/hw/slavio_misc.c - Annotate - qemu - Greek Research and Technology Network's projects

root / hw / slavio_misc.c @ ffd39257

History | View | Annotate | Download (12.1 kB)

1	3475187d	bellard	/*
2	3475187d	bellard	* QEMU Sparc SLAVIO aux io port emulation
3	5fafdf24	ths	*
4	3475187d	bellard	* Copyright (c) 2005 Fabrice Bellard
5	5fafdf24	ths	*
6	3475187d	bellard	* Permission is hereby granted, free of charge, to any person obtaining a copy
7	3475187d	bellard	* of this software and associated documentation files (the "Software"), to deal
8	3475187d	bellard	* in the Software without restriction, including without limitation the rights
9	3475187d	bellard	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
10	3475187d	bellard	* copies of the Software, and to permit persons to whom the Software is
11	3475187d	bellard	* furnished to do so, subject to the following conditions:
12	3475187d	bellard	*
13	3475187d	bellard	* The above copyright notice and this permission notice shall be included in
14	3475187d	bellard	* all copies or substantial portions of the Software.
15	3475187d	bellard	*
16	3475187d	bellard	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17	3475187d	bellard	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18	3475187d	bellard	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19	3475187d	bellard	* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20	3475187d	bellard	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21	3475187d	bellard	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
22	3475187d	bellard	* THE SOFTWARE.
23	3475187d	bellard	*/
24	87ecb68b	pbrook	#include "hw.h"
25	87ecb68b	pbrook	#include "sun4m.h"
26	87ecb68b	pbrook	#include "sysemu.h"
27	87ecb68b	pbrook
28	3475187d	bellard	/* debug misc */
29	3475187d	bellard	//#define DEBUG_MISC
30	3475187d	bellard
31	3475187d	bellard	/*
32	3475187d	bellard	* This is the auxio port, chip control and system control part of
33	3475187d	bellard	* chip STP2001 (Slave I/O), also produced as NCR89C105. See
34	3475187d	bellard	* http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR89C105.txt
35	3475187d	bellard	*
36	3475187d	bellard	* This also includes the PMC CPU idle controller.
37	3475187d	bellard	*/
38	3475187d	bellard
39	3475187d	bellard	#ifdef DEBUG_MISC
40	3475187d	bellard	#define MISC_DPRINTF(fmt, args...) \
41	3475187d	bellard	do { printf("MISC: " fmt , ##args); } while (0)
42	3475187d	bellard	#else
43	3475187d	bellard	#define MISC_DPRINTF(fmt, args...)
44	3475187d	bellard	#endif
45	3475187d	bellard
46	3475187d	bellard	typedef struct MiscState {
47	d537cf6c	pbrook	qemu_irq irq;
48	3475187d	bellard	uint8_t config;
49	3475187d	bellard	uint8_t aux1, aux2;
50	bfa30a38	blueswir1	uint8_t diag, mctrl;
51	bfa30a38	blueswir1	uint32_t sysctrl;
52	6a3b9cc9	blueswir1	uint16_t leds;
53	6d0c293d	blueswir1	qemu_irq cpu_halt;
54	2be17ebd	blueswir1	qemu_irq fdc_tc;
55	3475187d	bellard	} MiscState;
56	3475187d	bellard
57	5aca8c3b	blueswir1	#define MISC_SIZE 1
58	bfa30a38	blueswir1	#define SYSCTRL_MAXADDR 3
