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1	6f7e9aec	bellard	/*
2	67e999be	bellard	* QEMU ESP/NCR53C9x emulation
3	5fafdf24	ths	*
4	4e9aec74	pbrook	* Copyright (c) 2005-2006 Fabrice Bellard
5	5fafdf24	ths	*
6	6f7e9aec	bellard	* Permission is hereby granted, free of charge, to any person obtaining a copy
7	6f7e9aec	bellard	* of this software and associated documentation files (the "Software"), to deal
8	6f7e9aec	bellard	* in the Software without restriction, including without limitation the rights
9	6f7e9aec	bellard	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
10	6f7e9aec	bellard	* copies of the Software, and to permit persons to whom the Software is
11	6f7e9aec	bellard	* furnished to do so, subject to the following conditions:
12	6f7e9aec	bellard	*
13	6f7e9aec	bellard	* The above copyright notice and this permission notice shall be included in
14	6f7e9aec	bellard	* all copies or substantial portions of the Software.
15	6f7e9aec	bellard	*
16	6f7e9aec	bellard	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17	6f7e9aec	bellard	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18	6f7e9aec	bellard	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19	6f7e9aec	bellard	* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20	6f7e9aec	bellard	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21	6f7e9aec	bellard	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
22	6f7e9aec	bellard	* THE SOFTWARE.
23	6f7e9aec	bellard	*/
24	6f7e9aec	bellard	#include "vl.h"
25	6f7e9aec	bellard
26	6f7e9aec	bellard	/* debug ESP card */
27	2f275b8f	bellard	//#define DEBUG_ESP
28	6f7e9aec	bellard
29	67e999be	bellard	/*
30	67e999be	bellard	* On Sparc32, this is the ESP (NCR53C90) part of chip STP2000 (Master I/O), also
31	67e999be	bellard	* produced as NCR89C100. See
32	67e999be	bellard	* http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR89C100.txt
33	67e999be	bellard	* and
34	67e999be	bellard	* http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR53C9X.txt
35	67e999be	bellard	*/
36	67e999be	bellard
37	6f7e9aec	bellard	#ifdef DEBUG_ESP
38	6f7e9aec	bellard	#define DPRINTF(fmt, args...) \
39	6f7e9aec	bellard	do { printf("ESP: " fmt , ##args); } while (0)
40	6f7e9aec	bellard	#else
41	6f7e9aec	bellard	#define DPRINTF(fmt, args...)
42	6f7e9aec	bellard	#endif
43	6f7e9aec	bellard
44	5aca8c3b	blueswir1	#define ESP_MASK 0x3f
45	5aca8c3b	blueswir1	#define ESP_REGS 16
46	5aca8c3b	blueswir1	#define ESP_SIZE (ESP_REGS * 4)
47	2e5d83bb	pbrook	#define TI_BUFSZ 32
48	fa1fb14c	ths	/* The HBA is ID 7, so for simplicitly limit to 7 devices. */
49	fa1fb14c	ths	#define ESP_MAX_DEVS 7
50	67e999be	bellard
51	4e9aec74	pbrook	typedef struct ESPState ESPState;
52	6f7e9aec	bellard
53	4e9aec74	pbrook	struct ESPState {
54	70c0de96	blueswir1	qemu_irq irq;
55	6f7e9aec	bellard	BlockDriverState **bd;
56	5aca8c3b	blueswir1	uint8_t rregs[ESP_REGS];
57	5aca8c3b	blueswir1	uint8_t wregs[ESP_REGS];
58	67e999be	bellard	int32_t ti_size;
59	4f6200f0	bellard	uint32_t ti_rptr, ti_wptr;
60	4f6200f0	bellard	uint8_t ti_buf[TI_BUFSZ];
61	0fc5c15a	pbrook	int sense;
62	4f6200f0	bellard	int dma;
63	2e5d83bb	pbrook	SCSIDevice *scsi_dev[MAX_DISKS];
