/[dynamips]/upstream/dynamips-0.2.5/dev_c7200_mpfpga.c
This is repository of my old source code which isn't updated any more. Go to git.rot13.org for current projects!
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Contents of /upstream/dynamips-0.2.5/dev_c7200_mpfpga.c

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Revision 1 - (show annotations)
Sat Oct 6 16:01:44 2007 UTC (16 years, 5 months ago) by dpavlin
File MIME type: text/plain
File size: 11611 byte(s)
import 0.2.5 from upstream

1 /*
2 * Cisco 7200 (Predator) simulation platform.
3 * Copyright (c) 2005,2006 Christophe Fillot (cf@utc.fr)
4 *
5 * Cisco C7200 (Predator) Midplane FPGA.
6 */
7
8 #include <stdio.h>
9 #include <stdlib.h>
10 #include <string.h>
11
12 #include "mips64.h"
13 #include "dynamips.h"
14 #include "memory.h"
15 #include "device.h"
16 #include "nmc93c46.h"
17 #include "dev_c7200.h"
18
19 #define DEBUG_UNKNOWN 1
20 #define DEBUG_ACCESS 0
21 #define DEBUG_OIR 0
22
23 /*
24 * Definitions for Port Adapter Status.
25 */
26 #define PCI_BAY0_3V_OK 0x00000002 /* IO card 3V */
27 #define PCI_BAY0_5V_OK 0x00000004 /* IO card 5V */
28
29 #define PCI_BAY1_5V_OK 0x00000200 /* Bay 1 5V */
30 #define PCI_BAY1_3V_OK 0x00000400 /* Bay 1 3V */
31
32 #define PCI_BAY2_5V_OK 0x00002000 /* Bay 2 5V */
33 #define PCI_BAY2_3V_OK 0x00004000 /* Bay 2 3V */
34
35 #define PCI_BAY3_5V_OK 0x02000000 /* Bay 3 5V */
36 #define PCI_BAY3_3V_OK 0x04000000 /* Bay 3 3V */
37
38 #define PCI_BAY4_5V_OK 0x00020000 /* Bay 4 5V */
39 #define PCI_BAY4_3V_OK 0x00040000 /* Bay 4 3V */
40
41 #define PCI_BAY5_5V_OK 0x20000000 /* Bay 5 5V */
42 #define PCI_BAY5_3V_OK 0x40000000 /* Bay 5 3V */
43
44 #define PCI_BAY6_5V_OK 0x00200000 /* Bay 6 5V */
45 #define PCI_BAY6_3V_OK 0x00400000 /* Bay 6 3V */
46
47 /*
48 * Definitions for EEPROM access (slots 0,1,3,4) (0x60)
49 */
50 #define BAY0_EEPROM_SELECT_BIT 1
51 #define BAY0_EEPROM_CLOCK_BIT 3
52 #define BAY0_EEPROM_DIN_BIT 4
53 #define BAY0_EEPROM_DOUT_BIT 6
54
55 #define BAY1_EEPROM_SELECT_BIT 9
56 #define BAY1_EEPROM_CLOCK_BIT 11
57 #define BAY1_EEPROM_DIN_BIT 12
58 #define BAY1_EEPROM_DOUT_BIT 14
59
60 #define BAY3_EEPROM_SELECT_BIT 25
61 #define BAY3_EEPROM_CLOCK_BIT 27
62 #define BAY3_EEPROM_DIN_BIT 28
63 #define BAY3_EEPROM_DOUT_BIT 30
64
65 #define BAY4_EEPROM_SELECT_BIT 17
66 #define BAY4_EEPROM_CLOCK_BIT 19
67 #define BAY4_EEPROM_DIN_BIT 20
68 #define BAY4_EEPROM_DOUT_BIT 22
69
70 /*
71 * Definitions for EEPROM access (slots 2,5,6) (0x68)
72 */
73 #define BAY2_EEPROM_SELECT_BIT 9
74 #define BAY2_EEPROM_CLOCK_BIT 11
75 #define BAY2_EEPROM_DIN_BIT 12
76 #define BAY2_EEPROM_DOUT_BIT 14
77
78 #define BAY5_EEPROM_SELECT_BIT 25
79 #define BAY5_EEPROM_CLOCK_BIT 27