59	bfa30a38	blueswir1	#define SYSCTRL_SIZE (SYSCTRL_MAXADDR + 1)
60	d5296cb5	blueswir1	#define LED_MAXADDR 1
61	6a3b9cc9	blueswir1	#define LED_SIZE (LED_MAXADDR + 1)
62	3475187d	bellard
63	7debeb82	blueswir1	#define MISC_MASK 0x0fff0000
64	7debeb82	blueswir1	#define MISC_LEDS 0x01600000
65	7debeb82	blueswir1	#define MISC_CFG 0x01800000
66	7debeb82	blueswir1	#define MISC_DIAG 0x01a00000
67	7debeb82	blueswir1	#define MISC_MDM 0x01b00000
68	7debeb82	blueswir1	#define MISC_SYS 0x01f00000
69	7debeb82	blueswir1
70	2be17ebd	blueswir1	#define AUX1_TC 0x02
71	2be17ebd	blueswir1
72	7debeb82	blueswir1	#define AUX2_PWROFF 0x01
73	7debeb82	blueswir1	#define AUX2_PWRINTCLR 0x02
74	7debeb82	blueswir1	#define AUX2_PWRFAIL 0x20
75	7debeb82	blueswir1
76	7debeb82	blueswir1	#define CFG_PWRINTEN 0x08
77	7debeb82	blueswir1
78	7debeb82	blueswir1	#define SYS_RESET 0x01
79	7debeb82	blueswir1	#define SYS_RESETSTAT 0x02
80	7debeb82	blueswir1
81	3475187d	bellard	static void slavio_misc_update_irq(void *opaque)
82	3475187d	bellard	{
83	3475187d	bellard	MiscState *s = opaque;
84	3475187d	bellard
85	7debeb82	blueswir1	if ((s->aux2 & AUX2_PWRFAIL) && (s->config & CFG_PWRINTEN)) {
86	d537cf6c	pbrook	MISC_DPRINTF("Raise IRQ\n");
87	d537cf6c	pbrook	qemu_irq_raise(s->irq);
88	3475187d	bellard	} else {
89	d537cf6c	pbrook	MISC_DPRINTF("Lower IRQ\n");
90	d537cf6c	pbrook	qemu_irq_lower(s->irq);
91	3475187d	bellard	}
92	3475187d	bellard	}
93	3475187d	bellard
94	3475187d	bellard	static void slavio_misc_reset(void *opaque)
95	3475187d	bellard	{
96	3475187d	bellard	MiscState *s = opaque;
97	3475187d	bellard
98	4e3b1ea1	bellard	// Diagnostic and system control registers not cleared in reset
99	3475187d	bellard	s->config = s->aux1 = s->aux2 = s->mctrl = 0;
100	3475187d	bellard	}
101	3475187d	bellard
102	3475187d	bellard	void slavio_set_power_fail(void *opaque, int power_failing)
103	3475187d	bellard	{
104	3475187d	bellard	MiscState *s = opaque;
105	3475187d	bellard
106	3475187d	bellard	MISC_DPRINTF("Power fail: %d, config: %d\n", power_failing, s->config);
107	7debeb82	blueswir1	if (power_failing && (s->config & CFG_PWRINTEN)) {
108	7debeb82	blueswir1	s->aux2 \|= AUX2_PWRFAIL;
109	3475187d	bellard	} else {
110	7debeb82	blueswir1	s->aux2 &= ~AUX2_PWRFAIL;
111	3475187d	bellard	}
112	3475187d	bellard	slavio_misc_update_irq(s);
113	3475187d	bellard	}
114	3475187d	bellard
115	bfa30a38	blueswir1	static void slavio_misc_mem_writeb(void *opaque, target_phys_addr_t addr,
116	bfa30a38	blueswir1	uint32_t val)
117	3475187d	bellard	{
118	3475187d	bellard	MiscState *s = opaque;
119	3475187d	bellard
120	7debeb82	blueswir1	switch (addr & MISC_MASK) {
121	7debeb82	blueswir1	case MISC_CFG:
122	f930d07e	blueswir1	MISC_DPRINTF("Write config %2.2x\n", val & 0xff);
123	f930d07e	blueswir1	s->config = val & 0xff;
124	f930d07e	blueswir1	slavio_misc_update_irq(s);
125	f930d07e	blueswir1	break;
126	7debeb82	blueswir1	case MISC_DIAG:
127	f930d07e	blueswir1	MISC_DPRINTF("Write diag %2.2x\n", val & 0xff);