64	2e5d83bb	pbrook	SCSIDevice *current_dev;
65	9f149aa9	pbrook	uint8_t cmdbuf[TI_BUFSZ];
66	9f149aa9	pbrook	int cmdlen;
67	9f149aa9	pbrook	int do_cmd;
68	4d611c9a	pbrook
69	6787f5fa	pbrook	/* The amount of data left in the current DMA transfer. */
70	4d611c9a	pbrook	uint32_t dma_left;
71	6787f5fa	pbrook	/* The size of the current DMA transfer. Zero if no transfer is in
72	6787f5fa	pbrook	progress. */
73	6787f5fa	pbrook	uint32_t dma_counter;
74	a917d384	pbrook	uint8_t *async_buf;
75	4d611c9a	pbrook	uint32_t async_len;
76	67e999be	bellard	void *dma_opaque;
77	4e9aec74	pbrook	};
78	6f7e9aec	bellard
79	2f275b8f	bellard	#define STAT_DO 0x00
80	2f275b8f	bellard	#define STAT_DI 0x01
81	2f275b8f	bellard	#define STAT_CD 0x02
82	2f275b8f	bellard	#define STAT_ST 0x03
83	2f275b8f	bellard	#define STAT_MI 0x06
84	2f275b8f	bellard	#define STAT_MO 0x07
85	2f275b8f	bellard
86	2f275b8f	bellard	#define STAT_TC 0x10
87	4d611c9a	pbrook	#define STAT_PE 0x20
88	4d611c9a	pbrook	#define STAT_GE 0x40
89	2f275b8f	bellard	#define STAT_IN 0x80
90	2f275b8f	bellard
91	2f275b8f	bellard	#define INTR_FC 0x08
92	2f275b8f	bellard	#define INTR_BS 0x10
93	2f275b8f	bellard	#define INTR_DC 0x20
94	9e61bde5	bellard	#define INTR_RST 0x80
95	2f275b8f	bellard
96	2f275b8f	bellard	#define SEQ_0 0x0
97	2f275b8f	bellard	#define SEQ_CD 0x4
98	2f275b8f	bellard
99	9f149aa9	pbrook	static int get_cmd(ESPState s, uint8_t buf)
100	2f275b8f	bellard	{
101	a917d384	pbrook	uint32_t dmalen;
102	2f275b8f	bellard	int target;
103	2f275b8f	bellard
104	6787f5fa	pbrook	dmalen = s->rregs[0] \| (s->rregs[1] << 8);
105	4f6200f0	bellard	target = s->wregs[4] & 7;
106	9f149aa9	pbrook	DPRINTF("get_cmd: len %d target %d\n", dmalen, target);
107	4f6200f0	bellard	if (s->dma) {
108	67e999be	bellard	espdma_memory_read(s->dma_opaque, buf, dmalen);
109	4f6200f0	bellard	} else {
110	4f6200f0	bellard	buf[0] = 0;
111	4f6200f0	bellard	memcpy(&buf[1], s->ti_buf, dmalen);
112	4f6200f0	bellard	dmalen++;
113	4f6200f0	bellard	}
114	2e5d83bb	pbrook
115	2f275b8f	bellard	s->ti_size = 0;
116	4f6200f0	bellard	s->ti_rptr = 0;
117	4f6200f0	bellard	s->ti_wptr = 0;
118	2f275b8f	bellard
119	a917d384	pbrook	if (s->current_dev) {
120	a917d384	pbrook	/* Started a new command before the old one finished. Cancel it. */
121	a917d384	pbrook	scsi_cancel_io(s->current_dev, 0);
122	a917d384	pbrook	s->async_len = 0;
123	a917d384	pbrook	}
124	a917d384	pbrook
125	67e999be	bellard	if (target >= MAX_DISKS \|\| !s->scsi_dev[target]) {
126	2e5d83bb	pbrook	// No such drive
127	2f275b8f	bellard	s->rregs[4] = STAT_IN;
128	2f275b8f	bellard	s->rregs[5] = INTR_DC;
129	2f275b8f	bellard	s->rregs[6] = SEQ_0;
130	70c0de96	blueswir1	qemu_irq_raise(s->irq);
131	9f149aa9	pbrook	return 0;
132	2f275b8f	bellard	}
133	2e5d83bb	pbrook	s->current_dev = s->scsi_dev[target];
134	9f149aa9	pbrook	return dmalen;
135	9f149aa9	pbrook	}
136	9f149aa9	pbrook
137	9f149aa9	pbrook	static void do_cmd(ESPState s, uint8_t buf)
138	9f149aa9	pbrook	{
139	9f149aa9	pbrook	int32_t datalen;
140	9f149aa9	pbrook	int lun;
141	9f149aa9	pbrook
142	9f149aa9	pbrook	DPRINTF("do_cmd: busid 0x%x\n", buf[0]);
143	9f149aa9	pbrook	lun = buf[0] & 7;