80 #define BAY5_EEPROM_DIN_BIT 28
81 #define BAY5_EEPROM_DOUT_BIT 30
82
83 #define BAY6_EEPROM_SELECT_BIT 17
84 #define BAY6_EEPROM_CLOCK_BIT 19
85 #define BAY6_EEPROM_DIN_BIT 20
86 #define BAY6_EEPROM_DOUT_BIT 22
87
88 /* PA Bay EEPROM definitions */
89 static const struct nmc93c46_eeprom_def eeprom_bay_def[C7200_MAX_PA_BAYS] = {
90 /* Bay 0 */
91 { BAY0_EEPROM_CLOCK_BIT , BAY0_EEPROM_SELECT_BIT,
92 BAY0_EEPROM_DIN_BIT , BAY0_EEPROM_DOUT_BIT,
93 NULL, 0 },
94
95 /* Bay 1 */
96 { BAY1_EEPROM_CLOCK_BIT , BAY1_EEPROM_SELECT_BIT,
97 BAY1_EEPROM_DIN_BIT , BAY1_EEPROM_DOUT_BIT,
98 NULL, 0 },
99
100 /* Bay 2 */
101 { BAY2_EEPROM_CLOCK_BIT , BAY2_EEPROM_SELECT_BIT,
102 BAY2_EEPROM_DIN_BIT , BAY2_EEPROM_DOUT_BIT,
103 NULL, 0 },
104
105 /* Bay 3 */
106 { BAY3_EEPROM_CLOCK_BIT , BAY3_EEPROM_SELECT_BIT,
107 BAY3_EEPROM_DIN_BIT , BAY3_EEPROM_DOUT_BIT,
108 NULL, 0 },
109
110 /* Bay 4 */
111 { BAY4_EEPROM_CLOCK_BIT , BAY4_EEPROM_SELECT_BIT,
112 BAY4_EEPROM_DIN_BIT , BAY4_EEPROM_DOUT_BIT,
113 NULL, 0 },
114
115 /* Bay 5 */
116 { BAY5_EEPROM_CLOCK_BIT , BAY5_EEPROM_SELECT_BIT,
117 BAY5_EEPROM_DIN_BIT , BAY5_EEPROM_DOUT_BIT,
118 NULL, 0 },
119
120 /* Bay 6 */
121 { BAY6_EEPROM_CLOCK_BIT , BAY6_EEPROM_SELECT_BIT,
122 BAY6_EEPROM_DIN_BIT , BAY6_EEPROM_DOUT_BIT,
123 NULL, 0 },
124 };
125
126 /* EEPROM group #1 (Bays 0, 1, 3, 4) */
127 static const struct nmc93c46_group eeprom_bays_g1 = {
128 4, 0, "PA Bays (Group #1) EEPROM", FALSE,
129
130 { NULL, NULL, NULL, NULL },
131
132 { { 0, 0, 0, 0, 0}, { 0, 0, 0, 0, 0}, { 0, 0, 0, 0, 0},
133 { 0, 0, 0, 0, 0} },
134 };
135
136 /* EEPROM group #2 (Bays 2, 5, 6) */
137 static const struct nmc93c46_group eeprom_bays_g2 = {
138 3, 0, "PA Bays (Group #2) EEPROM", FALSE,
139
140 { NULL, NULL, NULL },
141
142 { { 0, 0, 0, 0, 0}, { 0, 0, 0, 0, 0}, { 0, 0, 0, 0, 0} },
143 };
144
145 /* Midplane FPGA private data */
146 struct mpfpga_data {
147 vm_obj_t vm_obj;
148 struct vdevice dev;
149
150 c7200_t *router;
151 m_uint32_t pa_status_reg;
152 m_uint32_t pa_ctrl_reg;
153 };
154
155 /* Update Port Adapter Status */
156 static void pa_update_status_reg(struct mpfpga_data *d)
157 {
158 m_uint32_t res = 0;
159
160 /* PA Power. Bay 0 is always powered */
161 res |= PCI_BAY0_5V_OK | PCI_BAY0_3V_OK;
162
163 /* We fake power on bays defined by the final user */
164 if (c7200_pa_check_eeprom(d->router,1))
165 res |= PCI_BAY1_5V_OK | PCI_BAY1_3V_OK;
166
167 if (c7200_pa_check_eeprom(d->router,2))
168 res |= PCI_BAY2_5V_OK | PCI_BAY2_3V_OK;
169
170 if (c7200_pa_check_eeprom(d->router,3))
171 res |= PCI_BAY3_5V_OK | PCI_BAY3_3V_OK;
172
173 if (c7200_pa_check_eeprom(d->router,4))
174 res |= PCI_BAY4_5V_OK | PCI_BAY4_3V_OK;
175
176 if (c7200_pa_check_eeprom(d->router,5))