128	f930d07e	blueswir1	s->diag = val & 0xff;
129	f930d07e	blueswir1	break;
130	7debeb82	blueswir1	case MISC_MDM:
131	f930d07e	blueswir1	MISC_DPRINTF("Write modem control %2.2x\n", val & 0xff);
132	f930d07e	blueswir1	s->mctrl = val & 0xff;
133	f930d07e	blueswir1	break;
134	df33e639	blueswir1	default:
135	f930d07e	blueswir1	break;
136	3475187d	bellard	}
137	3475187d	bellard	}
138	3475187d	bellard
139	3475187d	bellard	static uint32_t slavio_misc_mem_readb(void *opaque, target_phys_addr_t addr)
140	3475187d	bellard	{
141	3475187d	bellard	MiscState *s = opaque;
142	3475187d	bellard	uint32_t ret = 0;
143	3475187d	bellard
144	7debeb82	blueswir1	switch (addr & MISC_MASK) {
145	7debeb82	blueswir1	case MISC_CFG:
146	f930d07e	blueswir1	ret = s->config;
147	f930d07e	blueswir1	MISC_DPRINTF("Read config %2.2x\n", ret);
148	f930d07e	blueswir1	break;
149	7debeb82	blueswir1	case MISC_DIAG:
150	f930d07e	blueswir1	ret = s->diag;
151	f930d07e	blueswir1	MISC_DPRINTF("Read diag %2.2x\n", ret);
152	f930d07e	blueswir1	break;
153	7debeb82	blueswir1	case MISC_MDM:
154	f930d07e	blueswir1	ret = s->mctrl;
155	f930d07e	blueswir1	MISC_DPRINTF("Read modem control %2.2x\n", ret);
156	f930d07e	blueswir1	break;
157	df33e639	blueswir1	default:
158	f930d07e	blueswir1	break;
159	3475187d	bellard	}
160	3475187d	bellard	return ret;
161	3475187d	bellard	}
162	3475187d	bellard
163	3475187d	bellard	static CPUReadMemoryFunc *slavio_misc_mem_read[3] = {
164	3475187d	bellard	slavio_misc_mem_readb,
165	7c560456	blueswir1	NULL,
166	7c560456	blueswir1	NULL,
167	3475187d	bellard	};
168	3475187d	bellard
169	3475187d	bellard	static CPUWriteMemoryFunc *slavio_misc_mem_write[3] = {
170	3475187d	bellard	slavio_misc_mem_writeb,
171	7c560456	blueswir1	NULL,
172	7c560456	blueswir1	NULL,
173	3475187d	bellard	};
174	3475187d	bellard
175	0019ad53	blueswir1	static void slavio_aux1_mem_writeb(void *opaque, target_phys_addr_t addr,
176	0019ad53	blueswir1	uint32_t val)
177	0019ad53	blueswir1	{
178	0019ad53	blueswir1	MiscState *s = opaque;
179	0019ad53	blueswir1
180	0019ad53	blueswir1	MISC_DPRINTF("Write aux1 %2.2x\n", val & 0xff);
181	2be17ebd	blueswir1	if (val & AUX1_TC) {
182	2be17ebd	blueswir1	// Send a pulse to floppy terminal count line
183	2be17ebd	blueswir1	if (s->fdc_tc) {
184	2be17ebd	blueswir1	qemu_irq_raise(s->fdc_tc);
185	2be17ebd	blueswir1	qemu_irq_lower(s->fdc_tc);
186	2be17ebd	blueswir1	}
187	2be17ebd	blueswir1	val &= ~AUX1_TC;
188	2be17ebd	blueswir1	}
189	0019ad53	blueswir1	s->aux1 = val & 0xff;
190	0019ad53	blueswir1	}
191	0019ad53	blueswir1
192	0019ad53	blueswir1	static uint32_t slavio_aux1_mem_readb(void *opaque, target_phys_addr_t addr)
193	0019ad53	blueswir1	{
194	0019ad53	blueswir1	MiscState *s = opaque;
195	0019ad53	blueswir1	uint32_t ret = 0;
196	0019ad53	blueswir1
197	0019ad53	blueswir1	ret = s->aux1;
198	0019ad53	blueswir1	MISC_DPRINTF("Read aux1 %2.2x\n", ret);
199	0019ad53	blueswir1
200	0019ad53	blueswir1	return ret;
201	0019ad53	blueswir1	}
202	0019ad53	blueswir1
203	0019ad53	blueswir1	static CPUReadMemoryFunc *slavio_aux1_mem_read[3] = {
