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#ifndef CYGONCE_HAL_HAL_ARCH_H
2
#define CYGONCE_HAL_HAL_ARCH_H
3
 
4
//==========================================================================
5
//
6
//      hal_arch.h
7
//
8
//      Architecture specific abstractions
9
//
10
//==========================================================================
11
//####ECOSGPLCOPYRIGHTBEGIN####
12
// -------------------------------------------
13
// This file is part of eCos, the Embedded Configurable Operating System.
14
// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
15
//
16
// eCos is free software; you can redistribute it and/or modify it under
17
// the terms of the GNU General Public License as published by the Free
18
// Software Foundation; either version 2 or (at your option) any later version.
19
//
20
// eCos is distributed in the hope that it will be useful, but WITHOUT ANY
21
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
22
// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
23
// for more details.
24
//
25
// You should have received a copy of the GNU General Public License along
26
// with eCos; if not, write to the Free Software Foundation, Inc.,
27
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
28
//
29
// As a special exception, if other files instantiate templates or use macros
30
// or inline functions from this file, or you compile this file and link it
31
// with other works to produce a work based on this file, this file does not
32
// by itself cause the resulting work to be covered by the GNU General Public
33
// License. However the source code for this file must still be made available
34
// in accordance with section (3) of the GNU General Public License.
35
//
36
// This exception does not invalidate any other reasons why a work based on
37
// this file might be covered by the GNU General Public License.
38
//
39
// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
40
// at http://sources.redhat.com/ecos/ecos-license/
41
// -------------------------------------------
42
//####ECOSGPLCOPYRIGHTEND####
43
//==========================================================================
44
//#####DESCRIPTIONBEGIN####
45
//
46
// Author(s):    nickg
47
// Contributors: nickg, dmoseley
48
// Date:         1999-02-17
49
// Purpose:      Define architecture abstractions
50
// Usage:        #include <cyg/hal/hal_arch.h>
51
//              
52
//####DESCRIPTIONEND####
53
//
54
//==========================================================================
55
 
56
#ifndef __ASSEMBLER__
57
#include <pkgconf/hal.h>
58
#include <cyg/infra/cyg_type.h>
59
 
60
#include <cyg/hal/var_arch.h>
61
 
62
//--------------------------------------------------------------------------
63
// Processor saved states:
64
// The layout of this structure is also defined in "arch.inc", for assembly
65
// code. Do not change this without changing that (or vice versa).
66
// Notes: This structure is carefully laid out. It is a multiple of 8
67
// bytes and the pc and badvr fields are positioned to ensure that
68
// they are on 8 byte boundaries. 
69
 
70
#ifdef CYGHWR_HAL_MIPS_64BIT
71
# define CYG_HAL_MIPS_REG CYG_WORD64
72
# define CYG_HAL_MIPS_REG_SIZE 8
73
#else
74
# define CYG_HAL_MIPS_REG CYG_WORD32
75
# define CYG_HAL_MIPS_REG_SIZE 4
76
#endif
77
 
78
#if defined(CYGHWR_HAL_MIPS_FPU)
79
# if defined(CYGHWR_HAL_MIPS_FPU_64BIT)
80
#  define CYG_HAL_FPU_REG CYG_WORD64
81
# elif defined(CYGHWR_HAL_MIPS_FPU_32BIT)
82
#  define CYG_HAL_FPU_REG CYG_WORD32
83
# else
84
# error MIPS FPU register size not defined
85
# endif
86
#endif
87
 
88
typedef struct
89
{
90
    // These are common to all saved states
91
    CYG_HAL_MIPS_REG    d[32];          /* Data regs                    */
92
    CYG_HAL_MIPS_REG    hi;             /* hi word of mpy/div reg       */
93
    CYG_HAL_MIPS_REG    lo;             /* lo word of mpy/div reg       */
94
#ifdef CYGHWR_HAL_MIPS_FPU
95
    CYG_HAL_FPU_REG     f[32];          /* FPU registers                */
96
    CYG_WORD32          fcr31;          /* FPU control/status register  */
97
    CYG_WORD32          fppad;          /* Dummy location to make this  */
98
                                        /* structure a multiple of 8    */
99
                                        /* bytes long.                  */
100
#endif
101
 
