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1 106 markom
/*  This file is part of the program psim.
2
 
3
    Copyright (C) 1994-1998, Andrew Cagney <cagney@highland.com.au>
4
 
5
    This program is free software; you can redistribute it and/or modify
6
    it under the terms of the GNU General Public License as published by
7
    the Free Software Foundation; either version 2 of the License, or
8
    (at your option) any later version.
9
 
10
    This program is distributed in the hope that it will be useful,
11
    but WITHOUT ANY WARRANTY; without even the implied warranty of
12
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13
    GNU General Public License for more details.
14
 
15
    You should have received a copy of the GNU General Public License
16
    along with this program; if not, write to the Free Software
17
    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
18
 
19
    */
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21
 
22
#ifndef HW_DEVICE_H
23
#define HW_DEVICE_H
24
 
25
/* declared in sim-basics.h, this object is used everywhere */
26
/* typedef struct _device device; */
27
 
28
 
29
/* Introduction:
30
 
31
   As explained in earlier sections, the device, device instance,
32
   property and ports lie at the heart of PSIM's device model.
33
 
34
   In the below a synopsis of the device object and the operations it
35
   supports are given.
36
   */
37
 
38
 
39
/* Creation:
40
 
41
   The devices are created using a sequence of steps.  In particular:
42
 
43
        o       A tree framework is created.
44
 
45
                At this point, properties can be modified and extra
46
                devices inserted (or removed?).
47
 
48
#if LATER
49
 
50
                Any properties that have a run-time value (eg ihandle
51
                or device instance pointer properties) are entered
52
                into the device tree using a named reference to the
53
                corresponding runtime object that is to be created.
54
 
55
#endif
56
 
57
        o       Real devices are created for all the dummy devices.
58
 
59
                A device can assume that all of its parents have been
60
                initialized.
61
 
62
                A device can assume that all non run-time properties
63
                have been initialized.
64
 
65
                As part of being created, the device normally attaches
66
                itself to its parent bus.
67
 
68
#if LATER
69
 
70
                Device instance data is initialized.
71
 
72
#endif
73
 
74
#if LATER
75
 
76
        o       Any run-time properties are created.
77
 
78
#endif
79
 
80
#if MUCH_MUCH_LATER
81
 
82
        o       Some devices, as part of their initialization
83
                might want to refer to ihandle properties
84
                in the device tree.
85
 
86
#endif
87
 
88
   NOTES:
89
 
90
        o       It is important to separate the creation
91
                of an actual device from the creation
92
                of the tree.  The alternative creating
93
                the device in two stages: As a separate
94
                entity and then as a part of the tree.
95
 
96
#if LATER
97
        o       Run-time properties can not be created
98
                until after the devices in the tree
99
                have been created.  Hence an extra pass
100
                for handling them.
101
#endif
102
 
103
   */
104
 
105
/* Relationships:
106
 
107
   A device is able to determine its relationship to other devices
108
   within the tree.  Operations include querying for a devices parent,
109
   sibling, child, name, and path (from the root).
110
 
111
   */
112
 
113
 
114
#define hw_parent(hw) ((hw)->parent_of_hw + 0)
115
 
116
#define hw_sibling(hw) ((hw)->sibling_of_hw + 0)
117
 
118
#define hw_child(hw) ((hw)->child_of_hw + 0)
119
 
120
 
121
 
122
/* Herritage:
123
 
124
 */
125
 
126
#define hw_family(hw) ((hw)->family_of_hw + 0)
127
 
128
#define hw_name(hw) ((hw)->name_of_hw + 0)
129
 
130
#define hw_args(hw) ((hw)->args_of_hw + 0)
131
 
132
#define hw_path(hw) ((hw)->path_of_hw + 0)
133
 
134
 
135
 
136
/* Short cut to the root node of the tree */
137
 
138
#define hw_root(hw) ((hw)->root_of_hw + 0)
139
 
140
/* Short cut back to the simulator object */
141
 
142
#define hw_system(hw) ((hw)->system_of_hw)
143
 
144
/* For requests initiated by a CPU the cpu that initiated the request */
145
 
146
struct _sim_cpu *hw_system_cpu (struct hw *hw);
147
 
148
 
149
/* Device private data */
150
 
151
#define hw_data(hw) ((hw)->data_of_hw)
152
 
153
#define set_hw_data(hw, value) \
154
((hw)->data_of_hw = (value))
155
 
156
 
157
 
158
/* Perform a soft reset of the device */
159
 
160
typedef unsigned (hw_reset_method)
161
     (struct hw *me);
162
 
163
#define hw_reset(hw) ((hw)->to_reset (hw))
164
 
165
#define set_hw_reset(hw, method) \
166
((hw)->to_reset = method)
167
 
168
 
169
/* Hardware operations:
170
 
171
   Connecting a parent to its children is a common bus. The parent
172
   node is described as the bus owner and is responisble for
173
   co-ordinating bus operations. On the bus, a SPACE:ADDR pair is used
174
   to specify an address.  A device that is both a bus owner (parent)
175
   and bus client (child) are refered to as a bridging device.
176
 