204	0019ad53	blueswir1	slavio_aux1_mem_readb,
205	0019ad53	blueswir1	NULL,
206	0019ad53	blueswir1	NULL,
207	0019ad53	blueswir1	};
208	0019ad53	blueswir1
209	0019ad53	blueswir1	static CPUWriteMemoryFunc *slavio_aux1_mem_write[3] = {
210	0019ad53	blueswir1	slavio_aux1_mem_writeb,
211	0019ad53	blueswir1	NULL,
212	0019ad53	blueswir1	NULL,
213	0019ad53	blueswir1	};
214	0019ad53	blueswir1
215	0019ad53	blueswir1	static void slavio_aux2_mem_writeb(void *opaque, target_phys_addr_t addr,
216	0019ad53	blueswir1	uint32_t val)
217	0019ad53	blueswir1	{
218	0019ad53	blueswir1	MiscState *s = opaque;
219	0019ad53	blueswir1
220	0019ad53	blueswir1	val &= AUX2_PWRINTCLR \| AUX2_PWROFF;
221	0019ad53	blueswir1	MISC_DPRINTF("Write aux2 %2.2x\n", val);
222	0019ad53	blueswir1	val \|= s->aux2 & AUX2_PWRFAIL;
223	0019ad53	blueswir1	if (val & AUX2_PWRINTCLR) // Clear Power Fail int
224	0019ad53	blueswir1	val &= AUX2_PWROFF;
225	0019ad53	blueswir1	s->aux2 = val;
226	0019ad53	blueswir1	if (val & AUX2_PWROFF)
227	0019ad53	blueswir1	qemu_system_shutdown_request();
228	0019ad53	blueswir1	slavio_misc_update_irq(s);
229	0019ad53	blueswir1	}
230	0019ad53	blueswir1
231	0019ad53	blueswir1	static uint32_t slavio_aux2_mem_readb(void *opaque, target_phys_addr_t addr)
232	0019ad53	blueswir1	{
233	0019ad53	blueswir1	MiscState *s = opaque;
234	0019ad53	blueswir1	uint32_t ret = 0;
235	0019ad53	blueswir1
236	0019ad53	blueswir1	ret = s->aux2;
237	0019ad53	blueswir1	MISC_DPRINTF("Read aux2 %2.2x\n", ret);
238	0019ad53	blueswir1
239	0019ad53	blueswir1	return ret;
240	0019ad53	blueswir1	}
241	0019ad53	blueswir1
242	0019ad53	blueswir1	static CPUReadMemoryFunc *slavio_aux2_mem_read[3] = {
243	0019ad53	blueswir1	slavio_aux2_mem_readb,
244	0019ad53	blueswir1	NULL,
245	0019ad53	blueswir1	NULL,
246	0019ad53	blueswir1	};
247	0019ad53	blueswir1
248	0019ad53	blueswir1	static CPUWriteMemoryFunc *slavio_aux2_mem_write[3] = {
249	0019ad53	blueswir1	slavio_aux2_mem_writeb,
250	0019ad53	blueswir1	NULL,
251	0019ad53	blueswir1	NULL,
252	0019ad53	blueswir1	};
253	0019ad53	blueswir1
254	0019ad53	blueswir1	static void apc_mem_writeb(void *opaque, target_phys_addr_t addr, uint32_t val)
255	0019ad53	blueswir1	{
256	0019ad53	blueswir1	MiscState *s = opaque;
257	0019ad53	blueswir1
258	0019ad53	blueswir1	MISC_DPRINTF("Write power management %2.2x\n", val & 0xff);
259	6d0c293d	blueswir1	qemu_irq_raise(s->cpu_halt);
260	0019ad53	blueswir1	}
261	0019ad53	blueswir1
262	0019ad53	blueswir1	static uint32_t apc_mem_readb(void *opaque, target_phys_addr_t addr)
263	0019ad53	blueswir1	{
264	0019ad53	blueswir1	uint32_t ret = 0;
265	0019ad53	blueswir1
266	0019ad53	blueswir1	MISC_DPRINTF("Read power management %2.2x\n", ret);
267	0019ad53	blueswir1	return ret;
268	0019ad53	blueswir1	}
269	0019ad53	blueswir1
270	0019ad53	blueswir1	static CPUReadMemoryFunc *apc_mem_read[3] = {
271	0019ad53	blueswir1	apc_mem_readb,
272	0019ad53	blueswir1	NULL,
273	0019ad53	blueswir1	NULL,
274	0019ad53	blueswir1	};
275	0019ad53	blueswir1