102
    // These are only saved for exceptions and interrupts
103
    CYG_WORD32          vector;         /* Vector number                */
104
    CYG_WORD32          sr;             /* Status Reg                   */
105
    CYG_HAL_MIPS_REG    pc;             /* Program Counter              */
106
    CYG_WORD32          cache;          /* Cache control register       */
107
 
108
 
109
    // These are only saved for exceptions, and are not restored
110
    // when continued.
111
    CYG_WORD32          cause;          /* Exception cause register     */
112
    CYG_HAL_MIPS_REG    badvr;          /* Bad virtual address reg      */
113
    CYG_WORD32          prid;           /* Processor Version            */
114
    CYG_WORD32          config;         /* Config register              */
115
} HAL_SavedRegisters;
116
 
117
//--------------------------------------------------------------------------
118
// Exception handling function.
119
// This function is defined by the kernel according to this prototype. It is
120
// invoked from the HAL to deal with any CPU exceptions that the HAL does
121
// not want to deal with itself. It usually invokes the kernel's exception
122
// delivery mechanism.
123
 
124
externC void cyg_hal_deliver_exception( CYG_WORD code, CYG_ADDRWORD data );
125
 
126
//--------------------------------------------------------------------------
127
// Bit manipulation macros
128
 
129
externC cyg_uint32 hal_lsbit_index(cyg_uint32 mask);
130
externC cyg_uint32 hal_msbit_index(cyg_uint32 mask);
131
 
132
#define HAL_LSBIT_INDEX(index, mask) index = hal_lsbit_index(mask);
133
 
134
#define HAL_MSBIT_INDEX(index, mask) index = hal_msbit_index(mask);
135
 
136
//--------------------------------------------------------------------------
137
// Context Initialization
138
 
139
 
140
// Optional FPU context initialization
141
#ifdef CYGHWR_HAL_MIPS_FPU
142
#define HAL_THREAD_INIT_FPU_CONTEXT( _regs_, _id_ )                             \
143
{                                                                               \
144
    for( _i_ = 0; _i_ < 32; _i_++ ) (_regs_)->f[_i_] = (_id_)|0xFF00|_i_;       \
145
    (_regs_)->fcr31 = 0x01000000;                                               \
146
}
147
#else
148
#define HAL_THREAD_INIT_FPU_CONTEXT( _regs_, _id_ )
149
#endif
150
 
151
 
152
// Initialize the context of a thread.
153
// Arguments:
154
// _sparg_ name of variable containing current sp, will be written with new sp
155
// _thread_ thread object address, passed as argument to entry point
156
// _entry_ entry point address.
157
// _id_ bit pattern used in initializing registers, for debugging.
158
#define HAL_THREAD_INIT_CONTEXT( _sparg_, _thread_, _entry_, _id_ )                     \
159
{                                                                                       \
160
    register CYG_WORD _sp_ = ((CYG_WORD)_sparg_)-56;                                    \
161
    register HAL_SavedRegisters *_regs_;                                                \
162
    int _i_;                                                                            \
163
    _sp_ = _sp_ & 0xFFFFFFF0;                                                           \
164
    _regs_ = (HAL_SavedRegisters *)(((_sp_) - sizeof(HAL_SavedRegisters))&0xFFFFFFF0);  \
165
    for( _i_ = 0; _i_ < 32; _i_++ ) (_regs_)->d[_i_] = (_id_)|_i_;                      \
166
    HAL_THREAD_INIT_FPU_CONTEXT( _regs_, _id_ );                                        \
167
    (_regs_)->d[29] = (CYG_HAL_MIPS_REG)(_sp_);       /* SP = top of stack      */      \
168
    (_regs_)->d[04] = (CYG_HAL_MIPS_REG)(_thread_);   /* R4 = arg1 = thread ptr */      \
169
    (_regs_)->lo = 0;                                 /* LO = 0                 */      \
170
    (_regs_)->hi = 0;                                 /* HI = 0                 */      \
171
    (_regs_)->d[30] = (CYG_HAL_MIPS_REG)(_sp_);       /* FP = top of stack      */      \
172
    (_regs_)->d[31] = (CYG_HAL_MIPS_REG)(_entry_);    /* RA(d[31]) = entry point*/      \
173
    (_regs_)->pc = (CYG_WORD)(_entry_);               /* PC = entry point       */      \
174
    (_regs_)->sr  = 0x00000001;                       /* SR = ls 3 bits only    */      \
175
    _sparg_ = (CYG_ADDRESS)_regs_;                                                      \
176
}
177
 