177 res |= PCI_BAY5_5V_OK | PCI_BAY5_3V_OK;
178
179 if (c7200_pa_check_eeprom(d->router,6))
180 res |= PCI_BAY6_5V_OK | PCI_BAY6_3V_OK;
181
182 d->pa_status_reg = res;
183 }
184
185 /*
186 * dev_mpfpga_access()
187 */
188 void *dev_c7200_mpfpga_access(cpu_mips_t *cpu,struct vdevice *dev,
189 m_uint32_t offset,u_int op_size,u_int op_type,
190 m_uint64_t *data)
191 {
192 struct mpfpga_data *d = dev->priv_data;
193
194 if (op_type == MTS_READ)
195 *data = 0x0;
196
197 /* Optimization: this is written regularly */
198 if (offset == 0x7b)
199 return NULL;
200
201 #if DEBUG_ACCESS
202 if (op_type == MTS_READ) {
203 cpu_log(cpu,"MP_FPGA","reading reg 0x%x at pc=0x%llx (size=%u)\n",
204 offset,cpu->pc,op_size);
205 } else {
206 cpu_log(cpu,"MP_FPGA",
207 "writing reg 0x%x at pc=0x%llx, data=0x%llx (size=%u)\n",
208 offset,cpu->pc,*data,op_size);
209 }
210 #endif
211
212 switch(offset) {
213 case 0x10: /* interrupt mask, should be done more efficiently */
214 case 0x11:
215 case 0x12:
216 case 0x13:
217 if (op_type == MTS_READ) {
218 *data = 0xFFFFFFFF;
219 vm_clear_irq(d->router->vm,C7200_NETIO_IRQ);
220 }
221 break;
222
223 case 0x18: /* interrupt mask, should be done more efficiently */
224 case 0x19:
225 case 0x1a:
226 if (op_type == MTS_READ) {
227 *data = 0xFFFFFFFF;
228 vm_clear_irq(d->router->vm,C7200_NETIO_IRQ);
229 }
230 break;
231
232 /*
233 * - PCI errors (seen with IRQ 6)
234 * - Used when PA Mgmt IRQ is triggered.
235 *
236 * If the PA Mgmt IRQ is triggered for an undefined slot, a crash
237 * occurs with "Error: Unexpected NM Interrupt received from slot: 6"
238 * So, we use the PA status reg as mask to return something safe
239 * (slot order is identical).
240 */
241 case 0x40:
242 if (op_type == MTS_READ)
243 *data = 0x66666600 & d->pa_status_reg;
244
245 mips64_clear_irq(cpu,C7200_PA_MGMT_IRQ);
246 break;
247
248 case 0x48: /* ??? (test) */
249 if (op_type == MTS_READ)
250 *data = 0xFFFFFFFF;
251 break;
252
253 /*
254 * This corresponds to err_stat in error message when IRQ 6 is
255 * triggered.
256 *
257 * Bit 7 => SRAM error.
258 * Bits 1-6 => OIR on slot 1-6
259 */
260 case 0x70:
261 if (op_type == MTS_READ) {
262 #if DEBUG_OIR
263 cpu_log(cpu,"MP_FPGA","reading reg 0x%x at pc=0x%llx, val=0x%x\n",
264 offset,cpu->pc,d->router->oir_status);
265 #endif
266 *data = d->router->oir_status;
267 } else {
268 #if DEBUG_OIR
269 cpu_log(cpu,"MP_FPGA","writing reg 0x%x at pc=0x%llx "
270 "(data=0x%llx)\n",offset,cpu->pc,*data);
271 #endif
272 d->router->oir_status &= ~(*data);
273 vm_clear_irq(d->router->vm,C7200_OIR_IRQ);
274 }
275 break;
276
277 /*
278 * This corresponds to err_enable in error message when IRQ 6 is
279 * triggered. No idea of what it really means.