276	0019ad53	blueswir1	static CPUWriteMemoryFunc *apc_mem_write[3] = {
277	0019ad53	blueswir1	apc_mem_writeb,
278	0019ad53	blueswir1	NULL,
279	0019ad53	blueswir1	NULL,
280	0019ad53	blueswir1	};
281	0019ad53	blueswir1
282	bfa30a38	blueswir1	static uint32_t slavio_sysctrl_mem_readl(void *opaque, target_phys_addr_t addr)
283	bfa30a38	blueswir1	{
284	bfa30a38	blueswir1	MiscState *s = opaque;
285	bfa30a38	blueswir1	uint32_t ret = 0, saddr;
286	bfa30a38	blueswir1
287	bfa30a38	blueswir1	saddr = addr & SYSCTRL_MAXADDR;
288	bfa30a38	blueswir1	switch (saddr) {
289	bfa30a38	blueswir1	case 0:
290	bfa30a38	blueswir1	ret = s->sysctrl;
291	bfa30a38	blueswir1	break;
292	bfa30a38	blueswir1	default:
293	bfa30a38	blueswir1	break;
294	bfa30a38	blueswir1	}
295	bfa30a38	blueswir1	MISC_DPRINTF("Read system control reg 0x" TARGET_FMT_plx " = %x\n", addr,
296	bfa30a38	blueswir1	ret);
297	bfa30a38	blueswir1	return ret;
298	bfa30a38	blueswir1	}
299	bfa30a38	blueswir1
300	bfa30a38	blueswir1	static void slavio_sysctrl_mem_writel(void *opaque, target_phys_addr_t addr,
301	bfa30a38	blueswir1	uint32_t val)
302	bfa30a38	blueswir1	{
303	bfa30a38	blueswir1	MiscState *s = opaque;
304	bfa30a38	blueswir1	uint32_t saddr;
305	bfa30a38	blueswir1
306	bfa30a38	blueswir1	saddr = addr & SYSCTRL_MAXADDR;
307	bfa30a38	blueswir1	MISC_DPRINTF("Write system control reg 0x" TARGET_FMT_plx " = %x\n", addr,
308	bfa30a38	blueswir1	val);
309	bfa30a38	blueswir1	switch (saddr) {
310	bfa30a38	blueswir1	case 0:
311	7debeb82	blueswir1	if (val & SYS_RESET) {
312	7debeb82	blueswir1	s->sysctrl = SYS_RESETSTAT;
313	bfa30a38	blueswir1	qemu_system_reset_request();
314	bfa30a38	blueswir1	}
315	bfa30a38	blueswir1	break;
316	bfa30a38	blueswir1	default:
317	bfa30a38	blueswir1	break;
318	bfa30a38	blueswir1	}
319	bfa30a38	blueswir1	}
320	bfa30a38	blueswir1
321	bfa30a38	blueswir1	static CPUReadMemoryFunc *slavio_sysctrl_mem_read[3] = {
322	7c560456	blueswir1	NULL,
323	7c560456	blueswir1	NULL,
324	bfa30a38	blueswir1	slavio_sysctrl_mem_readl,
325	bfa30a38	blueswir1	};
326	bfa30a38	blueswir1
327	bfa30a38	blueswir1	static CPUWriteMemoryFunc *slavio_sysctrl_mem_write[3] = {
328	7c560456	blueswir1	NULL,
329	7c560456	blueswir1	NULL,
330	bfa30a38	blueswir1	slavio_sysctrl_mem_writel,
331	bfa30a38	blueswir1	};
332	bfa30a38	blueswir1
333	7c560456	blueswir1	static uint32_t slavio_led_mem_readw(void *opaque, target_phys_addr_t addr)
334	6a3b9cc9	blueswir1	{
335	6a3b9cc9	blueswir1	MiscState *s = opaque;
336	6a3b9cc9	blueswir1	uint32_t ret = 0, saddr;
337	6a3b9cc9	blueswir1
338	6a3b9cc9	blueswir1	saddr = addr & LED_MAXADDR;
339	6a3b9cc9	blueswir1	switch (saddr) {
340	6a3b9cc9	blueswir1	case 0:
341	6a3b9cc9	blueswir1	ret = s->leds;
342	6a3b9cc9	blueswir1	break;
343	6a3b9cc9	blueswir1	default:
344	6a3b9cc9	blueswir1	break;
345	6a3b9cc9	blueswir1	}
346	6a3b9cc9	blueswir1	MISC_DPRINTF("Read diagnostic LED reg 0x" TARGET_FMT_plx " = %x\n", addr,
347	6a3b9cc9	blueswir1	ret);
348	6a3b9cc9	blueswir1	return ret;
349	6a3b9cc9	blueswir1	}
350	6a3b9cc9	blueswir1