178
//--------------------------------------------------------------------------
179
// Context switch macros.
180
// The arguments are pointers to locations where the stack pointer
181
// of the current thread is to be stored, and from where the sp of the
182
// next thread is to be fetched.
183
 
184
externC void hal_thread_switch_context( CYG_ADDRESS to, CYG_ADDRESS from );
185
externC void hal_thread_load_context( CYG_ADDRESS to )
186
    __attribute__ ((noreturn));
187
 
188
#define HAL_THREAD_SWITCH_CONTEXT(_fspptr_,_tspptr_)                    \
189
        hal_thread_switch_context( (CYG_ADDRESS)_tspptr_,               \
190
                                   (CYG_ADDRESS)_fspptr_);
191
 
192
#define HAL_THREAD_LOAD_CONTEXT(_tspptr_)                               \
193
        hal_thread_load_context( (CYG_ADDRESS)_tspptr_ );
194
 
195
//--------------------------------------------------------------------------
196
// Execution reorder barrier.
197
// When optimizing the compiler can reorder code. In multithreaded systems
198
// where the order of actions is vital, this can sometimes cause problems.
199
// This macro may be inserted into places where reordering should not happen.
200
// The "memory" keyword is potentially unnecessary, but it is harmless to
201
// keep it.
202
 
203
#define HAL_REORDER_BARRIER() asm volatile ( "" : : : "memory" )
204
 
205
//--------------------------------------------------------------------------
206
// Breakpoint support
207
// HAL_BREAKPOINT() is a code sequence that will cause a breakpoint to
208
// happen if executed.
209
// HAL_BREAKINST is the value of the breakpoint instruction and
210
// HAL_BREAKINST_SIZE is its size in bytes.
211
// HAL_BREAKINST_TYPE is the type.
212
 
213
#define HAL_BREAKPOINT(_label_)                 \
214
asm volatile (" .globl  " #_label_ ";"          \
215
              #_label_":"                       \
216
              " break   5"                      \
217
    );
218
 
219
#define HAL_BREAKINST           0x0005000d
220
 
221
#define HAL_BREAKINST_SIZE      4
222
 
223
#define HAL_BREAKINST_TYPE      cyg_uint32
224
 
225
//--------------------------------------------------------------------------
226
// Thread register state manipulation for GDB support.
227
 
228
// Default to a 32 bit register size for GDB register dumps.
229
#ifndef CYG_HAL_GDB_REG
230
#define CYG_HAL_GDB_REG CYG_WORD32
231
#endif
232
 
233
// Translate a stack pointer as saved by the thread context macros above into
234
// a pointer to a HAL_SavedRegisters structure.
235
#define HAL_THREAD_GET_SAVED_REGISTERS( _sp_, _regs_ )          \
236
        (_regs_) = (HAL_SavedRegisters *)(_sp_)
237
 
238
// If the CPU has an FPU, we also need to move the FPU registers.
239
#ifdef CYGHWR_HAL_MIPS_FPU
240
#define HAL_GET_GDB_FPU_REGISTERS( _regval_ , _regs_ )  \
241
CYG_MACRO_START                                         \
242
    int _i_;                                            \
243
    for( _i_ = 0; _i_ < 32; _i_++ )                     \
244
        _regval_[38+_i_] = (_regs_)->f[_i_];            \
245
    _regval_[70] = (_regs_)->fcr31;                     \
246
CYG_MACRO_END
247
#define HAL_SET_GDB_FPU_REGISTERS( _regs_ , _regval_ )  \
248
CYG_MACRO_START                                         \
249
    int _i_;                                            \
250
    for( _i_ = 0; _i_ < 32; _i_++ )                     \
251
        (_regs_)->f[_i_] = _regval_[38+_i_];            \
252
    (_regs_)->fcr31 = _regval_[70];                     \
253
CYG_MACRO_END
254
#else
255
#define HAL_GET_GDB_FPU_REGISTERS( _regval_ , _regs_ )
256
#define HAL_SET_GDB_FPU_REGISTERS( _regs_ , _regval_ )
257
#endif
258
 
259
// Some targets also report the state of all the coprocessor 0
260
// registers to GDB. If that is the case then
261
// CYGPKG_HAL_MIPS_GDB_REPORT_CP0 will be defined and the
262
// HAL_[G|S]ET_CP0_REGISTER_*() macros will be defined.
263
 