144	0fc5c15a	pbrook	datalen = scsi_send_command(s->current_dev, 0, &buf[1], lun);
145	67e999be	bellard	s->ti_size = datalen;
146	67e999be	bellard	if (datalen != 0) {
147	2e5d83bb	pbrook	s->rregs[4] = STAT_IN \| STAT_TC;
148	a917d384	pbrook	s->dma_left = 0;
149	6787f5fa	pbrook	s->dma_counter = 0;
150	2e5d83bb	pbrook	if (datalen > 0) {
151	2e5d83bb	pbrook	s->rregs[4] \|= STAT_DI;
152	a917d384	pbrook	scsi_read_data(s->current_dev, 0);
153	2e5d83bb	pbrook	} else {
154	2e5d83bb	pbrook	s->rregs[4] \|= STAT_DO;
155	a917d384	pbrook	scsi_write_data(s->current_dev, 0);
156	b9788fc4	bellard	}
157	2f275b8f	bellard	}
158	2f275b8f	bellard	s->rregs[5] = INTR_BS \| INTR_FC;
159	2f275b8f	bellard	s->rregs[6] = SEQ_CD;
160	70c0de96	blueswir1	qemu_irq_raise(s->irq);
161	2f275b8f	bellard	}
162	2f275b8f	bellard
163	9f149aa9	pbrook	static void handle_satn(ESPState *s)
164	9f149aa9	pbrook	{
165	9f149aa9	pbrook	uint8_t buf[32];
166	9f149aa9	pbrook	int len;
167	9f149aa9	pbrook
168	9f149aa9	pbrook	len = get_cmd(s, buf);
169	9f149aa9	pbrook	if (len)
170	9f149aa9	pbrook	do_cmd(s, buf);
171	9f149aa9	pbrook	}
172	9f149aa9	pbrook
173	9f149aa9	pbrook	static void handle_satn_stop(ESPState *s)
174	9f149aa9	pbrook	{
175	9f149aa9	pbrook	s->cmdlen = get_cmd(s, s->cmdbuf);
176	9f149aa9	pbrook	if (s->cmdlen) {
177	9f149aa9	pbrook	DPRINTF("Set ATN & Stop: cmdlen %d\n", s->cmdlen);
178	9f149aa9	pbrook	s->do_cmd = 1;
179	9f149aa9	pbrook	s->rregs[4] = STAT_IN \| STAT_TC \| STAT_CD;
180	9f149aa9	pbrook	s->rregs[5] = INTR_BS \| INTR_FC;
181	9f149aa9	pbrook	s->rregs[6] = SEQ_CD;
182	70c0de96	blueswir1	qemu_irq_raise(s->irq);
183	9f149aa9	pbrook	}
184	9f149aa9	pbrook	}
185	9f149aa9	pbrook
186	0fc5c15a	pbrook	static void write_response(ESPState *s)
187	2f275b8f	bellard	{
188	0fc5c15a	pbrook	DPRINTF("Transfer status (sense=%d)\n", s->sense);
189	0fc5c15a	pbrook	s->ti_buf[0] = s->sense;
190	0fc5c15a	pbrook	s->ti_buf[1] = 0;
191	4f6200f0	bellard	if (s->dma) {
192	67e999be	bellard	espdma_memory_write(s->dma_opaque, s->ti_buf, 2);
193	4f6200f0	bellard	s->rregs[4] = STAT_IN \| STAT_TC \| STAT_ST;
194	4f6200f0	bellard	s->rregs[5] = INTR_BS \| INTR_FC;
195	4f6200f0	bellard	s->rregs[6] = SEQ_CD;
196	4f6200f0	bellard	} else {
197	0fc5c15a	pbrook	s->ti_size = 2;
198	4f6200f0	bellard	s->ti_rptr = 0;
199	4f6200f0	bellard	s->ti_wptr = 0;
200	0fc5c15a	pbrook	s->rregs[7] = 2;
201	4f6200f0	bellard	}
202	70c0de96	blueswir1	qemu_irq_raise(s->irq);
203	2f275b8f	bellard	}
204	4f6200f0	bellard
205	a917d384	pbrook	static void esp_dma_done(ESPState *s)
206	a917d384	pbrook	{
207	a917d384	pbrook	s->rregs[4] \|= STAT_IN \| STAT_TC;
208	a917d384	pbrook	s->rregs[5] = INTR_BS;
209	a917d384	pbrook	s->rregs[6] = 0;
210	a917d384	pbrook	s->rregs[7] = 0;
211	6787f5fa	pbrook	s->rregs[0] = 0;
212	6787f5fa	pbrook	s->rregs[1] = 0;
213	70c0de96	blueswir1	qemu_irq_raise(s->irq);
214	a917d384	pbrook	}
215	a917d384	pbrook
216	4d611c9a	pbrook	static void esp_do_dma(ESPState *s)
217	4d611c9a	pbrook	{
218	67e999be	bellard	uint32_t len;
219	4d611c9a	pbrook	int to_device;
220	a917d384	pbrook
221	67e999be	bellard	to_device = (s->ti_size < 0);
222	a917d384	pbrook	len = s->dma_left;