177
   A child performing a data (DMA) transfer will pass its request to
178
   the bus owner (the devices parent).  The bus owner will then either
179
   reflect the request to one of the other devices attached to the bus
180
   (a child of the bus owner) or bridge the request up the tree to the
181
   next bus. */
182
 
183
 
184
/* Children attached to a bus can register (attach) themselves to
185
   specific addresses on their attached bus.
186
 
187
   (A device may also be implicitly attached to certain bus
188
   addresses).
189
 
190
   The SPACE:ADDR pair specify an address on the common bus that
191
   connects the parent and child devices. */
192
 
193
typedef void (hw_attach_address_method)
194
     (struct hw *me,
195
      int level,
196
      int space,
197
      address_word addr,
198
      address_word nr_bytes,
199
      struct hw *client); /*callback/default*/
200
 
201
#define hw_attach_address(me, level, space, addr, nr_bytes, client) \
202
((me)->to_attach_address (me, level, space, addr, nr_bytes, client))
203
 
204
#define set_hw_attach_address(hw, method) \
205
((hw)->to_attach_address = (method))
206
 
207
typedef void (hw_detach_address_method)
208
     (struct hw *me,
209
      int level,
210
      int space,
211
      address_word addr,
212
      address_word nr_bytes,
213
      struct hw *client); /*callback/default*/
214
 
215
#define hw_detach_address(me, level, space, addr, nr_bytes, client) \
216
((me)->to_detach_address (me, level, space, addr, nr_bytes, client))
217
 
218
#define set_hw_detach_address(hw, method) \
219
((hw)->to_detach_address = (method))
220
 
221
 
222
/* An IO operation from a parent to a child via the conecting bus.
223
 
224
   The SPACE:ADDR pair specify an address on the bus shared between
225
   the parent and child devices. */
226
 
227
typedef unsigned (hw_io_read_buffer_method)
228
     (struct hw *me,
229
      void *dest,
230
      int space,
231
      unsigned_word addr,
232
      unsigned nr_bytes);
233
 
234
#define hw_io_read_buffer(hw, dest, space, addr, nr_bytes) \
235
((hw)->to_io_read_buffer (hw, dest, space, addr, nr_bytes))
236
 
237
#define set_hw_io_read_buffer(hw, method) \
238
((hw)->to_io_read_buffer = (method))
239
 
240
typedef unsigned (hw_io_write_buffer_method)
241
     (struct hw *me,
242
      const void *source,
243
      int space,
244
      unsigned_word addr,
245
      unsigned nr_bytes);
246
 
247
#define hw_io_write_buffer(hw, src, space, addr, nr_bytes) \
248
((hw)->to_io_write_buffer (hw, src, space, addr, nr_bytes))
249
 
250
#define set_hw_io_write_buffer(hw, method) \
251
((hw)->to_io_write_buffer = (method))
252
 
253
 
254
/* Conversly, the device pci1000,1@1 may need to perform a dma transfer
255
   into the cpu/memory core.  Just as I/O moves towards the leaves,
256
   dma transfers move towards the core via the initiating devices
257
   parent nodes.  The root device (special) converts the DMA transfer
258
   into reads/writes to memory.
259
 
260
   The SPACE:ADDR pair specify an address on the common bus connecting
261
   the parent and child devices. */
262
 
263
typedef unsigned (hw_dma_read_buffer_method)
264
     (struct hw *bus,
265
      void *dest,
266
      int space,
267
      unsigned_word addr,
268
      unsigned nr_bytes);
269
 
270
#define hw_dma_read_buffer(bus, dest, space, addr, nr_bytes) \
271
((bus)->to_dma_read_buffer (bus, dest, space, addr, nr_bytes))
272
 
273
#define set_hw_dma_read_buffer(me, method) \
274
((me)->to_dma_read_buffer = (method))
275
 
276
typedef unsigned (hw_dma_write_buffer_method)
277
     (struct hw *bus,
278
      const void *source,
279
      int space,
280
      unsigned_word addr,
281
      unsigned nr_bytes,
282
      int violate_read_only_section);
283
 