264
#ifdef CYGPKG_HAL_MIPS_GDB_REPORT_CP0
265
 
266
#define HAL_GET_GDB_CP0_REGISTERS( _regval_, _regs_ )                   \
267
    HAL_GET_CP0_REGISTER_32( _regval_[74],   0, 0 ); /* index    */     \
268
    HAL_GET_CP0_REGISTER_32( _regval_[75],   1, 0 ); /* random   */     \
269
    HAL_GET_CP0_REGISTER_32( _regval_[76],   2, 0 ); /* EntryLo0 */     \
270
    HAL_GET_CP0_REGISTER_32( _regval_[77],   3, 0 ); /* EntryLo1 */     \
271
    HAL_GET_CP0_REGISTER_64( _regval_[78],   4, 0 ); /* context  */     \
272
    HAL_GET_CP0_REGISTER_32( _regval_[79],   5, 0 ); /* PageMask */     \
273
    HAL_GET_CP0_REGISTER_32( _regval_[80],   6, 0 ); /* Wired    */     \
274
    (_regval_)[81] = 0xC0C0C006;                                        \
275
    (_regval_)[82] = (_regs_)->badvr;                /* BadVr    */     \
276
    HAL_GET_CP0_REGISTER_32( _regval_[83],   9, 0 ); /* Count    */     \
277
    HAL_GET_CP0_REGISTER_64( _regval_[84],  10, 0 ); /* EntryHi  */     \
278
    HAL_GET_CP0_REGISTER_32( _regval_[85],  11, 0 ); /* Compare  */     \
279
    (_regval_)[86] = (_regs_)->sr;                   /* Status   */     \
280
    (_regval_)[87] = (_regs_)->cause;                /* Cause    */     \
281
    HAL_GET_CP0_REGISTER_64( _regval_[88],  14, 0 ); /* EPC      */     \
282
    HAL_GET_CP0_REGISTER_32( _regval_[89],  15, 0 ); /* PRId     */     \
283
    HAL_GET_CP0_REGISTER_32( _regval_[90],  16, 0 ); /* Config   */     \
284
    HAL_GET_CP0_REGISTER_32( _regval_[91],  17, 0 ); /* LLAddr   */     \
285
    HAL_GET_CP0_REGISTER_64( _regval_[92],  18, 0 ); /* WatchLo  */     \
286
    HAL_GET_CP0_REGISTER_32( _regval_[93],  19, 0 ); /* WatchHi  */     \
287
    HAL_GET_CP0_REGISTER_64( _regval_[94],  20, 0 ); /* XContext */     \
288
    (_regval_)[95] = 0xC0C0C021;                                        \
289
    (_regval_)[96] = 0xC0C0C022;                                        \
290
    HAL_GET_CP0_REGISTER_32( _regval_[97],  23, 0 ); /* Debug    */     \
291
    HAL_GET_CP0_REGISTER_64( _regval_[98],  24, 0 ); /* DEPC     */     \
292
    (_regval_)[99] = 0xC0C0C025;                                        \
293
    HAL_GET_CP0_REGISTER_32( _regval_[100], 26, 0 ); /* ErrCtl   */     \
294
    HAL_GET_CP0_REGISTER_32( _regval_[101], 27, 0 ); /* CacheErr */     \
295
    HAL_GET_CP0_REGISTER_32( _regval_[102], 28, 0 ); /* TagLo    */     \
296
    HAL_GET_CP0_REGISTER_32( _regval_[103], 29, 0 ); /* TagHi    */     \
297
    HAL_GET_CP0_REGISTER_64( _regval_[104], 30, 0 ); /* ErrorEPC */     \
298
    HAL_GET_CP0_REGISTER_64( _regval_[105], 31, 0 ); /* DESAVE   */     \
299
    HAL_GET_CP0_REGISTER_32( _regval_[106], 16, 1 ); /* Config1  */
300
 