223	4d611c9a	pbrook	if (s->do_cmd) {
224	4d611c9a	pbrook	DPRINTF("command len %d + %d\n", s->cmdlen, len);
225	67e999be	bellard	espdma_memory_read(s->dma_opaque, &s->cmdbuf[s->cmdlen], len);
226	4d611c9a	pbrook	s->ti_size = 0;
227	4d611c9a	pbrook	s->cmdlen = 0;
228	4d611c9a	pbrook	s->do_cmd = 0;
229	4d611c9a	pbrook	do_cmd(s, s->cmdbuf);
230	4d611c9a	pbrook	return;
231	a917d384	pbrook	}
232	a917d384	pbrook	if (s->async_len == 0) {
233	a917d384	pbrook	/* Defer until data is available. */
234	a917d384	pbrook	return;
235	a917d384	pbrook	}
236	a917d384	pbrook	if (len > s->async_len) {
237	a917d384	pbrook	len = s->async_len;
238	a917d384	pbrook	}
239	a917d384	pbrook	if (to_device) {
240	67e999be	bellard	espdma_memory_read(s->dma_opaque, s->async_buf, len);
241	4d611c9a	pbrook	} else {
242	67e999be	bellard	espdma_memory_write(s->dma_opaque, s->async_buf, len);
243	a917d384	pbrook	}
244	a917d384	pbrook	s->dma_left -= len;
245	a917d384	pbrook	s->async_buf += len;
246	a917d384	pbrook	s->async_len -= len;
247	6787f5fa	pbrook	if (to_device)
248	6787f5fa	pbrook	s->ti_size += len;
249	6787f5fa	pbrook	else
250	6787f5fa	pbrook	s->ti_size -= len;
251	a917d384	pbrook	if (s->async_len == 0) {
252	4d611c9a	pbrook	if (to_device) {
253	67e999be	bellard	// ti_size is negative
254	a917d384	pbrook	scsi_write_data(s->current_dev, 0);
255	4d611c9a	pbrook	} else {
256	a917d384	pbrook	scsi_read_data(s->current_dev, 0);
257	6787f5fa	pbrook	/* If there is still data to be read from the device then
258	6787f5fa	pbrook	complete the DMA operation immeriately. Otherwise defer
259	6787f5fa	pbrook	until the scsi layer has completed. */
260	6787f5fa	pbrook	if (s->dma_left == 0 && s->ti_size > 0) {
261	6787f5fa	pbrook	esp_dma_done(s);
262	6787f5fa	pbrook	}
263	4d611c9a	pbrook	}
264	6787f5fa	pbrook	} else {
265	6787f5fa	pbrook	/* Partially filled a scsi buffer. Complete immediately. */
266	a917d384	pbrook	esp_dma_done(s);
267	a917d384	pbrook	}
268	4d611c9a	pbrook	}
269	4d611c9a	pbrook
270	a917d384	pbrook	static void esp_command_complete(void *opaque, int reason, uint32_t tag,
271	a917d384	pbrook	uint32_t arg)
272	2e5d83bb	pbrook	{
273	2e5d83bb	pbrook	ESPState s = (ESPState )opaque;
274	2e5d83bb	pbrook
275	4d611c9a	pbrook	if (reason == SCSI_REASON_DONE) {
276	4d611c9a	pbrook	DPRINTF("SCSI Command complete\n");
277	4d611c9a	pbrook	if (s->ti_size != 0)
278	4d611c9a	pbrook	DPRINTF("SCSI command completed unexpectedly\n");
279	4d611c9a	pbrook	s->ti_size = 0;
280	a917d384	pbrook	s->dma_left = 0;
281	a917d384	pbrook	s->async_len = 0;
282	a917d384	pbrook	if (arg)
283	4d611c9a	pbrook	DPRINTF("Command failed\n");
284	a917d384	pbrook	s->sense = arg;
285	a917d384	pbrook	s->rregs[4] = STAT_ST;
286	a917d384	pbrook	esp_dma_done(s);
287	a917d384	pbrook	s->current_dev = NULL;
288	4d611c9a	pbrook	} else {
289	4d611c9a	pbrook	DPRINTF("transfer %d/%d\n", s->dma_left, s->ti_size);
290	a917d384	pbrook	s->async_len = arg;
291	a917d384	pbrook	s->async_buf = scsi_get_buf(s->current_dev, 0);
292	6787f5fa	pbrook	if (s->dma_left) {
293	a917d384	pbrook	esp_do_dma(s);
294	6787f5fa	pbrook	} else if (s->dma_counter != 0 && s->ti_size <= 0) {