351	7c560456	blueswir1	static void slavio_led_mem_writew(void *opaque, target_phys_addr_t addr,
352	6a3b9cc9	blueswir1	uint32_t val)
353	6a3b9cc9	blueswir1	{
354	6a3b9cc9	blueswir1	MiscState *s = opaque;
355	6a3b9cc9	blueswir1	uint32_t saddr;
356	6a3b9cc9	blueswir1
357	6a3b9cc9	blueswir1	saddr = addr & LED_MAXADDR;
358	6a3b9cc9	blueswir1	MISC_DPRINTF("Write diagnostic LED reg 0x" TARGET_FMT_plx " = %x\n", addr,
359	6a3b9cc9	blueswir1	val);
360	6a3b9cc9	blueswir1	switch (saddr) {
361	6a3b9cc9	blueswir1	case 0:
362	d5296cb5	blueswir1	s->leds = val;
363	6a3b9cc9	blueswir1	break;
364	6a3b9cc9	blueswir1	default:
365	6a3b9cc9	blueswir1	break;
366	6a3b9cc9	blueswir1	}
367	6a3b9cc9	blueswir1	}
368	6a3b9cc9	blueswir1
369	6a3b9cc9	blueswir1	static CPUReadMemoryFunc *slavio_led_mem_read[3] = {
370	7c560456	blueswir1	NULL,
371	7c560456	blueswir1	slavio_led_mem_readw,
372	7c560456	blueswir1	NULL,
373	6a3b9cc9	blueswir1	};
374	6a3b9cc9	blueswir1
375	6a3b9cc9	blueswir1	static CPUWriteMemoryFunc *slavio_led_mem_write[3] = {
376	7c560456	blueswir1	NULL,
377	7c560456	blueswir1	slavio_led_mem_writew,
378	7c560456	blueswir1	NULL,
379	6a3b9cc9	blueswir1	};
380	6a3b9cc9	blueswir1
381	3475187d	bellard	static void slavio_misc_save(QEMUFile f, void opaque)
382	3475187d	bellard	{
383	3475187d	bellard	MiscState *s = opaque;
384	22548760	blueswir1	uint32_t tmp = 0;
385	bfa30a38	blueswir1	uint8_t tmp8;
386	3475187d	bellard
387	d537cf6c	pbrook	qemu_put_be32s(f, &tmp); /* ignored, was IRQ. */
388	3475187d	bellard	qemu_put_8s(f, &s->config);
389	3475187d	bellard	qemu_put_8s(f, &s->aux1);
390	3475187d	bellard	qemu_put_8s(f, &s->aux2);
391	3475187d	bellard	qemu_put_8s(f, &s->diag);
392	3475187d	bellard	qemu_put_8s(f, &s->mctrl);
393	bfa30a38	blueswir1	tmp8 = s->sysctrl & 0xff;
394	bfa30a38	blueswir1	qemu_put_8s(f, &tmp8);
395	3475187d	bellard	}
396	3475187d	bellard
397	3475187d	bellard	static int slavio_misc_load(QEMUFile f, void opaque, int version_id)
398	3475187d	bellard	{
399	3475187d	bellard	MiscState *s = opaque;
400	22548760	blueswir1	uint32_t tmp;
401	bfa30a38	blueswir1	uint8_t tmp8;
402	3475187d	bellard
403	3475187d	bellard	if (version_id != 1)
404	3475187d	bellard	return -EINVAL;
405	3475187d	bellard
406	d537cf6c	pbrook	qemu_get_be32s(f, &tmp);
407	3475187d	bellard	qemu_get_8s(f, &s->config);
408	3475187d	bellard	qemu_get_8s(f, &s->aux1);
409	3475187d	bellard	qemu_get_8s(f, &s->aux2);
410	3475187d	bellard	qemu_get_8s(f, &s->diag);
411	3475187d	bellard	qemu_get_8s(f, &s->mctrl);
412	bfa30a38	blueswir1	qemu_get_8s(f, &tmp8);
413	bfa30a38	blueswir1	s->sysctrl = (uint32_t)tmp8;
414	3475187d	bellard	return 0;
415	3475187d	bellard	}
416	3475187d	bellard
417	5dcb6b91	blueswir1	void *slavio_misc_init(target_phys_addr_t base, target_phys_addr_t power_base,
418	0019ad53	blueswir1	target_phys_addr_t aux1_base,
419	0019ad53	blueswir1	target_phys_addr_t aux2_base, qemu_irq irq,
420	6d0c293d	blueswir1	qemu_irq cpu_halt, qemu_irq **fdc_tc)
421	3475187d	bellard	{
422	0019ad53	blueswir1	int io;