301
#define HAL_SET_GDB_CP0_REGISTERS( _regval_, _regs_ )                   \
302
    HAL_SET_CP0_REGISTER_32( _regval_[74],   0, 0 ); /* index    */     \
303
    HAL_SET_CP0_REGISTER_32( _regval_[76],   2, 0 ); /* EntryLo0 */     \
304
    HAL_SET_CP0_REGISTER_32( _regval_[77],   3, 0 ); /* EntryLo1 */     \
305
    HAL_SET_CP0_REGISTER_64( _regval_[78],   4, 0 ); /* context  */     \
306
    HAL_SET_CP0_REGISTER_32( _regval_[79],   5, 0 ); /* PageMask */     \
307
    HAL_SET_CP0_REGISTER_32( _regval_[80],   6, 0 ); /* Wired    */     \
308
    HAL_SET_CP0_REGISTER_32( _regval_[83],   9, 0 ); /* Count    */     \
309
    HAL_SET_CP0_REGISTER_64( _regval_[84],  10, 0 ); /* EntryHi  */     \
310
    HAL_SET_CP0_REGISTER_32( _regval_[85],  11, 0 ); /* Compare  */     \
311
    HAL_SET_CP0_REGISTER_32( _regval_[90],  16, 0 ); /* Config   */     \
312
    HAL_SET_CP0_REGISTER_64( _regval_[92],  18, 0 ); /* WatchLo  */     \
313
    HAL_SET_CP0_REGISTER_32( _regval_[93],  19, 0 ); /* WatchHi  */     \
314
    HAL_SET_CP0_REGISTER_64( _regval_[94],  20, 0 ); /* XContext */     \
315
    HAL_SET_CP0_REGISTER_32( _regval_[97],  23, 0 ); /* Debug    */     \
316
    HAL_SET_CP0_REGISTER_64( _regval_[98],  24, 0 ); /* DEPC     */     \
317
    HAL_SET_CP0_REGISTER_32( _regval_[100], 26, 0 ); /* ErrCtl   */     \
318
    HAL_SET_CP0_REGISTER_32( _regval_[101], 27, 0 ); /* CacheErr */     \
319
    HAL_SET_CP0_REGISTER_32( _regval_[102], 28, 0 ); /* TagLo    */     \
320
    HAL_SET_CP0_REGISTER_32( _regval_[103], 29, 0 ); /* TagHi    */     \
321
    HAL_SET_CP0_REGISTER_64( _regval_[105], 31, 0 ); /* DESAVE   */
322
 
323
#else
324
#define HAL_GET_GDB_CP0_REGISTERS( _regval_, _regs_ )
325
#define HAL_SET_GDB_CP0_REGISTERS( _regval_, _regs_ )
326
#endif
327
 
328
// Copy a set of registers from a HAL_SavedRegisters structure into a
329
// GDB ordered array.    
330
#define HAL_GET_GDB_REGISTERS( _aregval_ , _regs_ )             \
331
{                                                               \
332
    CYG_HAL_GDB_REG *_regval_ = (CYG_HAL_GDB_REG *)(_aregval_); \
333
    int _i_;                                                    \
334
                                                                \
335
    for( _i_ = 0; _i_ < 32; _i_++ )                             \
336
        _regval_[_i_] = (_regs_)->d[_i_];                       \
337
                                                                \
338
    HAL_GET_GDB_FPU_REGISTERS( _regval_, _regs_ );              \
339
                                                                \
340
    _regval_[32] = (_regs_)->sr;                                \
341
    _regval_[33] = (_regs_)->lo;                                \
342
    _regval_[34] = (_regs_)->hi;                                \
343
    _regval_[35] = (_regs_)->badvr;                             \
344
    _regval_[36] = (_regs_)->cause;                             \
345
    _regval_[37] = (_regs_)->pc;                                \
346
                                                                \
347
    HAL_GET_GDB_CP0_REGISTERS( _regval_, _regs_ );              \
348
}
349
 
350
// Copy a GDB ordered array into a HAL_SavedRegisters structure.
351
#define HAL_SET_GDB_REGISTERS( _regs_ , _aregval_ )             \
352
{                                                               \
353
    CYG_HAL_GDB_REG *_regval_ = (CYG_HAL_GDB_REG *)(_aregval_); \
354
    int _i_;                                                    \
355
                                                                \
356
    for( _i_ = 0; _i_ < 32; _i_++ )                             \
357
        (_regs_)->d[_i_] = _regval_[_i_];                       \
358
                                                                \
359
    HAL_SET_GDB_FPU_REGISTERS( _regs_, _regval_ );              \
360
                                                                \
361
    (_regs_)->sr = _regval_[32];                                \
362
    (_regs_)->lo = _regval_[33];                                \
363
    (_regs_)->hi = _regval_[34];                                \
364
    (_regs_)->badvr = _regval_[35];                             \
365
    (_regs_)->cause = _regval_[36];                             \
366
    (_regs_)->pc = _regval_[37];                                \
367
                                                                \
368
    HAL_SET_GDB_CP0_REGISTERS( _regval_, _regs_ );              \
369
}
370
 