280 */
281 case 0x78:
282 if (op_type == MTS_READ) {
283 #if DEBUG_OIR
284 cpu_log(cpu,"MP_FPGA","reading 0x78 at pc=0x%llx\n",cpu->pc);
285 #endif
286 *data = 0x00;
287 } else {
288 #if DEBUG_OIR
289 cpu_log(cpu,"MP_FPGA","writing reg 0x78 at pc=0x%llx "
290 "(data=0x%llx)\n",cpu->pc,*data);
291 #endif
292 }
293 break;
294
295 case 0x38: /* TDM status */
296 break;
297
298 case 0x50: /* Port Adapter Status */
299 if (op_type == MTS_READ) {
300 pa_update_status_reg(d);
301 *data = d->pa_status_reg;
302 }
303 break;
304
305 case 0x58: /* Port Adapter Control */
306 if (op_type == MTS_WRITE)
307 d->pa_ctrl_reg = *data;
308 else
309 *data = d->pa_ctrl_reg;
310 break;
311
312 case 0x60: /* EEPROM for PA in slots 0,1,3,4 */
313 if (op_type == MTS_WRITE)
314 nmc93c46_write(&d->router->pa_eeprom_g1,*data);
315 else
316 *data = nmc93c46_read(&d->router->pa_eeprom_g1);
317 break;
318
319 case 0x68: /* EEPROM for PA in slots 2,5,6 */
320 if (op_type == MTS_WRITE)
321 nmc93c46_write(&d->router->pa_eeprom_g2,*data);
322 else
323 *data = nmc93c46_read(&d->router->pa_eeprom_g2);
324 break;
325
326 case 0x7b: /* ??? */
327 break;
328
329 #if DEBUG_UNKNOWN
330 default:
331 if (op_type == MTS_READ) {
332 cpu_log(cpu,"MP_FPGA","read from addr 0x%x, pc=0x%llx\n",
333 offset,cpu->pc);
334 } else {
335 cpu_log(cpu,"MP_FPGA","write to addr 0x%x, value=0x%llx, "
336 "pc=0x%llx\n",offset,*data,cpu->pc);
337 }
338 #endif
339 }
340
341 return NULL;
342 }
343
344 /* Initialize EEPROM groups */
345 static void init_eeprom_groups(c7200_t *router)
346 {
347 struct nmc93c46_group *g;
348 int i;
349
350 for(i=0;i<C7200_MAX_PA_BAYS;i++) {
351 memcpy(&router->pa_bay[i].eeprom,&eeprom_bay_def[i],
352 sizeof(struct nmc93c46_eeprom_def));
353 }
354
355 /* Group 1: bays 0, 1, 3, 4 */
356 g = &router->pa_eeprom_g1;
357 memcpy(g,&eeprom_bays_g1,sizeof(struct nmc93c46_group));
358 g->def[0] = &router->pa_bay[0].eeprom;
359 g->def[1] = &router->pa_bay[1].eeprom;
360 g->def[2] = &router->pa_bay[3].eeprom;
361 g->def[3] = &router->pa_bay[4].eeprom;
362
363 /* Group 2: bays 2, 5, 6 */
364 g = &router->pa_eeprom_g2;
365 memcpy(g,&eeprom_bays_g2,sizeof(struct nmc93c46_group));
366 g->def[0] = &router->pa_bay[2].eeprom;
367 g->def[1] = &router->pa_bay[5].eeprom;
368 g->def[2] = &router->pa_bay[6].eeprom;
369
370 /* Set empty EEPROMs for all slots */
371 for(i=0;i<C7200_MAX_PA_BAYS;i++)
372 c7200_pa_unset_eeprom(router,i);
373 }
374
375 /* Shutdown the MP FPGA device */
376 void dev_c7200_mpfpga_shutdown(vm_instance_t *vm,struct mpfpga_data *d)
377 {
378 if (d != NULL) {
379 /* Remove the device */
380 dev_remove(vm,&d->dev);
381
382 /* Free the structure itself */
383 free(d);
384 }
385 }
386
387 /*
388 * dev_c7200_mpfpga_init()
389 */
390 int dev_c7200_mpfpga_init(c7200_t *router,m_uint64_t paddr,m_uint32_t len)
391 {
392 struct mpfpga_data *d;
393
394 /* Allocate private data structure */
395 if (!(d = malloc(sizeof(*d)))) {
396 fprintf(stderr,"MP_FPGA: out of memory\n");
397 return(-1);
398 }
399
400 memset(d,0,sizeof(*d));
401 d->router = router;
402
403 /* Initialize EEPROMs */
404 init_eeprom_groups(router);
405
406 vm_object_init(&d->vm_obj);
407 d->vm_obj.name = "mp_fpga";
408 d->vm_obj.data = d;
409 d->vm_obj.shutdown = (vm_shutdown_t)dev_c7200_mpfpga_shutdown;
410
411 /* Set device properties */
412 dev_init(&d->dev);
413 d->dev.name = "mp_fpga";
414 d->dev.phys_addr = paddr;
415 d->dev.phys_len = len;
416 d->dev.handler = dev_c7200_mpfpga_access;
417 d->dev.priv_data = d;
418
419 /* Map this device to the VM */
420 vm_bind_device(router->vm,&d->dev);
421 vm_object_add(router->vm,&d->vm_obj);
422 return(0);
423 }

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