_BRCR, 0);
205
 
206
#ifdef CYGPKG_HAL_SH_SH4
207
    // Must execute at least 11 instructions before reaching
208
    // any address that may be affected by the UBC settings.
209
    asm volatile ("nop;nop;nop;nop;nop;nop;nop;nop;nop;nop;nop;");
210
#endif
211
}
212
 
213
#else // CYGARC_SH_MOD_UBC
214
 
215
/*----------------------------------------------------------------------
216
 * Single-step support, copied from gdb/sh-stub.c, written by Ben Lee
217
 * and Steve Chamberlain. Extended to handle braf, bsrf, bt/s and bf/s.
218
 */
219
 
220
#define COND_BRx_MASK           0xfb00
221
#define UCOND_DBR_MASK          0xe000
222
#define UCOND_RBR_MASK          0xf0df
223
#define TRAPA_MASK              0xff00
224
 
225
#define COND_DISP               0x00ff
226
#define UCOND_DISP              0x0fff
227
#define UCOND_REG               0x0f00
228
 
229
#define BFx_INSTR               0x8b00
230
#define BTx_INSTR               0x8900
231
#define BRA_INSTR               0xa000
232
#define BSR_INSTR               0xb000
233
#define JMP_INSTR               0x402b
234
#define JSR_INSTR               0x400b
235
#define RTS_INSTR               0x000b
236
#define RTE_INSTR               0x002b
237
#define TRAPA_INSTR             0xc300
238
#define BxxF_INSTR              0x0003
239
 
240
#define SSTEP_INSTR             0xc320
241
 
242
#define T_BIT_MASK              0x0001
243
 
244
typedef struct {
245
    short *memAddr;
246
    short oldInstr;
247
} stepData;
248
 
249
static stepData instrBuffer;
250
static char stepped;
251
 
252
/* Set things up so that the next user resume will execute one instruction.
253
   This may be done by setting breakpoints or setting a single step flag
254
   in the saved user registers, for example. */
255
 
256
void __single_step (void)
257
{
258
    short *instrMem;
259
    int displacement;
260
    int reg;
261
    unsigned short opcode;
262
 
263
    cyg_uint32 pc = get_register(PC);
264
    cyg_uint32 sr = get_register(SR);
265
 
266
    instrMem = (short *) pc;
267
 
268
    opcode = *instrMem;
269
    stepped = 1;
270
 
271
    if ((opcode & UCOND_RBR_MASK) == BxxF_INSTR) {
272
        reg = (char) ((opcode & UCOND_REG) >> 8);
273
        displacement = get_register(reg);
274
        instrMem = (short *) (pc + displacement + 4);
275
            /*
276
             * Remember PC points to second instr.
277
             * after PC of branch ... so add 4
278
             */
279
    } else if ((opcode & COND_BRx_MASK) == BTx_INSTR) {
280
        if (sr & T_BIT_MASK) {
281
            displacement = (opcode & COND_DISP) << 1;
282
            if (displacement & 0x80) {
283
                displacement |= 0xffffff00;
284
            }
285
            /*
286
             * Remember PC points to second instr.
287
             * after PC of branch ... so add 4
288
             */
289
            instrMem = (short *) (pc + displacement + 4);
290
        } else {
291
            instrMem += 1;
292
        }
293
    } else if ((opcode & COND_BRx_MASK) == BFx_INSTR) {
294
        if (sr & T_BIT_MASK) {
295
            instrMem += 1;
296
        } else {
297
            displacement = (opcode & COND_DISP) << 1;
298
            if (displacement & 0x80)
299
                displacement |= 0xffffff00;
300
            /*
301
             * Remember PC points to second instr.
302
             * after PC of branch ... so add 4
303
             */
304
            instrMem = (short *) (pc + displacement + 4);
305
        }
306
    } else if ((opcode & UCOND_DBR_MASK) == BRA_INSTR) {
307
        displacement = (opcode & UCOND_DISP) << 1;
308
        if (displacement & 0x0800) {
309
            displacement |= 0xfffff000;
310
        }
311
 
312
        /*
313
         * Remember PC points to second instr.
314
         * after PC of branch ... so add 4
315
         */
316
        instrMem = (short *) (pc + displacement + 4);
317
    } else if ((opcode & UCOND_RBR_MASK) == JSR_INSTR) {
318
        reg = (char) ((opcode & UCOND_REG) >> 8);
319
        instrMem = (short *) get_register(reg);
320
    } else if (opcode == RTS_INSTR) {
321
        instrMem = (short *) get_register(PR);
322
    } else if (opcode == RTE_INSTR) {
323
        instrMem = (short *) get_register(SP);
324
    } else if ((opcode & TRAPA_MASK) == TRAPA_INSTR) {
325
        instrMem += 1;                  // skip traps
326
    } else {
327
        instrMem += 1;
328
    }
329
 
330
    instrBuffer.memAddr = instrMem;
331
    instrBuffer.oldInstr = *instrMem;
332
    *instrMem = SSTEP_INSTR;
333
}
334
 
335
/* Clear the single-step state. */
336
 
337
void __clear_single_step (void)
338
{
339
    /* Undo the effect of a previous doSStep.  If we single stepped,
340
       restore the old instruction. */
341
 
342
    if (stepped) {
343
        short *instrMem;
344
        instrMem = instrBuffer.memAddr;
345
        *instrMem = instrBuffer.oldInstr;
346
    }
347
    stepped = 0;
348
}
349
 
350
#endif // CYGARC_SH_MOD_UBC
351
 
352
 
353
void __install_breakpoints (void)
354
{
355
    /* NOP since single-step HW exceptions are used instead of
356
       breakpoints. */
357
}
358
 
359
void __clear_breakpoints (void)
360
{
361
}
362
 
363
 
364
/* If the breakpoint we hit is in the breakpoint() instruction, return a
365
   non-zero value. */
366
 
367
#ifdef linux
368
externC void _breakinst(void);
369
int
370
__is_breakpoint_function ()
371
{
372
    return get_register(PC) == (target_register_t)&_breakinst;
373
}
374
#else
375
externC void breakinst(void);
376
int
377
__is_breakpoint_function ()
378
{
379
    return get_register(PC) == (target_register_t)&breakinst;
380
}
381
#endif
382
 
383
/* Skip the current instruction.  Since this is only called by the
384
   stub when the PC points to a breakpoint or trap instruction,
385
   we can safely just skip 2. */
386
void __skipinst (void)
387
{
388
    put_register(PC, get_register (PC) + 2);
389
}
390
 
391
#endif // CYGDBG_HAL_DEBUG_GDB_INCLUDE_STUBS

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