371
//--------------------------------------------------------------------------
372
// HAL setjmp
373
// Note: These definitions are repeated in hal_arch.h. If changes are
374
// required remember to update both sets.
375
 
376
#define CYGARC_JMP_BUF_SP        0
377
#define CYGARC_JMP_BUF_R16       1
378
#define CYGARC_JMP_BUF_R17       2
379
#define CYGARC_JMP_BUF_R18       3
380
#define CYGARC_JMP_BUF_R19       4
381
#define CYGARC_JMP_BUF_R20       5
382
#define CYGARC_JMP_BUF_R21       6
383
#define CYGARC_JMP_BUF_R22       7
384
#define CYGARC_JMP_BUF_R23       8
385
#define CYGARC_JMP_BUF_R28       9
386
#define CYGARC_JMP_BUF_R30      10
387
#define CYGARC_JMP_BUF_R31      11
388
 
389
#define CYGARC_JMP_BUF_SIZE     12
390
 
391
typedef cyg_uint32 hal_jmp_buf[CYGARC_JMP_BUF_SIZE];
392
 
393
externC int hal_setjmp(hal_jmp_buf env);
394
externC void hal_longjmp(hal_jmp_buf env, int val);
395
 
396
//-------------------------------------------------------------------------
397
// Idle thread code.
398
// This macro is called in the idle thread loop, and gives the HAL the
399
// chance to insert code. Typical idle thread behaviour might be to halt the
400
// processor.
401
 
402
externC void hal_idle_thread_action(cyg_uint32 loop_count);
403
 
404
#define HAL_IDLE_THREAD_ACTION(_count_) hal_idle_thread_action(_count_)
405
 
406
//--------------------------------------------------------------------------
407
// Minimal and sensible stack sizes: the intention is that applications
408
// will use these to provide a stack size in the first instance prior to
409
// proper analysis.  Idle thread stack should be this big.
410
 
411
//    THESE ARE NOT INTENDED TO BE MICROMETRICALLY ACCURATE FIGURES.
412
//           THEY ARE HOWEVER ENOUGH TO START PROGRAMMING.
413
// YOU MUST MAKE YOUR STACKS LARGER IF YOU HAVE LARGE "AUTO" VARIABLES!
414
 
415
// This is not a config option because it should not be adjusted except
416
// under "enough rope" sort of disclaimers.
417
 
418
// Typical case stack frame size: return link + 4 pushed registers + some locals.
419
#define CYGNUM_HAL_STACK_FRAME_SIZE (48)
420
 
421
// Stack needed for a context switch:
422
#if defined(CYGHWR_HAL_MIPS_FPU)
423
# if defined(CYGHWR_HAL_MIPS_FPU_64BIT)
424
#define CYGNUM_HAL_STACK_CONTEXT_SIZE (((32+12)*CYG_HAL_MIPS_REG_SIZE)+(32*8))
425
# elif defined(CYGHWR_HAL_MIPS_FPU_32BIT)
426
#define CYGNUM_HAL_STACK_CONTEXT_SIZE (((32+12)*CYG_HAL_MIPS_REG_SIZE)+(32*4))
427
# else
428
# error MIPS FPU register size not defined
429
# endif
430
#else
431
#define CYGNUM_HAL_STACK_CONTEXT_SIZE ((32+10)*CYG_HAL_MIPS_REG_SIZE)
432
#endif
433
 
434
 
435
 
436
// Interrupt + call to ISR, interrupt_end() and the DSR
437
#define CYGNUM_HAL_STACK_INTERRUPT_SIZE (4+2*CYGNUM_HAL_STACK_CONTEXT_SIZE) 
438
 
439
#ifdef CYGIMP_HAL_COMMON_INTERRUPTS_USE_INTERRUPT_STACK
440
 
441
// An interrupt stack which is large enough for all possible interrupt
442
// conditions (and only used for that purpose) exists.  "User" stacks
443
// can be much smaller
444
 