295	6787f5fa	pbrook	/* If this was the last part of a DMA transfer then the
296	6787f5fa	pbrook	completion interrupt is deferred to here. */
297	6787f5fa	pbrook	esp_dma_done(s);
298	6787f5fa	pbrook	}
299	4d611c9a	pbrook	}
300	2e5d83bb	pbrook	}
301	2e5d83bb	pbrook
302	2f275b8f	bellard	static void handle_ti(ESPState *s)
303	2f275b8f	bellard	{
304	4d611c9a	pbrook	uint32_t dmalen, minlen;
305	2f275b8f	bellard
306	6787f5fa	pbrook	dmalen = s->rregs[0] \| (s->rregs[1] << 8);
307	db59203d	pbrook	if (dmalen==0) {
308	db59203d	pbrook	dmalen=0x10000;
309	db59203d	pbrook	}
310	6787f5fa	pbrook	s->dma_counter = dmalen;
311	db59203d	pbrook
312	9f149aa9	pbrook	if (s->do_cmd)
313	9f149aa9	pbrook	minlen = (dmalen < 32) ? dmalen : 32;
314	67e999be	bellard	else if (s->ti_size < 0)
315	67e999be	bellard	minlen = (dmalen < -s->ti_size) ? dmalen : -s->ti_size;
316	9f149aa9	pbrook	else
317	9f149aa9	pbrook	minlen = (dmalen < s->ti_size) ? dmalen : s->ti_size;
318	db59203d	pbrook	DPRINTF("Transfer Information len %d\n", minlen);
319	4f6200f0	bellard	if (s->dma) {
320	4d611c9a	pbrook	s->dma_left = minlen;
321	4d611c9a	pbrook	s->rregs[4] &= ~STAT_TC;
322	4d611c9a	pbrook	esp_do_dma(s);
323	9f149aa9	pbrook	} else if (s->do_cmd) {
324	9f149aa9	pbrook	DPRINTF("command len %d\n", s->cmdlen);
325	9f149aa9	pbrook	s->ti_size = 0;
326	9f149aa9	pbrook	s->cmdlen = 0;
327	9f149aa9	pbrook	s->do_cmd = 0;
328	9f149aa9	pbrook	do_cmd(s, s->cmdbuf);
329	9f149aa9	pbrook	return;
330	9f149aa9	pbrook	}
331	2f275b8f	bellard	}
332	2f275b8f	bellard
333	5aca8c3b	blueswir1	static void esp_reset(void *opaque)
334	6f7e9aec	bellard	{
335	6f7e9aec	bellard	ESPState *s = opaque;
336	67e999be	bellard
337	5aca8c3b	blueswir1	memset(s->rregs, 0, ESP_REGS);
338	5aca8c3b	blueswir1	memset(s->wregs, 0, ESP_REGS);
339	2f275b8f	bellard	s->rregs[0x0e] = 0x4; // Indicate fas100a
340	4e9aec74	pbrook	s->ti_size = 0;
341	4e9aec74	pbrook	s->ti_rptr = 0;
342	4e9aec74	pbrook	s->ti_wptr = 0;
343	4e9aec74	pbrook	s->dma = 0;
344	9f149aa9	pbrook	s->do_cmd = 0;
345	6f7e9aec	bellard	}
346	6f7e9aec	bellard
347	2d069bab	blueswir1	static void parent_esp_reset(void *opaque, int irq, int level)
348	2d069bab	blueswir1	{
349	2d069bab	blueswir1	if (level)
350	2d069bab	blueswir1	esp_reset(opaque);
351	2d069bab	blueswir1	}
352	2d069bab	blueswir1
353	6f7e9aec	bellard	static uint32_t esp_mem_readb(void *opaque, target_phys_addr_t addr)
354	6f7e9aec	bellard	{
355	6f7e9aec	bellard	ESPState *s = opaque;
356	6f7e9aec	bellard	uint32_t saddr;
357	6f7e9aec	bellard
358	5aca8c3b	blueswir1	saddr = (addr & ESP_MASK) >> 2;
359	9e61bde5	bellard	DPRINTF("read reg[%d]: 0x%2.2x\n", saddr, s->rregs[saddr]);
360	6f7e9aec	bellard	switch (saddr) {
361	4f6200f0	bellard	case 2:
362	4f6200f0	bellard	// FIFO
363	4f6200f0	bellard	if (s->ti_size > 0) {
364	4f6200f0	bellard	s->ti_size--;
365	2e5d83bb	pbrook	if ((s->rregs[4] & 6) == 0) {
366	2e5d83bb	pbrook	/* Data in/out. */
367	a917d384	pbrook	fprintf(stderr, "esp: PIO data read not implemented\n");
368	a917d384	pbrook	s->rregs[2] = 0;
369	2e5d83bb	pbrook	} else {
370	2e5d83bb	pbrook	s->rregs[2] = s->ti_buf[s->ti_rptr++];
371	2e5d83bb	pbrook	}