284
#define hw_dma_write_buffer(bus, src, space, addr, nr_bytes, violate_ro) \
285
((bus)->to_dma_write_buffer (bus, src, space, addr, nr_bytes, violate_ro))
286
 
287
#define set_hw_dma_write_buffer(me, method) \
288
((me)->to_dma_write_buffer = (method))
289
 
290
/* Address/size specs for devices are encoded following a convention
291
   similar to that used by OpenFirmware.  In particular, an
292
   address/size is packed into a sequence of up to four cell words.
293
   The number of words determined by the number of {address,size}
294
   cells attributes of the device. */
295
 
296
typedef struct _hw_unit {
297
  int nr_cells;
298
  unsigned_cell cells[4]; /* unused cells are zero */
299
} hw_unit;
300
 
301
 
302
/* For the given bus, the number of address and size cells used in a
303
   hw_unit. */
304
 
305
#define hw_unit_nr_address_cells(bus) ((bus)->nr_address_cells_of_hw_unit + 0)
306
 
307
#define hw_unit_nr_size_cells(bus) ((bus)->nr_size_cells_of_hw_unit + 0)
308
 
309
 
310
/* For the given device, its identifying hw_unit address.
311
 
312
   Each device has an identifying hw_unit address.  That address is
313
   used when identifying one of a number of identical devices on a
314
   common controller bus. ex fd0&fd1. */
315
 
316
const hw_unit *hw_unit_address
317
(struct hw *me);
318
 
319
 
320
/* Convert between a textual and the internal representation of a
321
   hw_unit address/size.
322
 
323
   NOTE: A device asks its parent to translate between a hw_unit and
324
   textual representation.  This is because the textual address of a
325
   device is specified using the parent busses notation. */
326
 
327
typedef int (hw_unit_decode_method)
328
     (struct hw *bus,
329
      const char *encoded,
330
      hw_unit *unit);
331
 
332
#define hw_unit_decode(bus, encoded, unit) \
333
((bus)->to_unit_decode (bus, encoded, unit))
334
 
335
#define set_hw_unit_decode(hw, method) \
336
((hw)->to_unit_decode = (method))
337
 
338
typedef int (hw_unit_encode_method)
339
     (struct hw *bus,
340
      const hw_unit *unit,
341
      char *encoded,
342
      int sizeof_buf);
343
 
344
#define hw_unit_encode(bus, unit, encoded, sizeof_encoded) \
345
((bus)->to_unit_encode (bus, unit, encoded, sizeof_encoded))
346
 
347
#define set_hw_unit_encode(hw, method) \
348
((hw)->to_unit_encode = (method))
349
 
350
 
351
/* As the bus that the device is attached too, to translate a devices
352
   hw_unit address/size into a form suitable for an attach address
353
   call.
354
 
355
   Return a zero result if the address should be ignored when looking
356
   for attach addresses. */
357
 
358
typedef int (hw_unit_address_to_attach_address_method)
359
     (struct hw *bus,
360
      const hw_unit *unit_addr,
361
      int *attach_space,
362
      unsigned_word *attach_addr,
363
      struct hw *client);
364
 
365
#define hw_unit_address_to_attach_address(bus, unit_addr, attach_space, attach_addr, client) \
366
((bus)->to_unit_address_to_attach_address (bus, unit_addr, attach_space, attach_addr, client))
367
 
368
#define set_hw_unit_address_to_attach_address(hw, method) \
369
((hw)->to_unit_address_to_attach_address = (method))
370
 
371
typedef int (hw_unit_size_to_attach_size_method)
372
     (struct hw *bus,
373
      const hw_unit *unit_size,
374
      unsigned *attach_size,
375
      struct hw *client);
376
 
377
#define hw_unit_size_to_attach_size(bus, unit_size, attach_size, client) \
378
((bus)->to_unit_size_to_attach_size (bus, unit_size, attach_size, client))
379
 
380
#define set_hw_unit_size_to_attach_size(hw, method) \
381
((hw)->to_unit_size_to_attach_size = (method))
382
 
383
 
384
extern char *hw_strdup (struct hw *me, const char *str);
385
 
386
 
387
/* Utilities:
388
 
389
   */
390
 
391
/* IOCTL::
392
 
393
   Often devices require `out of band' operations to be performed.
394
   For instance a pal device may need to notify a PCI bridge device
395
   that an interrupt ack cycle needs to be performed on the PCI bus.
396
   Within PSIM such operations are performed by using the generic
397
   ioctl call <<hw_ioctl()>>.
398
 