445
#define CYGNUM_HAL_STACK_SIZE_MINIMUM (CYGNUM_HAL_STACK_CONTEXT_SIZE+      \
446
                                       CYGNUM_HAL_STACK_INTERRUPT_SIZE*2+  \
447
                                       CYGNUM_HAL_STACK_FRAME_SIZE*8)
448
#define CYGNUM_HAL_STACK_SIZE_TYPICAL (CYGNUM_HAL_STACK_SIZE_MINIMUM+1024)
449
 
450
#else // CYGIMP_HAL_COMMON_INTERRUPTS_USE_INTERRUPT_STACK 
451
 
452
// No separate interrupt stack exists.  Make sure all threads contain
453
// a stack sufficiently large.
454
 
455
#define CYGNUM_HAL_STACK_SIZE_MINIMUM (4096)
456
#define CYGNUM_HAL_STACK_SIZE_TYPICAL (4096)
457
 
458
#endif
459
 
460
#endif /* __ASSEMBLER__ */
461
 
462
// Convenience macros for accessing memory cached or uncached
463
#define CYGARC_KSEG_MASK                               (0xE0000000)
464
#define CYGARC_KSEG_CACHED                             (0x80000000)
465
#define CYGARC_KSEG_UNCACHED                           (0xA0000000)
466
#define CYGARC_KSEG_CACHED_BASE                        (0x80000000)
467
#define CYGARC_KSEG_UNCACHED_BASE                      (0xA0000000)
468
#ifndef __ASSEMBLER__
469
#define CYGARC_CACHED_ADDRESS(x)                       ((((CYG_ADDRESS)(x)) & ~CYGARC_KSEG_MASK) | CYGARC_KSEG_CACHED)
470
#define CYGARC_UNCACHED_ADDRESS(x)                     ((((CYG_ADDRESS)(x)) & ~CYGARC_KSEG_MASK) | CYGARC_KSEG_UNCACHED)
471
#define CYGARC_PHYSICAL_ADDRESS(x)                     (((CYG_ADDRESS)(x)) & ~CYGARC_KSEG_MASK)
472
#else // __ASSEMBLER__
473
#define CYGARC_CACHED_ADDRESS(x)                       ((((x)) & ~CYGARC_KSEG_MASK) | CYGARC_KSEG_CACHED)
474
#define CYGARC_UNCACHED_ADDRESS(x)                     ((((x)) & ~CYGARC_KSEG_MASK) | CYGARC_KSEG_UNCACHED)
475
#define CYGARC_PHYSICAL_ADDRESS(x)                     (((x)) & ~CYGARC_KSEG_MASK)
476
#define CYGARC_ADDRESS_REG_CACHED(reg)                 \
477
        and     reg, reg, ~CYGARC_KSEG_MASK;           \
478
        or      reg, reg, CYGARC_KSEG_CACHED
479
#define CYGARC_ADDRESS_REG_UNCACHED(reg)               \
480
        and     reg, reg, ~CYGARC_KSEG_MASK;           \
481
        or      reg, reg, CYGARC_KSEG_UNCACHED
482
#endif /* __ASSEMBLER__ */
483
 
484
//--------------------------------------------------------------------------
485
// Macros for switching context between two eCos instances (jump from
486
// code in ROM to code in RAM or vice versa).
487
#define CYGARC_HAL_SAVE_GP()                    \
488
    CYG_MACRO_START                             \
489
    register CYG_ADDRWORD __gp_save;            \
490
    asm volatile ( "move   %0,$28;"             \
491
                   ".extern _gp;"               \
492
                   "la     $gp,_gp;"            \
493
                     : "=r"(__gp_save))
494
 
495
#define CYGARC_HAL_RESTORE_GP()                                 \
496
    asm volatile ( "move   $gp,%0;" :: "r"(__gp_save) );        \
497
    CYG_MACRO_END
498
 
499
 
500
//--------------------------------------------------------------------------
501
// Macro for finding return address. 
502
#define CYGARC_HAL_GET_RETURN_ADDRESS(_x_, _dummy_) \
503
  asm volatile ( "move %0,$31;" : "=r" (_x_) )
504
 
505
#define CYGARC_HAL_GET_RETURN_ADDRESS_BACKUP(_dummy_)
506
 
507
//--------------------------------------------------------------------------
508
#endif // CYGONCE_HAL_HAL_ARCH_H
509
// End of hal_arch.h

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