372	70c0de96	blueswir1	qemu_irq_raise(s->irq);
373	4f6200f0	bellard	}
374	4f6200f0	bellard	if (s->ti_size == 0) {
375	4f6200f0	bellard	s->ti_rptr = 0;
376	4f6200f0	bellard	s->ti_wptr = 0;
377	4f6200f0	bellard	}
378	4f6200f0	bellard	break;
379	9e61bde5	bellard	case 5:
380	9e61bde5	bellard	// interrupt
381	4d611c9a	pbrook	// Clear interrupt/error status bits
382	4d611c9a	pbrook	s->rregs[4] &= ~(STAT_IN \| STAT_GE \| STAT_PE);
383	70c0de96	blueswir1	qemu_irq_lower(s->irq);
384	9e61bde5	bellard	break;
385	6f7e9aec	bellard	default:
386	6f7e9aec	bellard	break;
387	6f7e9aec	bellard	}
388	2f275b8f	bellard	return s->rregs[saddr];
389	6f7e9aec	bellard	}
390	6f7e9aec	bellard
391	6f7e9aec	bellard	static void esp_mem_writeb(void *opaque, target_phys_addr_t addr, uint32_t val)
392	6f7e9aec	bellard	{
393	6f7e9aec	bellard	ESPState *s = opaque;
394	6f7e9aec	bellard	uint32_t saddr;
395	6f7e9aec	bellard
396	5aca8c3b	blueswir1	saddr = (addr & ESP_MASK) >> 2;
397	2f275b8f	bellard	DPRINTF("write reg[%d]: 0x%2.2x -> 0x%2.2x\n", saddr, s->wregs[saddr], val);
398	6f7e9aec	bellard	switch (saddr) {
399	4f6200f0	bellard	case 0:
400	4f6200f0	bellard	case 1:
401	4d611c9a	pbrook	s->rregs[4] &= ~STAT_TC;
402	4f6200f0	bellard	break;
403	4f6200f0	bellard	case 2:
404	4f6200f0	bellard	// FIFO
405	9f149aa9	pbrook	if (s->do_cmd) {
406	9f149aa9	pbrook	s->cmdbuf[s->cmdlen++] = val & 0xff;
407	9f149aa9	pbrook	} else if ((s->rregs[4] & 6) == 0) {
408	2e5d83bb	pbrook	uint8_t buf;
409	2e5d83bb	pbrook	buf = val & 0xff;
410	2e5d83bb	pbrook	s->ti_size--;
411	a917d384	pbrook	fprintf(stderr, "esp: PIO data write not implemented\n");
412	2e5d83bb	pbrook	} else {
413	2e5d83bb	pbrook	s->ti_size++;
414	2e5d83bb	pbrook	s->ti_buf[s->ti_wptr++] = val & 0xff;
415	2e5d83bb	pbrook	}
416	4f6200f0	bellard	break;
417	6f7e9aec	bellard	case 3:
418	4f6200f0	bellard	s->rregs[saddr] = val;
419	6f7e9aec	bellard	// Command
420	4f6200f0	bellard	if (val & 0x80) {
421	4f6200f0	bellard	s->dma = 1;
422	6787f5fa	pbrook	/* Reload DMA counter. */
423	6787f5fa	pbrook	s->rregs[0] = s->wregs[0];
424	6787f5fa	pbrook	s->rregs[1] = s->wregs[1];
425	4f6200f0	bellard	} else {
426	4f6200f0	bellard	s->dma = 0;
427	4f6200f0	bellard	}
428	6f7e9aec	bellard	switch(val & 0x7f) {
429	6f7e9aec	bellard	case 0:
430	2f275b8f	bellard	DPRINTF("NOP (%2.2x)\n", val);
431	2f275b8f	bellard	break;
432	2f275b8f	bellard	case 1:
433	2f275b8f	bellard	DPRINTF("Flush FIFO (%2.2x)\n", val);
434	9e61bde5	bellard	//s->ti_size = 0;
435	2f275b8f	bellard	s->rregs[5] = INTR_FC;
436	9e61bde5	bellard	s->rregs[6] = 0;
437	6f7e9aec	bellard	break;
438	6f7e9aec	bellard	case 2:
439	2f275b8f	bellard	DPRINTF("Chip reset (%2.2x)\n", val);
440	6f7e9aec	bellard	esp_reset(s);
441	6f7e9aec	bellard	break;
442	6f7e9aec	bellard	case 3:
443	2f275b8f	bellard	DPRINTF("Bus reset (%2.2x)\n", val);
444	9e61bde5	bellard	s->rregs[5] = INTR_RST;
445	9e61bde5	bellard	if (!(s->wregs[8] & 0x40)) {
446	70c0de96	blueswir1	qemu_irq_raise(s->irq);
447	9e61bde5	bellard	}
448	2f275b8f	bellard	break;
449	2f275b8f	bellard	case 0x10:
450	2f275b8f	bellard	handle_ti(s);
451	2f275b8f	bellard	break;
452	2f275b8f	bellard	case 0x11:
453	2f275b8f	bellard	DPRINTF("Initiator Command Complete Sequence (%2.2x)\n", val);
454	0fc5c15a	pbrook	write_response(s);
455	2f275b8f	bellard	break;
456	2f275b8f	bellard	case 0x12:
457	2f275b8f	bellard	DPRINTF("Message Accepted (%2.2x)\n", val);
458	0fc5c15a	pbrook	write_response(s);
459	2f275b8f	bellard	s->rregs[5] = INTR_DC;
460	2f275b8f	bellard	s->rregs[6] = 0;
461	6f7e9aec	bellard	break;
462	6f7e9aec	bellard	case 0x1a:
463	2f275b8f	bellard	DPRINTF("Set ATN (%2.2x)\n", val);
464	6f7e9aec	bellard	break;
465	6f7e9aec	bellard	case 0x42:
466	9f149aa9	pbrook	DPRINTF("Set ATN (%2.2x)\n", val);
467	2f275b8f	bellard	handle_satn(s);
468	2f275b8f	bellard	break;
469	2f275b8f	bellard	case 0x43:
470	2f275b8f	bellard	DPRINTF("Set ATN & stop (%2.2x)\n", val);
471	9f149aa9	pbrook	handle_satn_stop(s);
472	2f275b8f	bellard	break;
473	74ec6048	blueswir1	case 0x44:
474	74ec6048	blueswir1	DPRINTF("Enable selection (%2.2x)\n", val);
475	74ec6048	blueswir1	break;
476	2f275b8f	bellard	default:
477	4f6200f0	bellard	DPRINTF("Unhandled ESP command (%2.2x)\n", val);
478	6f7e9aec	bellard	break;
479	6f7e9aec	bellard	}
480	6f7e9aec	bellard	break;
481	6f7e9aec	bellard	case 4 ... 7:
482	6f7e9aec	bellard	break;
483	4f6200f0	bellard	case 8:
484	4f6200f0	bellard	s->rregs[saddr] = val;
485	4f6200f0	bellard	break;
486	4f6200f0	bellard	case 9 ... 10:
487	4f6200f0	bellard	break;
488	9e61bde5	bellard	case 11:
489	9e61bde5	bellard	s->rregs[saddr] = val & 0x15;
490	9e61bde5	bellard	break;
491	9e61bde5	bellard	case 12 ... 15:
492	4f6200f0	bellard	s->rregs[saddr] = val;
493	4f6200f0	bellard	break;
494	6f7e9aec	bellard	default:
495	6f7e9aec	bellard	break;
496	6f7e9aec	bellard	}
497	2f275b8f	bellard	s->wregs[saddr] = val;
498	6f7e9aec	bellard	}
499	6f7e9aec	bellard
500	6f7e9aec	bellard	static CPUReadMemoryFunc *esp_mem_read[3] = {
501	6f7e9aec	bellard	esp_mem_readb,
502	6f7e9aec	bellard	esp_mem_readb,
503	6f7e9aec	bellard	esp_mem_readb,
504	6f7e9aec	bellard	};
505	6f7e9aec	bellard
506	6f7e9aec	bellard	static CPUWriteMemoryFunc *esp_mem_write[3] = {
507	6f7e9aec	bellard	esp_mem_writeb,
508	6f7e9aec	bellard	esp_mem_writeb,
509	6f7e9aec	bellard	esp_mem_writeb,
510	6f7e9aec	bellard	};
511	6f7e9aec	bellard
512	6f7e9aec	bellard	static void esp_save(QEMUFile f, void opaque)
513	6f7e9aec	bellard	{
514	6f7e9aec	bellard	ESPState *s = opaque;
515	2f275b8f	bellard
516	5aca8c3b	blueswir1	qemu_put_buffer(f, s->rregs, ESP_REGS);
517	5aca8c3b	blueswir1	qemu_put_buffer(f, s->wregs, ESP_REGS);
518	4f6200f0	bellard	qemu_put_be32s(f, &s->ti_size);
519	4f6200f0	bellard	qemu_put_be32s(f, &s->ti_rptr);
520	4f6200f0	bellard	qemu_put_be32s(f, &s->ti_wptr);
521	4f6200f0	bellard	qemu_put_buffer(f, s->ti_buf, TI_BUFSZ);
522	5425a216	blueswir1	qemu_put_be32s(f, &s->sense);
523	4f6200f0	bellard	qemu_put_be32s(f, &s->dma);
524	5425a216	blueswir1	qemu_put_buffer(f, s->cmdbuf, TI_BUFSZ);
525	5425a216	blueswir1	qemu_put_be32s(f, &s->cmdlen);
526	5425a216	blueswir1	qemu_put_be32s(f, &s->do_cmd);
527	5425a216	blueswir1	qemu_put_be32s(f, &s->dma_left);
528	5425a216	blueswir1	// There should be no transfers in progress, so dma_counter is not saved
529	6f7e9aec	bellard	}
530	6f7e9aec	bellard