399
   */
400
 
401
typedef enum {
402
  hw_ioctl_break, /* unsigned_word requested_break */
403
  hw_ioctl_set_trace, /* void */
404
  hw_ioctl_create_stack, /* unsigned_word *sp, char **argv, char **envp */
405
  hw_ioctl_change_media, /* const char *new_image (possibly NULL) */
406
  nr_hw_ioctl_requests,
407
} hw_ioctl_request;
408
 
409
typedef int (hw_ioctl_method)
410
     (struct hw *me,
411
      hw_ioctl_request request,
412
      va_list ap);
413
 
414
int hw_ioctl
415
(struct hw *me,
416
 hw_ioctl_request request,
417
 ...);
418
 
419
 
420
/* Error reporting::
421
 
422
   So that errors originating from devices appear in a consistent
423
   format, the <<hw_abort()>> function can be used.  Formats and
424
   outputs the error message before aborting the simulation
425
 
426
   Devices should use this function to abort the simulation except
427
   when the abort reason leaves the simulation in a hazardous
428
   condition (for instance a failed malloc).
429
 
430
   */
431
 
432
void hw_abort
433
(struct hw *me,
434
 const char *fmt,
435
 ...) __attribute__ ((format (printf, 2, 3)));
436
 
437
void hw_vabort
438
(struct hw *me,
439
 const char *fmt,
440
 va_list ap);
441
 
442
void hw_halt
443
(struct hw *me,
444
 int reason,
445
 int status);
446
 
447
 
448
#define hw_trace_p(hw) ((hw)->trace_of_hw_p + 0)
449
 
450
void hw_trace
451
(struct hw *me,
452
 const char *fmt,
453
 ...) __attribute__ ((format (printf, 2, 3)));
454
 
455
#define HW_TRACE(ARGS) \
456
do { \
457
  if (hw_trace_p (me)) \
458
    { \
459
      hw_trace ARGS; \
460
    } \
461
} while (0)
462
 
463
 
464
/* Some of the related functions require specific types */
465
 
466
struct hw_property_data;
467
struct hw_port_data;
468
struct hw_base_data;
469
struct hw_alloc_data;
470
struct hw_event_data;
471
struct hw_handle_data;
472
struct hw_instance_data;
473
 
474
/* Finally the hardware device - keep your grubby little mits off of
475
   these internals! :-) */
476
 
477
struct hw {
478
 
479
  /* our relatives */
480
  struct hw *parent_of_hw;
481
  struct hw *sibling_of_hw;
482
  struct hw *child_of_hw;
483
 
484
  /* our identity */
485
  const char *name_of_hw;
486
  const char *family_of_hw;
487
  const char *args_of_hw;
488
  const char *path_of_hw;
489
 
490
  /* our data */
491
  void *data_of_hw;
492
 
493
  /* hot links */
494
  struct hw *root_of_hw;
495
  struct sim_state *system_of_hw;
496
 
497
  /* identifying data */
498
  hw_unit unit_address_of_hw;
499
  int nr_address_cells_of_hw_unit;
500
  int nr_size_cells_of_hw_unit;
501
 
502
  /* Soft reset */
503
  hw_reset_method *to_reset;
504
 
505
  /* Basic callbacks */
506
  hw_io_read_buffer_method *to_io_read_buffer;
507
  hw_io_write_buffer_method *to_io_write_buffer;
508
  hw_dma_read_buffer_method *to_dma_read_buffer;
509
  hw_dma_write_buffer_method *to_dma_write_buffer;
510
  hw_attach_address_method *to_attach_address;
511
  hw_detach_address_method *to_detach_address;
512
 
513
  /* More complicated callbacks */
514
  hw_ioctl_method *to_ioctl;
515
  int trace_of_hw_p;
516
 
517
  /* address callbacks */
518
  hw_unit_decode_method *to_unit_decode;
519
  hw_unit_encode_method *to_unit_encode;
520
  hw_unit_address_to_attach_address_method *to_unit_address_to_attach_address;
521
  hw_unit_size_to_attach_size_method *to_unit_size_to_attach_size;
522
 
523
  /* related data */
524
  struct hw_property_data *properties_of_hw;
525
  struct hw_port_data *ports_of_hw;
526
  struct hw_base_data *base_of_hw;
527
  struct hw_alloc_data *alloc_of_hw;
528
  struct hw_event_data *events_of_hw;
529
  struct hw_handle_data *handles_of_hw;
530
  struct hw_instance_data *instances_of_hw;
531
 
532
};
533
 
534
 
535
#endif

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