423	3475187d	bellard	MiscState *s;
424	3475187d	bellard
425	3475187d	bellard	s = qemu_mallocz(sizeof(MiscState));
426	3475187d	bellard	if (!s)
427	3475187d	bellard	return NULL;
428	3475187d	bellard
429	0019ad53	blueswir1	if (base) {
430	0019ad53	blueswir1	/* 8 bit registers */
431	0019ad53	blueswir1	io = cpu_register_io_memory(0, slavio_misc_mem_read,
432	0019ad53	blueswir1	slavio_misc_mem_write, s);
433	0019ad53	blueswir1	// Slavio control
434	0019ad53	blueswir1	cpu_register_physical_memory(base + MISC_CFG, MISC_SIZE, io);
435	0019ad53	blueswir1	// Diagnostics
436	0019ad53	blueswir1	cpu_register_physical_memory(base + MISC_DIAG, MISC_SIZE, io);
437	0019ad53	blueswir1	// Modem control
438	0019ad53	blueswir1	cpu_register_physical_memory(base + MISC_MDM, MISC_SIZE, io);
439	0019ad53	blueswir1
440	0019ad53	blueswir1	/* 16 bit registers */
441	0019ad53	blueswir1	io = cpu_register_io_memory(0, slavio_led_mem_read,
442	0019ad53	blueswir1	slavio_led_mem_write, s);
443	0019ad53	blueswir1	/* ss600mp diag LEDs */
444	0019ad53	blueswir1	cpu_register_physical_memory(base + MISC_LEDS, MISC_SIZE, io);
445	0019ad53	blueswir1
446	0019ad53	blueswir1	/* 32 bit registers */
447	0019ad53	blueswir1	io = cpu_register_io_memory(0, slavio_sysctrl_mem_read,
448	0019ad53	blueswir1	slavio_sysctrl_mem_write, s);
449	0019ad53	blueswir1	// System control
450	0019ad53	blueswir1	cpu_register_physical_memory(base + MISC_SYS, SYSCTRL_SIZE, io);
451	0019ad53	blueswir1	}
452	0019ad53	blueswir1
453	0019ad53	blueswir1	// AUX 1 (Misc System Functions)
454	0019ad53	blueswir1	if (aux1_base) {
455	0019ad53	blueswir1	io = cpu_register_io_memory(0, slavio_aux1_mem_read,
456	0019ad53	blueswir1	slavio_aux1_mem_write, s);
457	0019ad53	blueswir1	cpu_register_physical_memory(aux1_base, MISC_SIZE, io);
458	0019ad53	blueswir1	}
459	0019ad53	blueswir1
460	0019ad53	blueswir1	// AUX 2 (Software Powerdown Control)
461	0019ad53	blueswir1	if (aux2_base) {
462	0019ad53	blueswir1	io = cpu_register_io_memory(0, slavio_aux2_mem_read,
463	0019ad53	blueswir1	slavio_aux2_mem_write, s);
464	0019ad53	blueswir1	cpu_register_physical_memory(aux2_base, MISC_SIZE, io);
465	0019ad53	blueswir1	}
466	0019ad53	blueswir1
467	0019ad53	blueswir1	// Power management (APC) XXX: not a Slavio device
468	0019ad53	blueswir1	if (power_base) {
469	0019ad53	blueswir1	io = cpu_register_io_memory(0, apc_mem_read, apc_mem_write, s);
470	0019ad53	blueswir1	cpu_register_physical_memory(power_base, MISC_SIZE, io);
471	0019ad53	blueswir1	}
472	bfa30a38	blueswir1
473	3475187d	bellard	s->irq = irq;
474	6d0c293d	blueswir1	s->cpu_halt = cpu_halt;
475	2be17ebd	blueswir1	*fdc_tc = &s->fdc_tc;
476	3475187d	bellard
477	bfa30a38	blueswir1	register_savevm("slavio_misc", base, 1, slavio_misc_save, slavio_misc_load,
478	bfa30a38	blueswir1	s);
479	3475187d	bellard	qemu_register_reset(slavio_misc_reset, s);
480	3475187d	bellard	slavio_misc_reset(s);
481	0019ad53	blueswir1
482	3475187d	bellard	return s;
483	3475187d	bellard	}

Archipelago » qemu

root / hw / slavio_misc.c @ ffd39257