531	6f7e9aec	bellard	static int esp_load(QEMUFile f, void opaque, int version_id)
532	6f7e9aec	bellard	{
533	6f7e9aec	bellard	ESPState *s = opaque;
534	5fafdf24	ths
535	5425a216	blueswir1	if (version_id != 3)
536	5425a216	blueswir1	return -EINVAL; // Cannot emulate 2
537	6f7e9aec	bellard
538	5aca8c3b	blueswir1	qemu_get_buffer(f, s->rregs, ESP_REGS);
539	5aca8c3b	blueswir1	qemu_get_buffer(f, s->wregs, ESP_REGS);
540	4f6200f0	bellard	qemu_get_be32s(f, &s->ti_size);
541	4f6200f0	bellard	qemu_get_be32s(f, &s->ti_rptr);
542	4f6200f0	bellard	qemu_get_be32s(f, &s->ti_wptr);
543	4f6200f0	bellard	qemu_get_buffer(f, s->ti_buf, TI_BUFSZ);
544	5425a216	blueswir1	qemu_get_be32s(f, &s->sense);
545	4f6200f0	bellard	qemu_get_be32s(f, &s->dma);
546	5425a216	blueswir1	qemu_get_buffer(f, s->cmdbuf, TI_BUFSZ);
547	5425a216	blueswir1	qemu_get_be32s(f, &s->cmdlen);
548	5425a216	blueswir1	qemu_get_be32s(f, &s->do_cmd);
549	5425a216	blueswir1	qemu_get_be32s(f, &s->dma_left);
550	2f275b8f	bellard
551	6f7e9aec	bellard	return 0;
552	6f7e9aec	bellard	}
553	6f7e9aec	bellard
554	fa1fb14c	ths	void esp_scsi_attach(void opaque, BlockDriverState bd, int id)
555	fa1fb14c	ths	{
556	fa1fb14c	ths	ESPState s = (ESPState )opaque;
557	fa1fb14c	ths
558	fa1fb14c	ths	if (id < 0) {
559	fa1fb14c	ths	for (id = 0; id < ESP_MAX_DEVS; id++) {
560	fa1fb14c	ths	if (s->scsi_dev[id] == NULL)
561	fa1fb14c	ths	break;
562	fa1fb14c	ths	}
563	fa1fb14c	ths	}
564	fa1fb14c	ths	if (id >= ESP_MAX_DEVS) {
565	fa1fb14c	ths	DPRINTF("Bad Device ID %d\n", id);
566	fa1fb14c	ths	return;
567	fa1fb14c	ths	}
568	fa1fb14c	ths	if (s->scsi_dev[id]) {
569	fa1fb14c	ths	DPRINTF("Destroying device %d\n", id);
570	fa1fb14c	ths	scsi_disk_destroy(s->scsi_dev[id]);
571	fa1fb14c	ths	}
572	fa1fb14c	ths	DPRINTF("Attaching block device %d\n", id);
573	fa1fb14c	ths	/* Command queueing is not implemented. */
574	fa1fb14c	ths	s->scsi_dev[id] = scsi_disk_init(bd, 0, esp_command_complete, s);
575	fa1fb14c	ths	}
576	fa1fb14c	ths
577	5dcb6b91	blueswir1	void esp_init(BlockDriverState *bd, target_phys_addr_t espaddr,
578	2d069bab	blueswir1	void dma_opaque, qemu_irq irq, qemu_irq reset)
579	6f7e9aec	bellard	{
580	6f7e9aec	bellard	ESPState *s;
581	67e999be	bellard	int esp_io_memory;
582	6f7e9aec	bellard
583	6f7e9aec	bellard	s = qemu_mallocz(sizeof(ESPState));
584	6f7e9aec	bellard	if (!s)
585	67e999be	bellard	return NULL;
586	6f7e9aec	bellard
587	6f7e9aec	bellard	s->bd = bd;
588	70c0de96	blueswir1	s->irq = irq;
589	67e999be	bellard	s->dma_opaque = dma_opaque;
590	6f7e9aec	bellard
591	6f7e9aec	bellard	esp_io_memory = cpu_register_io_memory(0, esp_mem_read, esp_mem_write, s);
592	5aca8c3b	blueswir1	cpu_register_physical_memory(espaddr, ESP_SIZE, esp_io_memory);
593	6f7e9aec	bellard
594	6f7e9aec	bellard	esp_reset(s);
595	6f7e9aec	bellard
596	5425a216	blueswir1	register_savevm("esp", espaddr, 3, esp_save, esp_load, s);
597	6f7e9aec	bellard	qemu_register_reset(esp_reset, s);
598	6f7e9aec	bellard
599	2d069bab	blueswir1	reset = qemu_allocate_irqs(parent_esp_reset, s, 1);
600	2d069bab	blueswir1
601	67e999be	bellard	return s;
602	67e999be	bellard	}

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